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Agenda 06/11/2014
PELICAN BAY SERVICES DIVISION Municipal Service Taxing and Benefit Unit NOTICE OF PUBLIC MEETING WEDNESDAY, JUNE 11, 2014 THE CLAM BAY COMMITTEE OF THE PELICAN BAY SERVICES DIVISION WILL MEET WEDNESDAY, JUNE 11, 2014 AT 1 :00 PM AT THE COMMUNITY CENTER AT PELICAN BAY, 8960 HAMMOCK OAK DRIVE, NAPLES, FL 34108. AGENDA The agenda includes, but is not limited: 1 . Roll Call 2. Agenda Approval 3. Audience Comments 4. Discussion of Latest Draft of Management Plan 5. Approval of Management Plan. 6. Discussion of Copper Data for Clam Bay and Berm 7. Next meeting and Suggested Topics for same 8. Other 9. Adjourn ANY PERSON WISHING TO SPEAK ON AN AGENDA ITEM WILL RECEIVE UP TO ONE (1) MINUTE PER ITEM TO ADDRESS THE BOARD. THE BOARD WILL SOLICIT PUBLIC COMMENTS ON SUBJECTS NOT ON THIS AGENDA AND ANY PERSON WISHING TO SPEAK WILL RECEIVE UP TO THREE (3) MINUTES. THE BOARD ENCOURAGES YOU TO SUBMIT YOUR COMMENTS IN WRITING IN ADVANCE OF THE MEETING. ANY PERSON WHO DECIDES TO APPEAL A DECISION OF THIS BOARD WILL NEED A RECORD OF THE PROCEEDING PERTAINING THERETO, AND THEREFORE MAY NEED TO ENSURE THAT A VERBATIM RECORD IS MADE, WHICH INCLUDES THE TESTIMONY AND EVIDENCE UPON WHICH THE APPEAL IS TO BE BASED. IF YOU ARE A PERSON WITH A DISABILITY WHO NEEDS AN ACCOMMODATION IN ORDER TO PARTICIPATE IN THIS MEETING YOU ARE ENTITLED TO THE PROVISION OF CERTAIN ASSISTANCE. PLEASE CONTACT THE PELICAN BAY SERVICES DIVISION AT (239) 597-1749. VISIT US AT HTTP://PELICANBAYSERVICESDIVISION.NET. 6/05/2014 Management Plan Goal and Objectives (as edited on May 22 and 30) The following goal and supporting objectives for the management of the Clam Bay Natural Resource Protection Area (NRPA) were developed in accordance with the directives of the Collier County Board of Commissioners (BCC) and the Pelican Bay Services Division (PBSD) which serves as an advisory board to the BCC. The goal and supporting objectives were formed in conjunction with stakeholder input and are based on the management issues present in the NRPA as well as the purposes for which the land is held in public trust. The Clam Bay NRPA requires active management to ensure its long-term health. The goal and supporting objectives set forth in this plan should not appreciably change over time, but management techniques and strategies may be modified to appropriately manage the NRPA. Annual reports will be completed, documenting the results and analysis of all monitoring activities over the course of the previous year. The ability to implement specific objectives of the management plan is dependent upon available administrative and financial support. Therefore, activities will require prioritization to remain within available funding. Management strategies will be reviewed annually and adapted as needed. GOAL The goal of the Clam Bay NRPA Management Plan is to establish the basis for management activities that will be undertaken to protect the health of the estuary. Objectives to support this goal include: 1. Maintain and protect the native floral and faunal communities within the Clam Bay NRPA. 2. Ensure the estuary has adequate tidal and freshwater flows to maintain ecological health within the Clam Bay NRPA. 3. Monitor and maintain water quality within the Clam Bay NRPA. 4. Monitor archaeological sites with the Clam Bay NRPA. 5. Ensure recreational activities are environmentally compatible within the Clam Bay NRPA. These objectives were formed to allow for adaptive management,whereby the compilation and analysis of all data will occur holistically and provide direction to adjust strategies to better achieve the goal. 1 Objective 1 Maintain and protect the native floral and faunal communities within the Clam Bay NRPA. A.. Maintain healthy, native floral and faunal populations. • Establish plots and photo points in Scrub and Hammock habitats and monitor periodically. • Monitor established plots in the mangroves periodically. • Monitor established transects in the seagrass beds periodically. • Update list of observed wildlife periodically. • Monitor benthic organisms periodically. B. Protect listed species. • Monitor gopher tortoise burrows periodically. • Report Collier County's sea turtle nesting findings annually. • Update the list of listed species in the NRPA as new species are sighted. • Conduct surveys prior to disturbance events. • Update educational information on species, such as the Clam Bay Guide as needed. C. Remove exotic and nuisance flora and fauna • Locate and identify exotic, non-native, and nuisance species. • Remove or report to the responsible entity for removal Category I and II invasive exotic species and nuisance species as needed. 2 Objective 2 - Ensure the estuary has adequate tidal and freshwater flows to maintain ecological health within the Clam Bay NRPA. A. Identify the minimum tidal flow necessary to ensure a healthy ecosystem. Provide sufficient tidal exchange to maximize benefits while minimizing negative environmental impacts. • Conduct periodic bathymetric surveys of Clam Pass. o Conduct periodic analysis of tidal data. o Maintain tidal gauges. o Conduct bathymetric surveys of interconnecting waterways when needed. o Determine through regular biological monitoring whether ecological health warrants intervention strategies. o Seek appropriate federal and state permits to dredge Clam Pass or the interconnecting waterways if needed. o Monitor identified variables of Clam Pass conditions to determine when dredging is needed. (See Chapter 5 and Appendix X for information on variables.) B. Ensure appropriate freshwater inputs and drainage o Conduct periodic monitoring of hand-dug channels. o Perform periodic maintenance of selected sections of hand-dug channels. o Develop intervention strategies if data indicate the need. Objective 3 - Monitor and maintain water quality within the Clam Bay NRPA A. Develop a long-term water quality program that ensures a sustainable healthy environment for all users. o Continue a program of water quality data collection,making certain that all protocols and sampling locations comply with FDEP guidelines and standards and address the Site Specific Criteria approved by FDEP. o Review and report water quality data, including comparison to historical data and in conjuntion with biological data. o Develop intervention strategies when standards are not met. o Enter data into STORET system on an annual basis. o Develop a plan to address copper impairment in Clam Bay. B. Support programs for controlling water pollution from point and nonpoint sources. o Support Best Management Practices for fertilizer and irrigation use in Pelican Bay. o Support programs to reduce algae levels in upland stormwater ponds in Pelican Bay. 3 • Support programs to reduce additional copper input into stormwater ponds in Pelican Bay. Objective 4-Monitor archaeological sites within the Clam Bay NRPA. A. Monitor conditions of known archaeological sites. • Review historical records of Florida Division of Historical Recourse (DHR) on known archaeological sites. • Inspect known archaeological sites periodically. • Report findings as appropriate to DHR. B. Implement strategies to protect known archaeological sites as needed. Objective 5 -Ensure recreational activities are environmentally compatible within the Clam Bay NRPA. A. Monitor access and condition of the facilities for recreational uses. • Report vegetation needing to be trimmed to the responsible entity. • Report litter needing to be removed to the responsible entity. • Report facilities needing to be repaired or replaced to the responsible entity. B. Maintain existing canoe trail. • Inspect signage periodically. • Repair or replace signage as needed. • Repair or replace seagrass and caution shoaling signs as needed. • Revise and/or reprint the canoe trail guide as needed. C. Maintain existing signage for safe swimmer and boater usage • Inspect signage periodically. • Repair or replace signage as needed. D. Monitor use of facilities/area for recreation uses. • Encourage citizens to reports unsafe or environmentally harmful use. • Coordinate with the responsible entity to enforce the law and regulations as needed. • Continue to support the use of the Clam Bay NRPA for low-impact recreation uses. E.Maintain materials to education visitors about the unique features of the Clam Bay NRPA. • Inspect signage periodically. • Report signage needing repair or replacement to the responsible entity. 4 CLAM BAY NRPA MANAGEMENT PLAN EXECUTIVE SUMMARY The preparation and implementation of the Clam Bay NRPA Management Plan has been undertaken by the Pelican Bay Services Division at the direction of the Collier County Board of County Commissioners. The Management Plan will provide guidance for future management activities within the Clam Bay Natural Resource Protection Area (NRPA),building on the successes of the 1998 Restoration and Management Plan,by outlining the goal and objectives designed to protect, maintain, and monitor the natural resources within the NRPA and foster responsible stewardship going into the future. The Management Plan provides an overview of the natural resources and processes within the NRPA along with a summary of the surrounding development and a brief historical perspective of past events and activities which have affected it. Coordination with community members and stakeholders has been balanced with anticipated administrative and financial resources to develop the following goal and supporting objectives for this Management Plan. Goal: to establish the basis for management activities that will be undertaken to protect the health of the NRPA estuary. Objectives to support this goal include: 1. Maintain and protect the native floral and faunal communities within the Clam Bay NRPA 2. Ensure the estuary has adequate tidal and freshwater flows to maintain ecological health within the Clam Bay NRPA 3. Monitor and maintain water quality within the Clam Bay NRPA 4. Monitor archaeological sites within the Clam Bay NRPA 5. Ensure recreational activities are environmentally compatible within the Clam Bay NRPA Past studies have indicated that maintaining tidal exchange is a critical component to the health of the estuary. As such, an important component of this Management Plan is the periodic dredging that has been undertaken to maintain tidal exchange into the NRPA. It is anticipated that future dredging activities will be necessary either to prevent closure, or to re-open the Pass should an unanticipated closure occur. These are the only conditions which should necessitate dredging activities. Dredging solely for beach renourishment or for navigation is not allowed under this Management Plan. The Management Plan outlines the following parameters that will be investigated and used to make a determination of when dredging might be undertaken to maintain the tidal exchange necessary for the long-term health of the estuary. Dredging Criteria parameters: 1. Bay Tide Range ratio—comparison of the interior tidal range to the Gulf tidal range. Ratio should be more than 0.5 2. Cross Sectional Flow Area— square foot area in different locations of the Pass through which water can flow. Section A average greater than 300 sq. ft. not less than 250 sq. ft. Section B average greater than 450 sq. ft. not less than 350 sq. ft. Section C average greater than 450 sq. ft. not less than 350 sq. ft. 3. Volume of Shoaled Material—quantity of sand and sediments within channel that can restrict flow. Section A less than 3000 cu. yds. Section B less than 2500 cu. yds. Section C less than 4000 cu. yds. 4. Inlet Channel Length—distance water must flow from the interior Pass channel through the beach and ebb shoal areas. Should be less than 400 feet 5. Ebb Shoal size—distance out from shore of the ebb shoal limits. Should extend at least 250 feet from the shore. A thorough review of the above dredging parameters will allow the consulting engineers to make a determination of when and where dredging activities should occur. The Management Plan also includes typical dredging templates for the three sections of Clam Pass and flood shoal that show the cross sectional areas that could be dredged in any event. The Management Plan will be used to support permit applications that may be required for management activities in support of the Goal and Objectives. It provides the information needed for assurances to the permit review agencies regarding what resources are present (or may be present) in the system, why management actions are being undertaken, and how minimization of impacts to the natural resources in the system will be achieved. 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CA � Cear A F �Q� 7,,',,i c w r. 1 1 lijr:11 11Ltgz,.0:,:;- - 31<F 8 u y Sw4 7!}4 ., 'r a8 114Y ":10.01111: •• \ye0 1 4..1,,4 • - ' ', VI. ,04.1°'F' )40 se•° 'd0; "'. %.q E 9, • Fe.W ili 8655 rem-cm,s ai-gt 1: �'. � " '�� .� a ❑ f a.a e 5 t e / ti S S - 4 3116 Z113 2.. a w ;e , .0m ir VW �0m :111111111111111111111111101, ' '' lik U , oho d a ale i i TO: Susan O'Brien & Clam Bay Committee FROM: Dave Trecker SUBJECT: Clam Bay NRPA Management Plan 6.1 DATE: June 11, 2014 This draft of the plan is,in my opinion,the best to date.The executive summary is well written. I would like to see a few additional changes. • Incorporate the paragraph designated "insert" into the summary, as indicated in Attachment 1, and use the table rather than the narrative listing of dredging criteria. • Alternatively, as suggested by John Domenie,replace specific dredging metrics in the summary with a simple listing of criteria, as indicated in Attachment 1A. • Designate reporting of channel length and ebb shoal,as indicated in Attachment 2. • Put the first four paragraphs of Section 6.0 into the appendix, as indicated in Attachment 3. Those paragraphs are background. This section,like the management plan and dredging sections before it, should address what we plan to do going forward. • Put photos on pages 22-24 into the appendix to tighten this section • Put pages 26-29 into the appendix (they go into great detail on a few species) and replace them with something like Attachment 4. With those changes, all relatively minor,I can support the plan. CLAM BAY NRPA MANAGEMENT PLAN EXECUTIVE SUMMARY The preparation and implementation of the Clam Bay NRPA Management Plan has been undertaken by the Pelican Bay Services Division at the direction of the Collier County Board of County Commissioners. The Management Plan will provide guidance for future management activities within the Clam Bay Natural Resource Protection Area (NRPA),building on the successes of the 1998 Restoration and Management Plan, by outlining the goal and objectives designed to protect,maintain, and monitor the natural resources within the NRPA and foster responsible stewardship going into the future. The Management Plan provides an overview of the natural resources and processes within the NRPA along with a summary of the surrounding development and a brief historical perspective of past events and activities which have affected it. Coordination with community members and stakeholders has been balanced with anticipated administrative and financial resources to develop the following goal and supporting objectives for this Management Plan. Goal: to establish the basis for management activities that will be undertaken to protect the health of the NRPA estuary. Objectives to support this goal include: 1. Maintain and protect the native floral and faunal communities within the Clam Bay NRPA 2. Ensure the estuary has adequate tidal and freshwater flows to maintain ecological health within the Clam Bay NRPA 3. Monitor and maintain water quality within the Clam Bay NRPA 4. Monitor archaeological sites within the Clam Bay NRPA 5. Ensure recreational activities are environmentally compatible within the Clam f Bay NRPA Past studies have indicated that maintaining tidal exchange is a critical component to the ' .^� health of the estuary. As such, an important component of this Management Plan is the N�r periodic dredging that has been undertaken to maintain tidal exchange into the NRPA. It ,(2aiSLEJ is anticipated that future dredging activities will be necessary either to prevent closure, or to re-open the Pass should an unanticipated closure occur. These are the only conditions which should necessitate dredging activities. Dredging solely for beach renourishment or for navigation is not allowed under this Management Plan. The Management Plan outlines the following parameters that will be investigated and used to make a determination of when dredging might be undertaken to maintain the tidal exchange necessary for the long-term health of the estuary. Dredging Criteria parameters: 1. Bay Tide Range ratio—comparison of the interior tidal range to the Gulf tidal range. Ratio should be more than 0.5 CLAM BAY NRPA MANAGEMENT PLAN(DRAFT) Pelican Bay Services Division May 30, 2014 Ver. 6.1 CLAM BAY NRPA MANAGEMENT PLAN EXECUTIVE SUMMARY The Clam Bay Natural Resource Protection Area (NRPA) is a 570-acre estuarine system consisting of sandy beaches, Clam Pass, shallow bays, tidal creeks or tributaries, seagrass beds, and mangrove forests on the west coast of Collier County in Southwest Florida. The NRPA includes three primary bays, Outer Clam Bay(southernmost), Inner Clam Bay(central), and Upper Clam Bay(northernmost), connected by a series of tidal creeks and connected to the Gulf of Mexico by Clam Pass. The preparation and implementation of the Clam Bay NRPA Management Plan has been undertaken by the Pelican Bay Services Division at the direction of the Collier County Board of County Commissioners. The Management Plan will provide guidance for future management activities within the NRPA,building on the successes of the 1998 Restoration and Management Plan, by outlining the goal and objectives designed to protect, maintain, and monitor the natural resources within the NRPA and foster responsible stewardship going into the future. The Management Plan provides an overview of the natural resources and processes within the NRPA along with a summary of the surrounding development and a brief historical perspective of past events and activities which have affected it. Coordination with community members and stakeholders has been balanced with anticipated administrative and financial resources to develop the following goal and supporting objectives for this Management Plan. Goal: to establish the basis for management activities that will be undertaken to protect the health of the NRPA estuary. Objectives to support this goal include: 1. Maintain and protect the native floral and faunal communities within the Clam Bay NRPA 2. Ensure the estuary has adequate tidal and freshwater flows to maintain ecological health within the Clam Bay NRPA 3. Monitor and maintain water quality within the Clam Bay NRPA 4. Monitor archaeological sites within the Clam Bay NRPA 5. Ensure recreational activities are environmentally compatible within the Clam Bay NRPA In support of these objectives, period omtoring of the terrestrial and benthic habitats will be conducted. Encroachments into t A by exotic and nuisance vegetation will be documented and scheduled for removal or control:Observations and documentation of the wildlife utilization within the NRPA w'll be - • ,-:. Monitoring of water quality and freshwater inputs into the NRPA will -A, continu- .; :- • = - . Archaeological resources within the NRPA will be monitored and any dradation will reportto he e toriPOffiEtopportunities be degradation explored and b-acted upon ed totproStatmoteHisenvironmentally soundreservation recreational usesion ithin the NRPA.will Irresponsible or envi onmentally damaging activities will be documented and w ere appropriate, reported to the proper .uthorities. rz�i C"s r-1-4 7 Zyyzff ,/-1--. de aPha-ti...-11-e-i( , i 7 2. Cross Sectional Flow Area—square foot area in different locations of the Pass through which water can flow. ,1 , ,L Section A average greater than 300 sq. ft. not less than 250 sq. ft. Section B average greater than 450 sq. ft.not less than 350 sq. ft. Section C average greater than 450 sq. ft.not less than 350 sq. ft. 3. Volume of Shoaled Material—quantity of sand and sediments within channel that can restrict flow. Section A less than 3000 cu. yds. Section B less than 2500 cu. yds. Section C less than 4000 cu. yds. 4. Inlet Channel Length—distance water must flow from the interior Pass channel through the beach and ebb shoal areas. Should be less than 400 feet 5. Ebb Shoal size—distance out from shore of the ebb shoal limits. Should extend at least 250 feet from the shore. A thorough review of the above dredging parameters will allow the consulting engineers to make a determination of when and where dredging activities should occur. The Management Plan also includes typical dredging templates for the three sections of Clam Pass and flood shoal that show the cross sectional areas that could be dredged The Management Plan will be used to support permit applications that may be required for management activities in support of the Goal and Objectives. It provides the information needed for assurances to the permit review agencies regarding what resources are present(or maybe present)in the system,why management actions are being undertaken, and how minimization of impacts to the natural resources in the system will be achieved. The document also allows for changes to the plan should new information or management techniques come to light that would be of benefit to the Clam Bay NRPA. CLAM BAY "&:°1.6.11"- NRPA MANAGEMENT PLAN EXECUTIVE SUMMARY The preparation and implementation of the Clam Bay NRPA Management Plan has been undertaken by the Pelican Bay Services Division at the direction of the Collier County Board of County Commissioners. The Management Plan will provide guidance for future management activities within the Clam Bay Natural Resource Protection Area (NRPA),building on the successes of the 1998 Restoration and Management Plan,by outlining the goal and objectives designed to protect,maintain, and monitor the natural resources within the NRPA and foster responsible stewardship going into the future. The Management Plan provides an overview of the natural resources and processes within the NRPA along with a summary of the surrounding development and a brief historical perspective of past events and activities which have affected it. Coordination with community members and stakeholders has been balanced with anticipated administrative and financial resources to develop the following goal and supporting objectives for this Management Plan. Goal: to establish the basis for management activities that will be undertaken to protect the health of the NRPA estuary. Objectives to support this goal include: 1. Maintain and protect the native floral and faunal communities within the Clam Bay NRPA 2. Ensure the estuary has adequate tidal and freshwater flows to maintain ecological health within the Clam Bay NRPA 3. Monitor and maintain water quality within the Clam Bay NRPA 4. Monitor archaeological sites within the Clam Bay NRPA 5. Ensure recreational activities are environmentally compatible within the Clam Bay NRPA 1 o7Az— be In support of these objectives, period' onrtoringa d nuisance e vegetation will trial and be docic ltats umentedland conducted. Encroachments into t A by exotic scheduled for removal or control:Observations of the wildlife utilization within the NRPA w'll be - • e-=• Monitoring of water quality and freshwater inputs into the NRPA will ny continuW ; - _- - . Archaeological resources within the NRPA will be monitoredand a 1 degradation will b- reported to the State Historic Preservation Offices. Education opportunities be explored and act-d upon to promote environmentally will be documented and recreational w lelin the ie appropriate,l A. Irresponsible or envi onmentally damaging activities reported to the proper •uthoxities. fz'j� • Past studies have indicated that maintaining tidal exchange is a critical component to the health of the estuary. As such, an important component of this Management Plan is the periodic dredging that has been undertaken to maintain tidal exchange into the NRPA. It is anticipated that future dredging activities will be necessary either to prevent closure, or to re-open the Pass should an unanticipated closure occur. These are the only conditions which should necessitate dredging activities. Dredging solely for beach renourishment or for navigation is not allowed under this Management Plan. The following criteria will be evaluated 4-0 make a determination of when dredging might be undertaken to maintain the tidal exchange necessary for the long-teini health of the estuary. 1. Tide range ratio 2. Cross-sectional flow area and volume of shoaled material 3. Inlet channel length 4. Distance from shore to outer ebb shoal limit A thorough review of the above dredging parameters will allow the consulting engineers to make a determination of when and where dredging activities should occur. The Management Plan also includes typical dredging templates for the three sections of Clam Pass and flood shoal that show the cross sectional areas that could be dredged? The Management Plan will be used to support permit applications that may be required for management activities in support of the Goal and Objectives. It provides the information needed for assurances to the permit review agencies regarding what resources are present(or may be present)in the system,why management actions are being undertaken, and how minimization of impacts to the natural resources in the system will be achieved. The document also allows for changes to the plan should new information or management techniques come to light that would be of benefit to the Clam Bay NRPA. D W CLAM BAY NRPA MANAGEMENT PLAN(DRAFT) )444. --ci Pelican Bay Services Division May 30,2014 Ver. 6.1 The analysis included evaluation of the cross-section of flow between mean high water and the volume of sand within each segment. The cross-section of flow was computed at each survey station spaced approximately 50 feet apart. The average and minimum cross-section areas were used as indicators of the physical condition of the flow area of the three segments. The cross-sections were compared to the design cross-section area of the 2013 dredging and the inlet conditions in 2004 and 2008 when inlet conditions were near equilibrium 24 months and 16 month,respectively, following dredging events. Targets for the average cross-section of flow areas: Section A greater than 300 sq.ft. Section B greater than 450 sq.ft. Section C greater than 450 sq. ft. Targets for the minimum cross-section flow areas: Section A greater than 250 sq. ft. Section B greater than 350 sq. ft. C Section C greater than 350 sq. ft. Targets for volume of shoaled materials: Section A less than 3000 cu. yds. Section B less than 2500 cu. yds. _ 4-- Section C less than 4000 cu. yds. 4 Therefore, if the average cross-section of flow area falls below these numbers or the volume of shoaled material exceeds these numbers,further monitoring,or intervention,may be needed. . 3. Inlet Channel Length The channel length is an important factor in the inlet stability parameters. A longer inlet channel will r ;' provide greater resistance to flow. Higher flow resistance will reduce the tidal range and increase the phase lag with the Gulf tide that reduces the tidal prism and flow through Clam Pass. < To establish a benchmark for channel length a selection of aerial photos of Clam Pass from 2004 to 2013 was studied as well as data on the approximate length of the channel following dredging events in 2002, 2007, and 2013. Based on this analysis,the benchmark for inlet channel is to stay under 400 feet in length. 11 4. Ebb Shoal The size and shape of the ebb shoal is a key factor to the stability of the inlet that, in turn, supports the stability of Clam Pass. The ebb shoal helps to keep the inlet open when facing storms and big wave events. The ebb shoal delta provides sheltering to the channel and sand bypass pathway around the inlet without filling in the Pass. The shape and volume of the ebb shoal are additional indicators of the stability of the inlet. Critical conditions include onshore collapse of the ebb shoal that can be indicated 46 CLAM BA YNRPA MANAGEMENT PLAN(DRAFT) Pelican Bay Services Division May 30, 2014 Ver. 6.1 by significant change in ebb shoal offshore distance,volume, and increase in dry beach areas adjacent •_, to the inlet. ` To determine a target for the ebb shoal delta,data from April 2013 to April 2014 were reviewed. The ebb shoal position offshore is measured from a line connecting the north and south channel banks at mean high water out to the -4.0 foot contour line. A: jfie recommended length of the seaward extent of the ebb shoal is to at least than 250 feet. , 1 Dredging Criteria Parameters ` Location Target Description >0.5 ratio comparison of the interior and Gulf 3 - i Bay Tide Range Ratio tidal ranges Average>300 sq ft A Not less than 250 sq ft Average>450 sq ft area in different locations of the Pass Cross Sectional Area B Not less than 350 sq ft through which water can flow Average>450 sq ft C Not less than 350 sq ft A <3000 cu yds quantity of sand and sediments within Volume of Shoaled Material B <2500 cu yds channel that can restrict flow C <4000 cu yds <400 feet distance water must flow through the Inlet Channel Length beach and ebb shoal areas >250 feet distance from shore to the outer ebb Ebb Shoal shoal limits C. Dredging Construction 1. Typical Cross-Sections for Dredging Typical cross-sections for the suggested dredge template are provided below. Minor modifications to this dredging template may be necessary for future permitting. Typical cross-sections are shown for open areas in Section B and C where the waterway is wider than the target cross-section. In areas where the waterway is limited by mangroves,the width of the cut will be limited to maintain a minimum of a five-foot buffer to the mangroves. In Sections B and C where seagrasses may be present every effort will be made to avoid dredging activities that would be harmful to seagrasses. 47 14441-41A- Vja4 CLAMEAYNRPA MANAGEMENTPLAN(DRAFT) �RAFT) Pelican Bay Services Division May 30, 2014 Ver. 6.1 6.0 Authorized Construction Activities List of Permits for Work Undertaken to Date and Relevant Legal Framework Eighteen years ago, Collier County processed a permit to dredge limited areas of Clam Pass to facilitate the movement of tidal water in and out of Clam Bay. The FDEP permit for this activity was issued on March 28, 1996 with the companion USACE permit being issued on April 2, 1996. The FDEP permit was modified on April 10, 1996 with the authorized work being undertaken and completed on April 17, 1996. The practical effect of implementing this Permit was to reopen the Pass, but it was clear that without a more comprehensive strategy,this effort, standing alone,would not revitalize the Clam Bay ecosystem. A permit to improve the channel flow within defined areas of the Clam Bay system by a combination of blasting and hand excavation was issued on June 26, 1996. The work was undertaken and completed in two segments. The first channels were opened in August 1996, and the second channels were opened in November 1996. The results of these two initiatives were positive in that measurable improvements in tidal flow were discernible and with that have come improved conditions for natural re-vegetation. A permit was issued on January 5, 1997 to construct a portable pump and pipe system as an interim -_ measure to divert impounded freshwater within the Clam Bay system to the Gulf while a more permanent solution contemplated by the construction of an outfall structure was reviewed. This plan was never implemented and is no longer being considered. it envisioned two pumps that would be operational when the water surface elevation within Clam Bay exceeded a specified threshold. The Management Plan anticipated the direct discharge of excess water into the Gulf with the expectation that this system would augment the natural discharge through the tidal mechanism after severe storm events. Subsequently, Collier County authorized the pursuit of a ten-year permit to allow the County, or its designee(which in this case was the Pelican Bay Services Division),to maintain Clam Pass in an open condition. The application, as filed, did not address any other issues affecting the operational characteristics of Clam Bay and essentially mirrored the 1996 Permit described in the first paragraph above. Agency comments and concerns which arose as part of the permit review led to the creation of the 1998 Clam Bay Restoration and Management Plan. The Management Plan addressed agency concerns at the time and included provisions for adding one-way flap gates to the Seagate culverts, dredging within three sections of the creek north of Clam Pass, a network of hand dug channels throughout the forest area, in addition to the dredging of the Pass. This permit was issued in 1998 and the Management Plan created in support of the permit has been the guiding document for the maintenance activities undertaken in the Clam Bay system since then. FDEP and USACE 10-year permits will be sought in conjunction with this new Management Plan. The permits will allow for ongoing maintenance activities to continue along with occasional,modest 52 CLAM BAYNRPA MANAGEMENT PLAN(DRAFT) Pelican Bay Services Division May 30,2014 Ver. 6.1 removal of material by dredging within a discreet area of Clam Pass in order to maintain the existing tidal regime within the system. Any changes to the submitted dredging scope or other new management initiatives will be reviewed by the PBSD Board and Collier County Commissioners before seeking any additional permit(s)which may be necessary for the modified activities. Additional investigations which may be undertaken at a later date to look at, for example,faunal investigations, more in-depth water quality concerns,or other issues that may arise as a result of Stakeholder discussions could also necessitate permitting which will have to be reviewed by the PBSD and BCC prior to any such permit applications being submitted. This Management Plan is specifically tasked to maintain the improvements and benefits already realized and to insure that the restoration success observed to date is continued. Dredging for navigation or beach renourishment will not be done. Appendix 5 contains a list of authorizations brief details related to existing and historical permits issued for the Clam Bay system. • 53 Flora and Fauna The Clam Bay NRPA contains a rich variety of plants and animals, which make it unique in Collier County. A basic tenant of this plan is to provide the basis for conserving the natural flora and fauna in Clam Bay. Plant species include ... • Seagrape, sea oats and railroad vine in the beach area • Seagrape,cabbage palm,buttonwood, Spanish Bayonet, Saltbush and Beach Naupaka in the coastal scrub • Cabbage palm, Seagrape, strangler fig, coinvine and saffron plum in the cabbage palm hammock • Red, white and black mangroves; buttonwood,leather fern and saltwort in the mangrove swamps • Lance-leaf arrowhead, needlerush,bulrush, Carolina willow and primrose willow in the salt marsh For a complete list, see Appendix Animal species include the loggerhead turtle gopher r black bearanda host an manatee, bottle-nosed dolphin,coyote, bobcat,river otte of aquatic invertebrates,reptiles,fish and birds. For a complete list, see Appendix Edits to Section 5.0 Clam Pass Dredging Submitted by Joe Chicurel p.44 5.0 Clam Pass Dredging A. Dredging Policy There are two circumstances that could necessitate dredging Clam Pass. (omit the first several words in para. 2 &3 and number the two circumstances and rewrite as follows) 1. Clam Pass closes (rest of paragraph OK) 2. The inlet loses its hydraulic efficiency that is not recoverable through natural processes thereby jeopardizing the health of the floral and faunal communities within the Clam Bay NRPA. This determination would be made by reviewing and comparing the current and past tidal hydraulic and bathymetric monitoring data. In both cases the PBSD Board would, after consultation with and advice from its coastal engineer, recommend the appropriate construction drawings for a dredging event to the BCC for its approval prior to submittal to the regulatory agencies. B. Dredging Criteria (para. 2 line 1 - omit one of the "on the" line 2-place a period after "collected." Begin the next sentence "They will be reviewed " 1. Bay Tide Range (para. 1 line 2- omit coma after"quarterly"and follow with "when"in place of"if") p.45 (para. 2 last sentence - reword end of last sentence: " monitoring of or intervention of potential shoaling areas that are impeding flow will be considered." (2. Cross Section para. 1 line 3 - change "and"to "at") p.46 (sentence before 3. Inlet Channel- omit last two comas) CLAM BAY MANAGEMENT PLAN Comments on Organization Submitted by Mary Johnson,June 9, 2014 1.0 Introduction - Names and addresses on page 2 interrupt flow of text; move to end of chapter after"Role of Pelican Bay Services Division." - Bring up list of stakeholders on pp 44-45 to include at end of this chapter,so all project participants are identified in one location 2.0 Overview of the Clam Bay NRPA - "Historical Overview" pp 8-9—Drop the current last paragraph about the timelines or work it into a new concluding section, "Management Activities." In this part, include discussion about Pass being subject to periodic closure which affects the health of the mangroves, using some of the text that formerly appeared on pp 31-33 of version 5. The series of historical aerial photos would fit best here (try to fit together on one page). For example (new material in italics): "The Clam Pass opening has moved over its lifetime up and down the shoreline, influenced by major storm events and by man's alteration of the tidal prism and drainage basin that feeds the Pass. The shifting location of the Pass and its often tenuous connection to the Gulf is evident in the following series of aerial photos taken of the Pass over the past 60 years. Because of these conditions, the Pass is susceptible to outside events and can periodically close, which has happened at least six times in the last 25 years, most recently in 2013. (from p32)A detailed discussion of the Pass, as well as aerial photographs of the Pass over time, is provided in . . . The health of the mangrove forest is directly related to the connection at Clam Pass. The exchange of seawater between Clam Pass and the Gulf is critical to the ability of the estuary to export organic matter, as well as to help regulate excess salt and freshwater. It also supplies oxygen rich water from the Gulf and keeps metabolic wastes from accumulating in the sediment, as discussed in more detail later in this report. (from p. 31). - "Mangrove Die-off and Restoration" Bring up a few selected photos from the Appendix to show the die-off and recovery,to provide dramatic evidence of the need for management. For example, photos of die-off area from 1999, 2002, 2005, 2013. - Timelines, pp 9-16 are supporting material that is out of place in the main body of the text and should be moved to a new Appendix (e.g. Appendix_Timelines for Important Events, Environmental Protection, Permitting Activities) Submitted by Mary Johnson 6/9/2014 - "Management Activities" -Add concluding paragraph to replace timelines. For example: With the development of the Collier County coastline, the Clam Bay NRPA has been protected as a managed natural system that preserves the essential features and ecological function of a mangrove estuary. The historical and natural events that have affected the Clam Bay system in recent times, along with governmental actions, scientific studies and management responses, are shown in the timelines that appear in Appendix (see "Timeline of Important Events Within the Clam Bay System"and "Timeline Specific to the Establishment of the Clam Bay NRPA"). These depict the evolution of management activities in Clam Bay and provide the context for the management goal and objectives presented in this plan. 3.0 Management Plan Goal and Supporting Objectives - Moving this chapter up to follow Section 2 makes sense. It also sets the stage to more closely relate the material under"Resource Description and Assessment" to the identified objectives (see following discussion). 4.0 Clam Pass Dredging - This chapter should be moved back and combined with chapter 6 into a new chapter: "9.0 Clam Pass Dredging Policy, Dredging Criteria and Permitting" as explained further below. 5.0 Resource Description and Assessment - This unwieldy section has been helped by moving large amounts of material to the appendices, but too much has been lost. Instead of trying to present this material in a single chapter, it would be more usefully organized if it were broken into separate chapters that correspond to the five management objectives. Much of the discussion relates to the management considerations that go along with the objectives and these would be brought out in a more coherent way. A new paragraph could introduce each section to make this connection. The new sections would be as follows: 4.0 Objective 1: Protecting Native Floral and Faunal Communities 5.0 Objective 2: Managing Tidal and Freshwater Flows for Ecological Health 6.0 Objective 3: Maintaining Water Quality 7.0 Objective 4: Monitoring Archaeological Resources 8.0 Objective 5: Ensuring Environmentally Compatible Recreation Moved and renumbered sections would be: 9.0 Clam Pass Dredging Policy, Dredging Criteria and Permitting (renumbered, retitled) 10.0 Amending the Clam Bay NRPA Management Plan (renumbered, retitled) Submitted by Mary Johnson 6/9/2014 4.0 Objective 1: Protecting Native Floral and Faunal Communities (new, based on first section of "Resource Description and Assessment") - Add new intro paragraph referencing sub-sections that follow: The management considerations and monitoring activities that will guide implementation of this objective are summarized below. The discussion covers the natural communities that comprise the Clam Bay NRPA in terms of the types of habitat and the plant and animal species that have been observed there, the "listed"species that are threatened or endangered and require special protection, and the non-native invasive species that pose threats. It concludes with a discussion of monitoring efforts. Supporting background documents are included in Appendix_-Natural Communities. - Natural Communities—This discussion has been almost completely excised by moving material to Appendix 2, but should be partially restored to provide an understanding of what supports the management objective. Replace paragraph following Table 4 with a new transitional paragraph (see also edits shown on the attachment to these Comments): The characteristics of each FLUCFCS community are summarized below, along with associated management issues. More detailed descriptions accompanied by individual FLUCFCS maps are provided in Appendix 2. The following discussion also covers benthic components of the Clam Bay ecosystem such as offshore hardbottom, oyster bars, and other benthic faunal communities that are not specifically addressed in the FLUCFCS classification system. (Restored text). After this lead-in, restore subheads from Version 5 (omit FLUCFCS Code or put it in parens after the "layman's" title) and include excerpts from the Appendix Material for the following: Swimming Beach Coastal Scrub Cabbage Palm Hammock Bay(With and Without Gulf Connection) Mangrove Swamps(Forest) Salt Marsh Tidal Flats Seagrass Beds Oyster Bars Other Benthic Habitats See the suggested excerpts for this section in the marked up attachment. Using the excerpted material and omitting all the maps and photos reduces this section from about 20 pages to 2. Submitted by Mary Johnson 6/9/2014 Add a concluding paragraph referencing species lists provided in the Appendix: A list of the plant species typically associated with the major FLUCFCS habitats mapped in Clam Bay is provided in Appendix 2 (see "Table 5. Representative Plant Species found within the NRPA Boundary.") Appendix 2 also provides lists of animal species that have been observed in Clam Bay. These include aquatic invertebrates documented by the Conservancy of Southwest Florida in its 2011 benthic habitat assessment(Table 6),fish (Table 7), reptiles and amphibians (Table 8), birds(Table 9), and mammals (Table 10). These lists provide a reference for monitoring and maintaining the existing diversity of native plants and animals in the Clam Bay NRPA. - "Listed Species"—Add new section after"Natural Communities" with a summary paragraph that identifies the listed species of note and includes a reference to the more detailed discussion in Appendix 2: Clam Bay includes habitat favored by a number of species that are listed as threatened or endangered and requiring special protection. These include loggerhead sea turtles, which have been observed nesting on Clam Bay beaches; gopher tortoises, whose burrows can be found along the coastal strand areas of Clam Bay;and West Indian manatees, which are observed on occasion within the Clam Bay NRPA waters. There have been rare sightings of piping plover, which have been observed to rest and forage, but not nest, within the NRPA, as well as at least one sighting of a juvenile smalltooth sawfish. A species of special concern which could potentially be found in the NRPA, although it has not yet been documented, is the small fish, mangrove rivulus. The characteristics of these species are described in detail in Appendix 2—Listed Species. - Add new"Monitoring Activities" section at end of section—Provide an intro noting that monitoring was an important part of the CBMRP and will continue as part of the new management plan and provide brief discussions/references to different types of monitoring,for example: o Mangrove Monitoring Include reference from p.26 "The attached Exhibits include an overall FLUCFCS map of the Clam Bay system and the location of the existing monitoring plots within these habitats." Add a reference to Appendix 3 Recent History of Mangrove Management in Clam Bay. o Seagrasses- Include discussion related to monitoring from p42 of Version 5, second and fourth paragraph: Seagrass coverage in Clam Bay has varied over time. . . (para 2) and Submitted by Mary Johnson 6/9/2014 A history of the seagrass monitoring efforts in Clam Bay is included in Appendix_, Recent History of Seagrass Presence in Clam Bay. (para 4) o Turtles—Include reference to County's regular monitoring work o Special Studies—Could cite the 2011 benthic habitat assessment conducted by the Conservancy o Southwest Florida as an example. 5.0 Objective 2: Managing Tidal and Freshwater Flows for Ecological Health - Add intro paragraph similar to one for Section 4.0 - Hydrology o Add new subhead before paragraph 3, "Tidal Component" o Figure 19-correct the caption reference to directions to match current lay-out o Under "Freshwater Component"—clarify historical sense of third-to-last sentence as follows: However, in the northern section, sheet flow was not being efficiently removed at the time of the mid-1990 mangrove die-off due to lack of flow through the forest. o Conclude this section with the paragraph from Version 5, p30,which explains importance of the dredging and hand-dug cuts: At the time of the mangrove die-off, multiple studies indicated that the single most important thing that could be done to restore the health of the Clam Bay system was to improve the total tidal flushing capacity of the system. . . . (paragraph 3 under FLUCFCS Code 540—Bay) - Inlet Dynamics—Reinsert this section that appears on pp 67—69 of Version 5 report and that now appears in Appendix 2, as it belongs with this discussion. o See a few edits shown on the attachment. o Add a subhead "Monitoring" before next to last paragraph, "Clam Pass requires regular monitoring to determine when dredging may be needed. . . . ." o Change reference from "Chapter 4.0 "to match new Chapter numbering 6.0 Objective 3: Maintaining Water Quality - Add intro paragraph—mention issues of concern: nutrient management, elevated copper levels, - Pick up with pp 30-34 (version 6)on Water Quality Submitted by Mary Johnson 6/9/2014 7.0 Objective 4: Monitoring Archaelogical Sites - Add intro - Pick up with text p 30 (version 6),title "Archaelogical Resources" - Add conclusion "Monitoring Activities" 8.0 Objective 5: Ensuring Environmentally Compatible Recreation - Add intro - Pick up with text p 36 (version 6),title "Recreational Resources" - Add discussion of Clam Pass Park as a recreational resource? - Add "Monitoring Activities"—explain what will be monitored,what is meant by"facilities" 9.0 Clam Pass Dredging Policy, Dredging Criteria, and Permitting (make title longer to match other chapter titles and be more descriptive) - Insert material that is Chapter 4.0 (version 6, pp 21-25) - Under"Typical Cross Sections for Dredging" p 25 -Add a paragraph that identifies the width of the design cut for each segment as shown in the figures and add a concluding statement that refers to the Appendix 1 Inlet Management Plan. - Continue with material from Chapter 6.0, pp 36—37 that is under the heading"List of Permits for Work Undertaken to Date and Relevant Legal Framework;" change subhead to read: Permitting History and Legal Framework. Drop chapter title "Authorized Construction Activities" - Move "Permit Details" section to the appendices and retitle, Permitting Activities in Clam Bay;this list could be combined in an appendix with the timelines from Chapter 1 - Add reference to appendix in concluding sentence:A list with more details about existing and historical permits issued for the Clam Bay system is provided in Appendix 10.0 Amending the Clam Bay NRPA Management Plan (Suggest giving this section a chapter heading so it is clearly part of the main text, even if short; perhaps there are some other concluding thoughts that could be added) Appendices - Add a new appendix to include the timelines from Chapter 1 (version 6, pp 9-16) and "Permit Details"(version 6, pp 38-42),title "Timelines of Important Events, Conservation Protections, and Permitting Activities in Clam Bay" (or"Management Activities in Clam Bay" or "Evolution of Clam Bay Management"): Submitted by Mary Johnson 6/9/2014 o "Timeline of Important Events within the Clam Bay System"—could retitle more descriptively: "Evolution of Clam Bay as a Managed System" o "Timeline Specific to the Establishment of the Clam Bay NRPA"—could retitle more descriptively: "Environmental Protection of the Clam Bay NRPA" or"Timeline of Actions Protecting the Clam Bay NRPA". Put on a separate page from other timeline. o "Permit Details"—Retitle to "Permitting Activities in Clam Bay" - Break current appendix 2 into two appendices: "Physical Geography" (pp. 78-85 through Figure 6) and "Natural Communities" (rest of section) Submitted by Mary Johnson 6/9/2014 I CLAM BAY NRPA MANAGEMENT P ,_ T ! t 4 FT) Pelican Ba S- _ ' .- May 30,2014 / Ver. 6.0 i o e).4jec�ive j: /52--d7z71,7 �47!ve ,Z -)r-a/gr7�rG4eli( C©nf�r.4-VI7i�g 6. •. , . . - , .5 e. The goal and objectives of this Management Plan aim to manage and preserve •• : • ices urces weld that make up the Clam Bay NRPA as a whole. The ob-e • _• le Management Plan focus on %rI& natural communities,tidal and freshwa - '• s,water quality,archeological resources and /p recreational uses;all dis _ . Luther in this section. There are many additional factors that come "together to e habitats and support the resources that make up the Clam Bay NRPA. These ��,�„,w'rf5 : conal factors are discussed further in Appendix 2. Natural Communities In this Section a natural community refers to the mix of plant and animal species that form the natural basis of the Clam Bay NRPA. A combination of factors including geology_climate,topography,soils, �9U f wind,waves, storms and anthropogenic influences determines the specific types of plants found in any O 1-7 given area(tee Appendix 'for more informationj. These plants are a major factor in what type of C/ani r i'r'G� animal speciesthgrmay be present,including threatened and endangered species that may utilize the Oil -ce14, Clam Bay NRP4 .- :-- •'. . •- : : •:.,. The Florida Department of Transportation's erg s Land Use,Covet and Forms Classification System (FLUCFCS 1999)4 s been used to identify the 0 5,cd_( ��y�6 a plant communities found within the Clam Bay NRPA.CSee the attached Exhibits for an overall ::././92°6--, FLUCFCS map of the Clam Bay system and the existing monitoring plots within these habitats. eo�rarl?y f�n�rQivre, OdPv�/o t�u/�f Table 4: List of FLUCFCS Communities within the Clam Bay NRPA > /° Piet,', /4)1/4N/ FLUCFCS I Community Description Upland or %of Clam Bay , y. 7'f , 2giireeve, Code i Wetland NRPA o ryl�r Ave D/ryi S, -51-, /e....-51-, /e....a,0/TWRSfi�/ "o. Gugv5� 181 Swimming Beach Upland 5.95 186 Community Recreation Facilities Upland 0.40 />771-ti et, 322 Coastal Scrub Upland 3.97 moue 74, Neuf 428 Cabbage Palm Hammock Upland 0.45 / tee-- Secha ,„fic is;Y 540 Bays(with and without direct Wetland 23.16 en /ih,br,;/ Yom - connection to Gulf or Ocean) — _ he ��2� 612 Mangrove Swamp — Wetland 64.60 te 642 Saltwater Marsh Wetland 0.04 /47,p4,cbK c2 651 Tidal Flat Wetland 1.43 ' ief<=-7 _ 911 I Seagrasses** Wetland 0.84** Nf "included in the Bays(541)category Coy invv<a;,7es Several other components of the Clam Bay NRPA ecos 's - . , _ • -• -, - - • •- • •e components include offshore hardbo •• : r,and other benthic faunal communities that are not Se specifically ad. •- , • ie FLUCFCS classification system. Additional historical information on the H€ ) CIa •ay mangrove and seagrass habitats is also included as appendices to the Management Plan. pe rel 199 h II //7 (Onv,i7ei>S4 26 CLAM BAY NRPA MANAGEMENT PLAN ' r . Pelican Bay Se ' -s Division I May 1,2014 Ver. 5 specifically addressed in the FLUCFCS classification system. Additional historical information on the Clam Bay mangrove and seagrass habitats is included as appendices to the Management Plan. "'.- _ _ __ .- i.wianming Beach Beaches form when offshore sand deposits are moved landward by wave action usually durin e spring and summer. Sand,which is stirred up as the wave breaks on the shore,drops out uspension as the water moves up and the beach face. Thus,the beach becomes gradually higher icier,and steeper. In the wintertime,larger,higher energy waves associated with winter sto r s overflow the beach area and stir up the sand deposited earlier in the year. The sand is pull-t off the beach as the wave recedes and is deposited in an offshore sand bar. If these two force ,re in equilibrium,the beach area will be stable from year to year. However,naturally occurring f. ors such as storm events, littoral drift(lateral movement of sand because waves approach t . 'each at an angle),and offshore winds, upset this equilibrium and result in the ever shifting na . e of the beach environment. Dunes form because of onshore wind action on beach e sand. When wind speeds are sufficient, individual grains of sand start to roll and bounce a g the surface. This windborne sand is transported landward until the wind speed drops below tha eeded to move the sand. Coastal vegetation is critical for slowing wind speeds and causing sand a deposited. Landward of the highest tides, pion--r or frontal zone sites are stabilized by sand trapping action of various rhizomatous grasses ant ow growing shrubs that are tolerant of salt spray. Only a few plant species can tolerate the stress, of a dune environment,particularly frontal dune sites. Foredune plants must be able to survive b-'‘ g buried by blowing sand,sand blasting,salt spray,and saltwater flooding, drought,heat,and low trient supply. Coastal plants colonizing the dunes are key players in trapping windblown sand ant ireventing coastal erosion as the first defense against heavy winds and surge of tropical storms. Many plan pecies that occur on dune areas have developed specific attributes to help them survive these hay. environments. These include high growth rates,dense root systems,low profiles,and high flowe and seed production rates. Species common on the beaches of the Clam Bay system include; sea a ats(Uniola paniculata),seagrape(Coccoloba uvifera),and railroad vine(Ipomoea pes-caprae). e page 52 for a more complete list of plant species found in this habitat. There is approximately 8,675 linear feet of shoreline within the Clam Bay NRPA in three distinct segments separated by the two Pelican Bay Foundation beach facilities. Contiguous beach habitat Q'Jg extends from the NRPB.habitat both north and south along the coast. Shorebirds feed on marine invertebrates such as coquina clams and mole crabs at the water's edge and beaches are crucially important habitat for nesting sea turtles. This particular habitat has been monitored periodically in terms of width as part of the Collier County Beach renourishment program though no conclusive statements can be made about the floral or faunal details of the ecotone over the years. Large scale generalizations based on the annual aerial photographs can be made that the overall size,composition,and health of the habitat have remained 27 CLAM BAY NRPA MANAGEMENT PLAN{DRAFT) Pelican Bay Services Division May 1,2014 Ver. 5.0 relatively stable and,with the exception of the areas immediately adjacent to the Pass,are mostly unaffected by the status of the Pass. n" . •ia t 1" : 'w. .\-1'71.:.._ "\Y � kfiyam ' � 3 !a.s'.z �r � r .• cak5 .�)si 11,:tt F-4:- .""•;-,- 1-) -' 4� r# yT� . h � ,,'--':i,:....,,-;:,--: -.:-,1,4 { i4} X ,%' � }"ia' "3E ,----,.4'.•.;:-,4 .;,,7,;:"N, 24111 Nvny,:.�' C � ,rjr'. # 3l`f t . s.. ! x .,a l+t," ik� Y1: -; ' � ' ,,, zxE 4 ' „ „„.7....„,-,..--_,.-: ::',.:-. 1....,:..!:.„.„..._„„%,,I *, - l ..J` n a �„.„ , 4 4 `t $ 1 . r_,,t...4.,,-- 44,,K - az `-�� + s ,! � gs �` :it': '? T# ,f , . -'I ,. ?t b ” c:::',y ,+ lp '-;— r ` °' ,., t'om1,: l. ,„,€ ',,,t,-.11: ti s. 1. •A. , � 181'--------- , -'-1:=4.L.,4::04- g .,,� t1" ^•", '#, « spa :. a 'r ;at� Figure 7:Beach habitat within the NRPA Boundary • f-FILUCF(Wt 1322-i astai Scrub xjLandward of the frontal(beach)zone area is the back dune zone(also often called the coastal shrub or scrub zone),a portion of the dune that is more stable,has greater organic matter,and supports less salt tolerant grasses and shrubs as well as some trees. Many of the woody species found in coastal scrub . - • 11, : : .-• • i a•y •ue to ow nutrient and droughty conditions of sand .. i a winds and salt spray often prune the terminal buds of the trees ••• • . : : •rang on the dunes and result in salt-pruned,windswept canopies. Coastal scrub is represented by a conglomeration of coastal •- -- • •- between the Mangrove forest and the •-. • -• • pedes common in the coastal scrub zone of the Clam Bay syst- u '•t ••-,seagrape(Coccoloba uvifera),cabbage palm(Sabal palmetto),buttonwood (C•l, ' ' s erectus)and Spanish bayonet(Yucca aloifolia).[This is an important habitat as it helps —anchor the back dune sands and provides habitat for several listedplant and animal species including the gopher tortoise(Gophsrus polyphemus)] - _ � ' 1 feund-in this halzitat.- v The primary management issues of concern in the coastal scrub are gopher tortoise habitat management and exotic vegetation control. 28 CLAM BAYNRPA MANAGEMENT PLAN(DRAFT) Pelican Bay Services Division May 1,2014 Ver. 5.0 � :mai, :,'-'Ai f` 4 :lir ,Sem a ` �' . a .cam a 7,,, :.TA7)A4,.,.1*4: ',, ‘ '4- It -Ak'. ri,-.4;;;81. ..! '*4 ' 1 1 1 . . . __- _, , l ‘._ ,..... , , , ib...,"7. <. ,gyp x , A 4. ti'vs... x• t, ,0 + .1.41 r 0:-:ctikl-,' ; Pliil ,i, .- ,, ir"`"‘ 74,-. .- - An_:` I 1 d:Y•it•' )� t x r• r s 5P � s . r J,Yra,..,4 r't.,;';.r N-._ .-,:-,"e:7•%.3.riir...j,f;., Vi•:-.., . ,..,..f vi"..::,,,,,*-..:1 t *...io ti r ht �!`�. �r`��'' ?'Oils C •s r !' it' t ' .� b r tv ,' 1i �yr.1 ' � i444 t f ��� 4t i '' 130; . y I , ` "« t :,1. ��♦n f ` <,-.1' ?.i . "g_ Vit .. i t it a v' # .< ..,-PT b .,t tom~ ; i! i a y• i. m:„„7,,,,1}ix � ., "k� �Si ��i 4. f t � }•_�� *�._. �.n1M -� ° '4�.�j�.`�`yyg t}a� �5.h,.`,,, � .-* ftr'!`�� a }r .5 � 'Y 4.1 x. ,--,,' t 4 t x L Figure 8: Coastal Scrub habitat within the NRPA Boundary S Co 4 abbage Palm Hammock This forested zone is composed of the more protected dune vegetation farthest from the Gulf of Mexico. The Cabbage Palm Hammock habitat is identified by the preponderance of cabbage palms (Sabal palmetto). It is generally found in pockets located between the mangrove forest and the coastal scrub zone or beach areas. side from cabbage palms,seagra (Coccoloba uvifera), onwood (Conocarprss a us),an seve er hammock species s as wax myrtle(Myric erifera}and myrsine yrsine gteiane are common. See page 5 or a more complete list common plant spe 'es found in the ••+itat. A hammock is allay that is densely shaded h canopy of trees. 29 CLAM BAY NRPA MANAGEMENT PLAN(DRAFT) Pelican Bay Services Division May 1,2014 Ver. 5.0 FHammravel ocksthrough usually have sparseal groundcov provideaer thateprieve leavesfrm thethe forestf floor mostly open for animals to 3A).9,),t Flamini H ocks sun animal and hum s alike. Clam B ,this ha stat is als susceptibl to mfesta on by exoti vegetati n such as ustralian me (Casu na equi tifolia)an Brazilian pper(Sc inus terebin ifolius) hich areaddressed rther on in t s Sectio . The primary management issues for this habitat are exotic control and preventing destructive visitor �,t� L access. l jf ' - .. % ,:{' 1 :tif:s t14,* to 1,-4"cgfi .-7T"RY � � ��,ay ••.t r, i,:,4 • tl'4 a # ,,,,,,Ipt... Figure 9:Cabbage Palm Hammock habitat within the NRPA Boundaty '-emtc-MO-ay(with and without connection to the Gulf) The Clam Bay NRPA contains the three larger bays associated with Clam Pass(Outer,Inner,and Upper)as well as the interconnecting shallow creeks and small open water areas. Second in extent of aerial coverage within the NRPA boundary,it is the bays and interconnections which serve as the life blood of the estuary. This open water habitat serves as the basis for many other communities. Seagrass beds,oyster bars, clam beds,and other benthic communities can all be supported to varying degrees with the open waters f the bays and interconnecting creek?As,kutlined,$elow,sev ral of th commum es are pr ent within/the Clam Bay A and will be c dnsidered when decilmg on management ctivities tlined withih this Manage ent Plan. 3 Ja 7'�a EYP e S I1s�Se,-7' eir4 oaf,it� .7Z.)./.,04';-) G�• -.--._ __ the._ studies indicated that the single most important thing that..carrWe done to restore the �i me of health of the Clam Bay systemw o improve the total tidal flushing capacity of the system(Tackney ,0 1996; Lewis 1997;Wilson Miller,et al 1996;Turrell 1995). The dredging conducted within the Pass 4Ve and the interconnecting creeks,as well as the hand-dug flushing cuts,have been seen as the major contributing factors to the restoration of the mangrove forest community within the system(Turrell c/40 2008;Humiston&Moore 2003). 1'�Iig A,;1-/9905, */(5. ,r ,rte /� 1I e-i ' 1j�YG�/� � (i7ec) CLAM BAY NRPA MANAGEMENT PLAN(DRAM 1) Pelican Bay Services Division May 1,2014 rDis/` T 71!1 5 -Ce c V eril — a 5r`'_ lamp ),iv/ P/5Ae.4.0 Ver. 5.0 Tidal Pass Clam Pass is the only open water connection to the Gulf of Mexico for the Clam Bay NR.P• . The exchange of seawater between Clam Bay and the Gulf is critical to the ability of the estu.. to export organic matter,as well as to help regulate excess salt and freshwater. It also supplies s ygen rich water from the Gulf. In the absence of surface water circulation or tidal activity,e arine habitats such as mangroves can slowly die due to deleterious changes in the sediment: 1 the absence of oxygenated water,the sediments become anaerobic or anoxic,and 2)metab• c wastes and hydrogen sulfide accumulate in the anoxic sediment(CBRMP, 1998). Tides in the Gulf of Mexico are mixed,with the norm being two hi, 1 tides and two low tides experienced per day and normal amplitude(range)of approxim: - y 2 feet. The highest tides(springs) are experienced twice per lunar month at full and new moons en the gravitational pull on the Earth's surface waters is greatest. Neap tides also occur twice per i nar month when the planetary (gravitational)influences of earth,moon and sun are pe .endicular. CLAM BAY TIDAL RANGES p:1_rl{_J__^GAr__ c.c.-l—• ^_GERA.'1Cr' •1)'9991.2)))At M_E 00t MIA 6)RP^1i•^ •061.410:%Ct RP:r_ ca)Mt.k CCP 4.IG-. •121,700101,14,`,031: on,,T1Ife.61 RP`r: 13U:':V1Uu'01 RP:r__ ma3131.11:01 RP:a<= CIU 1.1.4 Os -A."Y:= mac.n n-:it'RPr, •u▪t.V34401{c•rr_ 1 S arroi I:rt3RPA.= OW W.V.('U:R A^r_= } MU-lbUt.SA{P:r__ ■▪12V'..U.0 RA'r3_ �' 0631) 166 RAsIG } ' .1 OUC411CLAP:62 > /4 I k _ 'r o 0 ..`-L {-_ 0 I 3 ! f a ii 1 9 i @ :g j. zi. IId 1 t z -- i11: i li r REGIS-R1' SOLTI, NOR-I' LPPEF 31 CLAMBAYNRPA MANAGEMENT PLAN(DRAFT) Pelican Bay Services Division May 1,2014 Ver. 5.0 It can be seen that the health of the mangrove forests is directly related to the efficiency of the tidal pass. Clam Pass and its associated waterway is a very dynamic creek whose location has varied er time(Turrell 1995;Tackney 1996). Because of this, it is susceptible to outside events and c periodically close,such as has happened at least six times in the last 25 years. The following aerial photographs show how the Pass and its waterway have change ver the past 60 years. 4 i • i'', CLAM + =`SPASS IP M , 4„, .,ice ` G. -.1; 11962 1.4ki rµ • - �. • �:. \fi t +�. c r, 4. CLAM _ti CLAM PAS: PASS 1 , tau t .� > � t iii 1973 1985 I ''' - 32 CLAM BA YNRPA MANAGEMENT PLAN(DRAFT) Pelican Bay Services Division May 1,2014 V-•. 5.0 , ' , as FR Y. . '4 CLAM 1'''1'1ro i' k 14. 1994 2004 :3E; ` ''-::' '' _ '' .., z x a. , CLAM 4 rr PAS >r � i = •,; tr.x . , r� 2012 di> t.: ► Figure 10:Historic aerials of the location of Clam Pass Tidal creeks are passageways for fish and marine invertebrates between the open waters of the Gulf and the protected embayments of Clam Bay. Manatees,dolphins,and turtles may also use the Pass. Scouring action of the fast flowing tide ge erally pre ents colonization by seagrasses and other benthic plan the sub ate is typJ ally san nd shell it the fm sedime carried sus sio ani/ Otii- depos. ed just o side the m(uth of the ass(the e b shoal de a)or to tl interior bf the stethon the wog- de into ing(floo tide. Management concerns related to the bays and associated creeks include maintaining sufficient flow through them to accomplish flushing needs of the system,stabilization of the Pass without harming other components of the NRPA,and educating recreational users of the NRPA of the need to protect the shallow water habitats and the communities located therein. 33 CLAM BAY NRPA MANAGEMENT PLAN(DRAE 1) Pelican Bay Services Division May 1,2014 Ver. 5.0 mac c'!:r ''. ,, 1 k,e * a... a"a e���'^A 'fid y `G: 4*.41..=.,-,:....., SlQ+- � . �' -'� Ss � •"E `■1'�1. r , .�.� 7' � Mkt: 4 I . .. �� - “..f..,.,-,i,�� 4.1 ' ,' . }1 ! 1, ,.. j, .g 1, _,`a'` _ .— •• -, il i''...-„.„ - . 't yT • Rst t H � , ,k ,Keo.';',. "r'r `fir o ` Figure Il:Open Water habitat within NRPA Boundary UCFCS C e Mangrove Swamps(Forest) r----• Mangroves are salt tolerant trees that grow in tidal areas of the tropics and are legally protected for their ecological value,with such functions as0 f • Providing habitat for marine,terrestrial,and avian wildlife. • Protecting coastal areas from storm surges and coastal erosion. • Improving water quality by acting as a natural filter for land based freshwater run-off. • Forming the basis of a highly productive estuarine food chain which includes many commercially valuable species. • Enhancing the atmosphere by absorbing carbon dioxide and reducing greenhouse gasses. Approximately 65%of the Clam Bay NRPA is composed of the three most common mangrove species in Florida,namely red mangroves(Rhizophora mangle),black mangroves(Avicennia g_erminans),and white mangroves(Laguncularia racemos.ij i• . • . • A La a' •• am "-�" ` -: : ; a see is o co _ - a a .r species oun• m i is a s i . - •• - . All three species have special biological adaptations to cope with salt and unstable,mucky,low oxygen soils that result from the tidal,hence continually waterlogged,environment. The dominance of mangroves in tidal areas is a function of these adaptations and their ability to out compete other wetland plants. Tidal flushing allows nutrients to be distributed within the forest and provides for the transportation of dead leaves,twigs,etc. As this material decays,it becomes food for marine life. It is this mangrove detritus which is consumed by the many organisms at the base of the food chain which in turn create the next level of the food chain necessary to support the fish populations that characterize the mangrove community. Special attention has be-. liven to the mangrove ... unity in the past becaus- . the die off w ` h occurred betwee '*1 and 1997(though s -- in the community was d••i ented as far b as the late 1970' . he die-off affected bla :nd red mangroves initiall . t eventually en up enco'- .assing some white man a . es as well. More details o• e recent history the mangrove 'anagement are provided i ''ppendix 1 eluded with t i plan. Pic 34 CLAM BA YNRPA MANAGEMENT PLAN(DRAFT) Pelican Bay Services Divis' May 1 014 'er. 5.0 Red Mangroves Red mangroves(Rhizophora mangle)are recognized by their tangle of reddish lookin t prop roots,long cigar shaped seedlings(propagules)and their large,pointed evergreen leaves. Red angroves flower all year but reach maximum propagule production during the late spring and ear ' summer months. They are typically the most seaward of the three species with the prop roots . 'i vertical drop roots providing support. Small pores on the trunks called lenticels allow oxygen •xchange via air as the waterlogged soils become rapidly oxygen depleted. Salt is excluded fro, the plants cells through a process called ultra-filtration roots. The characteristic propagules ger• irate on the parent tree and drop and float for up to a year,fmally becoming heavier at one en t o that when encountering a suitable substrate they are ready to root upright. The mass of pr,.I and drop roots forms extensive surface area under water for attachment of sessile,filter feedi'g marine species(such as sponges, tunicates,and mollusks)as well as hiding places for juven' - fish. Birds,butterflies,insects,and mammals find home and food within the canopy. •1 ,f'b i ,- • meq'{ '4,-, �.1 w'E! "r<�`.r4- t t Z.4 •,1, , ta i 'r���C it; ' ; i"4,:: kw, ,,,a: ° ‘... !4* 2, ',.. .., .f„,z, Itci., ..,Qv, i' 4 5.5,.. y '4 _ , 0 ..F } 1. i )If- .:... ' Jyd ,. .! i y r . �1., .1 , t,. y a; a e' " R 'ate A-L'.ti 11 j.. ,.4' Red Mangroves and Propagules(inset) 35 CLAN'BAY NRPA MANAGEMENT PLAN(DRAFT) Pelican Bay Services Division May 1,2014 Ver. 5 i Black Mangroves Black mangroves(Avicennia germinans)are typically found a little further inland. Key ide 'I'cation features include the snorkel like pneumatophores which radiate upwards out of the soil fr. the base of the trunk,a grey-black rough bark and slightly pointed,oval leaves which are silver ith salt deposits on the undersides. The pneumatophoresplay an important role in oxygen change and unlike the red mangroves,which keeps salt out of the body cells through filtratio` m the roots;the black mangrove excretes salt out of the backside of the leaves. They are also iant on adequate tidal exchange but lack the supporting prop roots that typify the red mangrove. . all white flowers and lima bean shaped propagules are typically apparent during the late sprin.and early summer months. Black mangroves are cryptoviviparous as the embryo develops with' 4 e fruit while on the parent plant. When these propagules fall from the parent tree,they are ab - to float for a short period before rooting in the mucky soil. S i' 't. .fir` t �, i.� G r , tib - 4 ,,-,1 ,kW t ''{� .t 4J, 1), .' , ,.. . 1. k.. „.....i. t (,: ,!, `ii. (,, , tier' 1 ',t • t 1 . - ti.-..:I. , —, , 4,r ( , TN , ,.. ./ :...I,am 4 ... :,,1, A ;lit 1.--. .,tt .it. ... . 4. ; .. .,_ ' ; ,... ::--_ :7.4., . -,‘,1.: -.,-c4,5-:,..„ ,,,t 4., .1.,...., ... t t {ti •� �t ' t i =t3 "'it! r r t 1jlr Li } 1J ., , hY.V ' - �1 ii t- -• '-' ,}N i- �`A• t_�.`5�. k�]4C(,. r�l � � t'a .e fit �]L . tip 51.:+�.,tit �. -��``, . 2fs. f.... iy 4,... r•t• n 7 1}};. ✓-'11 ] 1 , ', _. • ,-44,-7..,--, . ~'i tilt' k 4a ��..,' g c ti C. ` ` r• (:: pp i, fit✓) _ . r s - ' k ja is ♦ t '- .fir �'d f' kir0-- r, • k i.,-, c',; i -, ,., .'-';44,..., ..‘ I :7,- , • ' i - -'4.,.' iir.-..m ,,r r.dli, ;'; '. '.. ,,,- . • I4,4 ` x� Y�1 �. �f K� .,�' 19 !{�R w tkC t t = air� r {(( ♦ om. Y �] . • *ilk. ,¢ ., 4, t + ,. i Lf �:. ov,• .h-,... . _.-,-..--,t-..., :;.-. -, r ' i!.:-?; V.': i iy % -Nit ..,.1..13t' 4, '. A\1 ' 7.. „ ...,.Ar . - t,.... . ..„4.0„.„,„ , ,, .. ., 4- Black Mangrove Pneumatophores 36 CLAM BAY NRPA MANAGEMENT PLAN(DRAFT) Pelican Bay Services Divislo May 1,2! 4 r. 5.0 White Mangroves White mangroves(Laguncularia racemosa)are the third mangrove species and are oft-: found further inland than the other two species(although zonations described are typical they c.s i equently vary). Since they often occur in drier areas,white mangroves do not exhibit the adapta'•ns to soft,anaerobic soil of the other species. The bark is characteristically grooved and furrowed .1+d leaves are oval,mid- green and leathery with two small glands on the petiole at the base of each -af. White mangroves also flower in the spring and early summer and the small seedlings have the ortest floating dispersal stage of the three species. White mangroves are semi-viviparous and germ' ate inside the fruit during the approximately five day dispersal,but not while attached to the par: t plant. ,„,,immo, w .,„, ,,,.. , ,t -,;,;. ::1-,:tt 1 r 1.- , .„.„, „4.,,-,,, - -ligrati , ,,..oir 41,- ,, - w $fix r a1 i1:' ' '' 111.1 • A P4' 4,:,,, ( . i .., .:,:' ,., 12: • * ' ' - -.-. — /11.,- -' t -',:t--; w *.r -sem sJ \1/4\.„, xl ! y 6 White Mangrove leaves and fruit 37 CLAM BA YNRPA MANAGEMENT PLAN(DRAT 1) Pelican Bay Services Division May 1,2014 darn' Ver. 5.0 U c0/0"Hterl: �`� The/mangrove co posed of both riverine(along the creeks)and basin forest component specie composi on of grove within ese two ommunity comp eats' ve distinc ' e. R' Brine grave Bas are ost a lusive compos of red grow s wi t Cl ay A whi e all fire species, along w th buffo wood(C nocarpu erects are f nd in e fore corn nent. Riverine(Creeks)Mangroves On the waterward edges of small islands and the tidal creeks,passes and estuarine waterways that make up the Clam Bay system,a fringe of red mangroves will be found growing up to 2S feet in height. This zone can be just one or two trees in depth or extend landward for some distance, depending on topography. The habitat provided by the prop roots of these red mangroves is of great importance to many fish and other aquatic organisms. Forests The majority of the Clam Bay mangrove habitat is low-lying basin forest where the dominant mangrove species varies between red,white,and black through the forest habitat. This forest community was the habitat affected by the mangrove die-off. The hand dug flushing channels were constructed throughout this community to increase the flushing capacity through tidal inundation. art„ ��d.7 mer�def' /S on s` Yecesrf Llls�d�y e�7�CP •�, 'xa/bode rstasr��es�2pscl�4� �"?c�JtC� Associateplants within mangrove h 'tat include bu nwood(Conoca us erectus) e succul t ground cover , saltwort(Ba s maritima)and asswort(Salico a cervico s),(espec' ly whe a fallen tree pr vides a break the canopy anfight penetration the forest or}and, rther in nd and closer to eshwater sou ccs,the leather f rn(Acrostrichunt danaefolia). sr F ` j 1 in 5 !•C ',, "' ` Ya g i t'.,jam, i •• Y4' f a i t v t t 1�i .,...,,,;:.1,,_,... -) ., 'l .1 7,+t,fLJI�vC �r a1 S. t L`- Pr i_`, \ tl�i�. {.,��. -i"+gF.H�i i ,tij 4 j , r.•.:-1,,,a..1--,, � ,n $4.41.4....;),,t.‘.Jtr,, hc.,. Z .. ...7.1.-\0-- _. ! r+ q .,, .;to i ate,.,.-� yljt I� �. +",� ",^« `w...+:,. ryyt. ,- }, S ": �.y.".'` 1+' . ' ,. if a `r�LL tt. ! �i , "l, , *'...:.3 .'''':.' f%-14:- - .. e ,,,___ ,?..,, 1,,.. .. ', , 2 IL5;215..,_,, 1/i-‘44" ri �, .T� Figure 12:�langrove habitat within the NRPA Bottndaty y.aTT SC 4d'' c4 It Marsh v�m VQ (At the interface between forested mangrove areas and the water management berm are diepressional I eas that have become colonized by aquatic freshwater plantou . .' "'� r i , :. •: :-• = • . .. .r : ' -or a more comp e e fist o common p an d i i CWildlife such as otters(.Lnzr li t ,,alligators(A tiga nd 38 CLAM BA YNRPA MANAGEMENT PLAN(DRAFT) Pelican Bay Services Division May 1,2014 Ver. 5.0 rissippi 1 various turtles,and wading birds can be commonly observed. These areas require regular maintenance to prevent the spread of nuisance and exotic plant species and ensure optimal functioning and interface between the natural mangrove forest and the development water management system. a t(Mlikk�� 1.) � Mill �s`�`}�'��1�#�.r.-;.',41-1141....i-'. �'� vir !, •! r �'. -1',,:,441.75,,,, , iW,1 (:,N} ;fi ct' t -c ti , r �t ,,- t RPS {z { l ° i I �� j ICS, .• '1' 3/,�, p:'•'.)ti i t. { <.. 1,� �„ +`' ,�...= - 44"v it...aY ;' 1 I •`���� °kv 5 PL` gr ' P +��NSt/ :r;;;`r r yI `' i 7.7,:,'I--.%";-ci,'------.*00., P'" ‘, ......‘,,,.-',..,v 4, ' • _, - ."-i-, -,..."-:' 3 'c'tel.'1,4 7«.,1#..ta. ,t.;-'.--. 1'‘A,,,,,, ;' t,4 � v.�'r!. n�..v.. .. „-.... �C-`_,.._.-_am =.w-.....:. ;. r^�ia��.. .. �i •�i Figure 13:Salt Marsh habitat within the NRPA Boundary ,r de-654--Tidal Flats riTidal flats are flat bottomed, sub-or intertidal habitats that lack an oyster or seagrass community and are located inside the outer coastal margin3The two m t significant vironmentai ch acteristics tha control a fla s infauna(benthic org sms that live wi in the substr e)and epifaun benthic organisms at live on the surface the substrate)ar .the height the substrate r tive to mean a level and a sedimentary consist cy of the subs e. The posi 'on relative to m sea level di tes whethhe a habitat is emergent m air)for part of tidal cycle how deep belo the water it i . This latter aracteristic controls o er physical water uality meas res,such as dis lved oxygen, e freq ncy and duration of by oxic events,and l'ght penetrat n. Firmness of a substrate a ects the capacity to support an epifa a by both supporting the organism on the substrate and permitting the burrowing of the infauna. The sand and mudflats of Clam Bay are rich feeding grounds for many species of fish and wading birds. These organically rich sediments support a variety of mollusks,worms,and invertebrates that scavenge detritus or,in the case of many bivalve mollusks,extend siphons at high tide and filter vast quantities of water. Birds such as a variety of herons,ibis,egrets,and spoonbills pick through the sediment for the invertebrate food sources. The dredging of the pass associated with the 1998 Restoration and Management Plan resulted in an increase of exposed tidal flats within the southern portion of the system. Increased tidal range resulting from the dredging allowed more area to be periodically exposed during the tidal cycle. Some of the area that had supported seagrasses prior to the dredging work were converted into the tidal flats(,) • .-: '.• -. . -t ..•, -• _ -• - Management concerns related to the tidal flats include the templates established for the dredging,the resultant currents that could be expected as a result of dredging,and the frequency of disturbance. 39 CLAM BAY NRPA MANAGEMENT PLAN(DRAFT) Pelican Bay Services Division May 1,2014 Ver.5.0 .19 ,-7—,,,......' ` ; � 'ZV 17 . , `` .,, , 3 t t r1� � lo ` ,' . } �= r ‹ tijrt4 k� 'S . , . i .' , t0'' ,04 ; ',, 0,410i-1•*, ,s 4Yc.,: :),_,..„,;..4 , bit •, ,!_,,,,,,r,:„..,:ii..: . � 't'4'. ....,.,,446 t ! 'r iti +''_ . ., <,• 'Air ' it F # Figure 14:Tidal Flat habitat within the NRPA Boundal y N i i • ' Seagrass Beds Seagrasses are flowering marine plants of shallow,tropical regions. With a creeping growth form connected by horizontal rhizome*hey serve to trap and anchor sediment.Both the grass blades themselves and the surface area they represent provide food and attachment for marine species. Seagrass beds are renowned for their value as nursery habitats and are legally protected. Several areas within the Clam Bay system host seagrass beds,specifically Outer Clam Bay and waterways just inside Clam Pass(see attached Exhibts)3fhree sp cies are commonly ound in the Clam Bay aters;the large t turtle grass(Thalas is testudinum ith flat strap shap leaves,the smaller oal grass(Halo ule beaudettei(fka 1 rightii))with rrow, flat blades a paddle gr (Halo ila decepiens) th the smallest,pad a shaped leav . Shoal grass is by ar the most ommon thou a small area of rtle grass has persi ted since the o ginal 1998 dredgin .Paddle gr s is much mo ephemeral in nature and diligence is required to be le to locate it duri g the time frames when it is present. 6s ij'Fo �T Y� 9 R 3! . P� j � 1�'C L{ t 'l ` r F x f•7'. .i.; t r } 'r t S•• x j 117-:--- [ ,r 1 'sic, A s" is P. .;,.4.`7i9 j. - e,", IA ,,,,. .r;a , r._ ,, 4 GRASS Figure 15:Seagrass habitat within the NRPA Boundary 40 CLAMBAY NRPA MANAGEMENT PLAN(DRAFT) Pelican Bay Services Division May 1,2014 Ver. 5.0 .. , -.rt j ,• . n fos, Y A 1 �, , t 4 . - .' 0A'E' td° ,' mss.'- '.P ._ Shoal grass(Halodule beaudettei)along'nterior channel south of Clam Pass 41 CLAM BA VNRPA MANAGEMENT PLAN(DRAFT) Pelican Bay Services Division May 1,2014 Ver.5.0 Paddle grass(Halophila decepiens)in the center of Outer Clam Bay e Via' ;0",..'"4°' ' T le grass(Thalassia testundinum)just south of County boardwalk in Outer Clam Bay Seagrasses rely on good light penetration to enable photosynthesis and are sensitive to reduced tidal water quality. Growing in shallow regions they are also vulnerable to physical damage by boat variedof marine ae can b sociat with grass/species,diff ing i e lac €a to e rooti nd as alar system. Several sp cies of bbrown anfl Been algave been obs ved. Seagrass coverage in Clam Bay has varied over time but has always been found predominatel '• Outer Clam Bay and the waterway between this bay and Clam Pass. A 1994 . '.unty report estimated seagrass coverage at approximately 10 acres. Pre-d :- • eys conducted in 1999 estimated coverage at about 5.13 acres. Annu. ••: ' oring of seagrass beds along the monitoring transects has estimated covers_ ow of approximately 1.2 acres in 2003 to the current estimate of 2.85 acres from '< i survey. It should be noted that the coverage estimates are taken from , along - ey transects only and do not account for other scattered grasses that may be located P - -where in the system.\\\ �� � Management concerns related to seagrasses include direct impacts due to recreational use and potential 5 � dredging templates,turbidity and water quality concerns related to flushing(too much or too Iittle)and stormwater inputs,and algal infestations due to nutrient increases. A history of the seagrass mo ' . '•: - . . +• : ' •- .putt eked-to`this repo. 42 CLAMBAYNRPA MANAGEMENT PLAN(DRAFT) Pelican Bay Services Division May 1,2014 Ver. 5.0 1 - : -i t - . .' 9 / r t�` Oyster Bars n 9 Oysters(Croassostrea americana)are filter-feeding bivalves,which were once common within the tidal creeks of Clam Bay(Humm and Rehm 1972). Oysters play a significant role in shaping the environment in which they live by forming a hard structure upon which an intricate biological communityis built. _ -- : -- , ay - -- .. - ':•:: ' .----: . • -- . • • . '. . . • .. • . : ••:• . . - • - -rous-othert emporary and-perirranent ,_,species: Providing complex habitat structure is the most fundamental of ecosystem services t . -. - provide.The structure provides a place for al!.- • •• •:- .•• - invertebrates to attach,as well as a place for mobile inverte. . -- . a is es to be protected from predators.Although the relationships betwee •.: s and oyster habitats are not as well studied as in other estuarine habitats such as -agrass beds,they are considered essential fish habitat. . •• .. -•.- .- - - •• - . : 'i . : . :- . 9ri`z-: • - !.-�leral- _b o • . .••w p-•vi -. , • . - . •. - :•; - - , ; - 'ne stabilizatio .Oyster reefs s'bre." 'i le- provide habitat to a diverse array of flora and faun. -- -: - : . • - . a the estuarine food chai -•• • . • ' . ,as •iscu -. ' - . - - .Through their feeding process oysters filter large quantities of water •'-• -• : - • • •• • • - •. a - ••: - a • a /mP "g ) . •-• •'• -a - -i y,su•sequen y r •ucmg ur•'•' 7 .1 : ••• - • • - • .Through bio- e deposition,nutrients are made available to the flora and fauna which comprise the complex oyster bar "' / food web.Additionally,oyster reefs stabilize sediments, shorelines and adjacent habitats by buffering wave energy, further aiding water quality. elle Deteriorating conditions related to closures of Clam Pass A thought to have resulted in the ;i,7 ye cP.V ' 'r5 e disappearance of oyster bars in the systen3Athou! some re-occurrence has been observeRto•the-seuttr- . - ..,• - A. -ew years •uring seagrass transect mom or G • •-- •. • ' -• fel- • . •a • . :: •••• - l. • _ :.• t_ . •.-. - ••••' grin ro 43 CLAM BAY NRPA MANAGEMENT PLAN(DRAFT Pelican Bay Services Division May 1,2014 Ver. 5.0 , S ysters(Croassostrea americana) along the mangroves near the canoe ramp in Outer Clam Bay A 2011 benthic habitat assessment conducted by the Conservanc • • : -- s 'l a oun• wing oyster clusters in the us-- - - - - • sipper am Bay(a single cluster),in the tributary between Outer • • ... - am Bays(a single cluster),and throughout the shoreline of Outer Clam Bay. ]Management concerns related to oyster growth are similar to the seagrass concerns,namely protection ,r7J (1d -L,from recreation users,water quality,and flushing. 0.14:— s i'S ' i" %.4.: 5 .�� '" s x'""A111- a ' a ) �F.. q, +Z.�t�C.!� c a J,rS a 7! , \ Fj.. ( �`� � '�_ ��35 J� 4'��1�1 � { h`j '*_1 L�"1,3:-„i--:, !�. --k,,,- �' 1-L15 tr � i tN ‘,. t '11,41,-- '.. y s '' APPF;oXIMIt. 1 C '1` > 1 1IZ L'..>CIt relti ,' iii Figure 16:Oyster locations within the NRPA boundwy 44 CLAM BAYNRPA MANAGEMENT PLAN(DRAFT) Pelican Bay Services Division May 1,2014 0-0e,' G ll:L 6nlzstd.--1,'4 Ver. 5.0 ) iter ivalve,_ollusks i�` ! r 140a -rig i'4)1/414/es eef&re- i addition to oysters, 2011 benthic habitat assessment conducted by the Conservancy of Southwest Florida ; -= : : • : . -s within the Clam Bay system. The pointed venus clam (Anomalocardia auberiana)and the stout razor clam(Tagelus plebeius)were both observed. Turrell, n Hall&Associates,Inc.benthic surveys found several beds of southern hard clams(Mercenaria campechiensis)also present in the system. `. sx'e y.y p Southern hard clam(Mercenaria campechiensis)from waterway south of Clam Pass These mollusks are generally found within the shoal and tidal flat areas of the system and could be susceptible to impact during dredging or other disturbance operations. Management concerns would be protection from recreational users,water quality,flushing and dredging. ,,z WI,VI 1 vu[Se ••_,Z.14411.E., r raM' L EI"' +y .... .-.. t i y 1 t j tJ.i,.Y-Tizt-5'.t" r m Yi` �z ..4,4 J z , - d $ = .:1I, 1 2+11 1•e\#} yf 4 i I f �.;t -{_.� f L I�". 2 S i 4f 1�. � „ -,:':...-Y,1%:-s=""'"7"-. 1 tl 0., 7, 1 rn— _ ry+f..1;„$*�j,,c•.g`,y rests �d ,,,,,o, �,.�a r? 4 'a'` + y” 16. IA II Figure 17:Exhibit from Conservancy of Southwest Florida Report 45 CLAM BA YNRPA MANAGEMENT PLAN(DRAT I) Pelican Bay Services Division May 1,2014 Ver. 5.0 Tubiculous Polychaetes ETubiculous polychaetes(tube worms)are typically the most abundantbiological assemblage in Clam Bay and are primarily associated with muddy and sandy substrates] ly haetes inclu ' g wo tins and ud tube ,shell-e crusted lychaejt tubes�Polych a)anc et wo (P . inaria ould' tub s are a v. 1 com nent of e e dine food'web,p viding ey mkage betty n prim p ducers d high trophic evels Polychaetes create habitat and food for many organisms such as mollusks,fish and even sea turtles. ese worms are usually filter or deposit feeders that keep the substrate aerated and free of waste accumulation.Polychaetes tend to dominate Inner and Outer Clam Bays,with lower occurrences in Upper Clam Bay,the Lower Tributary,and,to a lesser extent,the Upper Tributary Hardbottom Communities Another important marine habitat marginally associated with the estuarine system is the hard bottom reef community found just seaward of Clam Pass. In about 10-15 feet of water a variety of sponges, stony corals, gorgonians, fish and associated invertebrates can be found within a system of rocks and ledges. Outcroppings of similar habitat type occur along the length of Collier County and are a little known resource of regional significance. az ',,..• ,..„,„ ,i ,„ ... .., .. , Hardbottom outcrop off of Clam Pass Collier County has mapped this resource through side scan sonar surveys in 2005 and 2009 as part of its beach renourishment project. The information received from the County shows that the landward edge of this habitat is located approximately 250 to 300 feet offshore from the Pass. 46 CLAM BAY NRPA MANAGEMENT PLAN(DRAFT) Pelican Bay Services Division May 1,2014 Ver. 5.0 ♦,1p �,r ;ii,;'�' ""1,.. fie+4„,',►e�lttYY,, )111 w.. �',I,.,, .'fif'-1fr 14 i .4. v . ,...,,,, , 1q��'-i-If----;',2;;':4- + � r .... OUTER ; )., E" CLAM BAY t .� - ,CLAM BAY Isko i UPPER . ---.-. ` BAY.Y, ' .`� ��:.+-- �'� _ "4+4! ,�+��< PASS i'' GULF OF MEXICO Figure 18:Hardbottom Community of-shore of the NRPA boundary Management concerns related to this habitat include recreation use and potential turbidity impacts resulting from dredging or other management activities within Clam Bay NRPA. Invasive,Non-native and Problem Species In an ecological context,an invasive species is one that is aggressive in growth and expansion of range and tends to dominate other appropriate native species. Its establishment and dominance can cause widespread harm to an ecological system by altering the species composition,susceptibility to fire and hydrology of an area. Non-indigenous species(i.e.,non-native or exotic species)are those that have been introduced purposefully or accidentally to an area outside their normal range. The characteristics of some of these species(high rate of growth/reproduction,no natural predators,easily dispersed,able to out-compete native species)make them invasive. Some indigenous species(a species whose natural range included Florida at the time of European contact circa 1500 AD or a species that has naturally expanded or changed its range to include Florida)may also become invasive. Invasions by native and non-native species often follow an alteration to ecosystem function,disruption of the food web,large- scale fragmentation of an ecosystem and/or disturbance(e.g.,clearing,fire,drought,etc.)of an area. While some native species may become invasive,the establishment and dominance of non-native species is of particular concern. The exotic species documented within the NRPA and those that have a potential to occur within the NRPA are discussed in the following section. Invasive and Problem Plant Species The Florida Exotic Pest Plan Council(FLEPPC)maintains a list of exotic plans that have been documented to(1)have adverse effects on Florida's biodiversity and plant communities,(2)cause habitat loss due to infestations,and(3)impact endangered species via habitat loss and alteration. To date,9 non-indigenous plant species have been detected within the Clam Bay NRPA which are listed by FLEPPC as Category I exotics. FLEPPC defines Category I plants as those that alter native plant communities by displacing native species,change community structures or ecological functions,or hybridize with natives. Category II plants have increase in abundance or frequency but have not yet 47 i / CLAM BAY NRPA MANAGEMENT PLAN(DRAFT) Pelican Ba J 0100Iirsr.' May 30.2014 Ver.6.0 the impaired list. While the upland nutrient management plan is not part of this Managemen - . . PBSD will work closely with the Pelican Bay Foundation to coordinate and share information and to integrate management decisions and activities into this Management Plan where appropriate. Archaeological Resources The Florida Division of Historical Resources Master Site File lists three known archaeological sites within the Clam Bay NRPA boundary. All three are located within the mangrove forest habitat. Two of the sites(CR476 and CR547)are located north of the Pass and south of Inner Clam Bay. The third site(CR576)is located south of the Pass and north of the Clam Pass Park boardwalk. Site CR476 is identified as a prehistoric campsite and shell midden possibly supporting the use of several cultures dating from 8500 B.C.to A.D. 1700. Sites CR547 and CR576 are identified as shell middens which were in use between 100 B.C.and A.D. 1700. All three of the sites are within the mangrove forest and outside of the footprint of any previous or future anticjpated We dredgi g activities..y y /We/it� �O //0 ' "%Yy o1m/oG c 0 ri -------/›- Inlet Dynamics 5-70 ` Clam Pass is a small wave-don ted inlet :- - . - 'as that provides a tidal connection to approximately 00 acres,of the 570 acres,of wetland preserve. The relatively small tidal prism of Clam Bay provides a critical balance between tidal flow in and out of the inlet channel and littoral processes moving to the inlet. This affects the inlet hydraulic efficiency over time, especially when littoral transport rates are high due to periods of high wave energy. The morphologic features of a tidal inlet include ebb shoal,flood shoal.and inlet channel. The flood shoal includes the sand shoals on the bay side of the inlet channel. The flood shoal is less dynamic than the gulf side of the inlet as it is influenced mainly by tidal flow and sheltered from the varying wave conditions on the open coast side. The ebb shoal features can be explained as sand bar features forming a delta on the open coast side of the inlet. The ebb shoal delta shields the inlet channel from waves and provides pathways for sand transport along the coast to bypass the channel without shoaling the inlet closed. 34 CLAM BAY NRPA MANAGEMENT PLAN(DRAFT) Pelican Bay Services Division May 30,2014 Ver. 6.0 6'4'i"+:•.98.10;-._.... •ec 9 .^'e.�^ -�� :i4 -.. 7_....��.. r Gull tr Etna' • • int l igure. :Ebb anti Flood Shoals. Figure proridecl by Humislon<ti t bore A stable inlet system requires an ebb shoal feature that prevents rapid shoaling at the inlet mouth. The inlet channel maintains its flow cross section through tidal flow that scours the channel to required flow area while the waves are moving large amounts of sand alone the coast. The stability and dynamics of a tidal inlet are based on the balance of the two forces of tidal flow versus wave-induced current and sand transport. The direction of wave action plays a significant role in the shape and dynamics of the inlet features. Clam Pass is critically stable but subject to shoaling.and therefore requires regular monitoring to determine if dredging is needed. The relatively small bay area compared to other estuaries in Southwest Florida provides adequate tidal flow to keep the Pass open under typical conditions. The narrow nature of the flood shoal area surrounded by the mangrove forest limits the flood shoal capacity to maintain an equilibrium volume and bypass additional sand to the Gulf and bay waters. The accumulation of sand over long periods of time,especially within the flood shoal and inlet channel creates additional resistance to flow. This additional resistance causes a reduction in the tidal range within the hay system and consequently reduces the flow through the Pass. Maintenance dredging to restore flow rates rrraneeded. 15 so��7i%JSPS During the 1990's Clam Pass was subject to channel migration as well as closure,and dredging was necessary to keep the inlet open. In 1998 the Pelican Bay Services Division developed the Clam Bay Restoration and Management Plan that was approved by the Collier County Board of Conunissioners. The purpose of the plan was to address the mangrove die-off by improving tidal flushing into and out of the mangrove forest areas. `Phis was accomplished through the dredging of('lam Pass and portions of the interior creeks within the system, as well as the construction of a network of hand-dug channels throughout the original die-off area and several other areas that were exhibiting stress. The implementation of the Clam Bay Restoration and Management Plan resulted in a significant increase of 35 CLAM BAY NRPA MANAGEMENT PLAN(DRAFT) Pelican Bay Services Division May 30,2014 Ver.6.0 the tidal prism compared to conditions prior to 1999 and the eventual recovery of over 90%of the original mangrove die-off area. Oen;i7i ' Clam Pass requires regular monitoring to determine when dredging may be needed. In addition to the 1999 dredging,dredging occurred in 2002,2007,and 2013. The 2013 dredging took place following .5t.-GI .,e inlet closure in late 2012.following the passage of Tropical Storms Debbie and Isaac and high-energy wind and wave conditions during. The inlet was reopened in April,2013 and tidal exchange between the bay and the Gulf of Mexico was restored to near design levels. `-the "ca„pe 0/ hme-?ri1/4,-%s rd elii 4ricL Chapter 4.0 of this Management Plan outline factors that will be considered prior to a determination to dredge Clam Pass. Recreational Use The Clam Bay NRPA provides a variety of opportunities for recreation,such as walking. kayaking, canoeing,paddle-boarding,swimming, fishing, and snorkeling. Many Collier County residents and visitors enjoy the natural environment of the preserve. Recent Stakeholder input as well as prior reports supports the use of the Clam Bay NRPA for low-impact recreation. It is important that all who participate in recreational activities within the system do no harm to the unique flora and fauna of the Clam Bay NRPA. Clam Bay's dense forest of mangroves significantly limits walking in the preserve. Most walkers seeking to enjoy the rich natural environment of Clam Bay use the three boardwalks that cross the preserve and provide access to the beach. Residents and guests of Pelican Bay use the northern and middle boardwalks. The southernmost boardwalk is open to the public and accessed from the parking lot at the south end of the system. Trams are used on all three boardwalks to transport those choosing not to walk on the boardwalk to the beach. Fishing and swimming are popular pastimes. Fishing can be done from the boardwalks and canoes or by wading into the water. Swimming is usually confined to the beach areas, but some swimmers and waders, if conditions permit,venture into Clam Pass. Kayaks,canoes,and paddleboards are used by those wanting to enjoy the natural setting and serenity of Clam Bay's waterways.There is a public launching area for non-motorized vessels adjacent to the parking lot at the south end of Outer Clam Bay. There is also a launch area for Pelican Bay residents on the northern boardwalk.The canoe/kayak trail is clearly designated by canoe trail markers from Outer Clam Bay to Upper Clam Bay. Occasionally, motorized vessels, including boats,jet-skis or other personal watercraft,have been observed operating in a manner that may be in violation of Florida Statutes. Appropriate County Ordinances regarding vessel operation may be sought in the future to ensure that Clam Bay remains a safe environment for all recreational users. 36 purposes, mean high water (MH\A) for this area is +1.5 feet above NGVD, mean tide level is +0.5 feet above NGVD, and mean low water (MLVV) is —0.5 feet below NGVD. Table 2 Average Cross Sectional Areas within Active Portion of Cut#4 Clam Pass Monitoring 1998 to 2008 Date of Description of Survey Avg. Area (ft2) Avg. Area (ft2) Avg. Area (ft2) Survey Segment A Segment B Segment C 10/1998 Pre-dredge 93 74 92 04/1999 Post dredge 417 359 402 05/2000 13-month monitoring 180 198 360 02/2001 22-month monitoring 185 205 no data 09/2001 Post Tropical Storm Gabrielle 298 243 312 12/2001 Pre-maintenance dredge - - . 301 240 342 02/2002 Post maintenance dredge — 296 399 no data 04/2002 36-month monitoring 276 317 558 06/2003 50-month monitoring 177 186 537 11/2003 Post storm 270 212 510 05/2004 61-month monitoring 210 260 443 06/2005 74-month monitoring 156 215 331 07/2006 87-month monitoring - 345 165 345 04/2007 96-month post dredge 580 485 483 08/2008 112-month monitoring 213 226 396 Note: Description of survey interval is in reference to completion of the April 1999 dredging. Post dredging surveys are underlined. All three segments were dredged in 1999. Only segments B and C were dredged during the January 2002 maintenance dredging. Following the maintenance dredging in 2002, Segment A experienced shoaling in response to high wave energy. The shoaling took the form of a sand spit that grew across the inlet entrance from the south causing the inlet entrance to migrate north approximately 400 feet. In October 2002 scour from tidal currents during an elevated storm tide reopened Segment A along the dredged channel alignment. This is an example of how the increased tidal prism and stronger tidal flow resulting from the 1999 dredging has been effective in maintaining the average channel cross section above the pre-dredge condition which existed in 1998. The most recent monitoring data collected in April 2008 shows the average cross sectional area in each of the three segments has decreased since the last monitoring data set was collected in April 2007. As stated previously, the decrease in cross sectional area of flow is the result of in-filling from the inlet returning to an equilibrium cross section area. 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H ` `STAB x 1 s- 9+'. '...'"4 \ — A 8 `t is p 9, X a �?"- s ..c.-::-.... ' axe.. ,,# -.. s •\ ,-:-, ! OF _gym < I:k 4 6 4 iA L 13 7. • vz 300' �» _ � . i = 111111111111 1111111110SCALE ;tIIIIIIIII �> -r. AERIAL PHOTO el `ax IN JANUARY 2008 a � ' COLLIER COUNTY' , HUMISTON CLAM PASS ��l�iOOKE SEGMENTS A, B, & C 5679 STRAND COURT ENGINEERS FOR: COLLIER COUNTY NAPLES, FL 34110 FAX: (239) 594-2025 f 1 ?F DATE: 10/02/08 FILE: 1-4 Dredge SCALE: 1"=300' PHONE: (239) 594-2021 -- -- G JOB:13078 DATUM: NONE FIGURE: 3 www.humfstonandmoore.com 06O 6) c-� ,( 1/Ze." :(.3 7 /(;orl..L HAGtlIia1050DD216igves\060092 CIs Pass PIsn View Luis oddtlwa-O 191 2005®221Pn 1/4 .17 b ,-1 ^'o-yim mo r �. �eipy ,e1 Z C imOi Zm i. fit[�CSty�.0 + Y '".. ,- , u 9 VII { Ctc \7 C Z 1 O T o 31 • ;..Ne,..4 'I hjV ! C ,u O r.'`'' qty . �.. � • � hF . � .,Z 2 A 1 t '-i I # 1 r 4 f: IY N .s •i 'to i o 1i f\ fes.co 1 g k 1 , \ i a41+ — • ?j • T t u 's 1, ( •,,-,,,,,Tf i.;.1,1,;:, ,___tA,v, -\ 0,, , : .. 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Z n ti'O the G) co01 i.. + .1'.•r O C m CO xO � X to u 1 om n o o 0 4 ':s -n �4 .fit`„ :•-•,,,,;.*„.. ,. .•:,-/ f•' �7�_diad ,.,. l-I- 4Y f X i "�.� t'.Y!• r, 7 fins 71 CD i SS c p mr > ' w 4 "n 4 17 m - i -=-R CIDo I n 0 8-< S CoK �mD 6 m'11C)� N III o Z zr0 m ` o i P. o .. . -1,12 u .F Z CLAM BAY NRPA MANAGEMENT PLAN(DRAFT) Pelican Bay Services Division May 30, 2014 Ver. 61 Table of Contents CLAM BAY NRPA MANAGEMENT PLAN I EXECUTIVE SUMMARY I LIST OF FIGURES: III LIST OF TABLES: III ACRONYM KEY IV 1.0 INTRODUCTION 1 PURPOSE OF THE CLAM BAY NATURAL RESOURCE PROTECTION AREA MANAGEMENT PLAN 1 DEVELOPMENT OF THE CLAM BAY NRPA MANAGEMENT PLAN 1 ROLE OF THE PELICAN BAY SERVICES DIVISION 3 2.0 OVERVIEW OF THE CLAM BAY NRPA 5 DESCRIPTION OF THE SYSTEM 5 ADJACENT COMMUNITIES 7 NATURAL HISTORY 8 HISTORICAL OVERVIEW 8 MANGROVE DIE-OFF AND RESTORATION 9 TIMELINE OF IMPORTANT EVENTS WITHIN THE CLAM BAY SYSTEM 9 TIMELINE SPECIFIC TO THE ESTABLISHMENT OF THE CLAM BAY NRPA 15 3.0 RESOURCE DESCRIPTION AND ASSESSMENT 17 SOILS 17 NATURAL COMMUNITIES 17 INVASIVE,NON-NATIVE AND PROBLEM SPECIES 25 LISTED SPECIES 26 OTHER SPECIES 29 HYDROLOGY 30 FRESHWATER COMPONENT 32 WATER QUALITY 33 ARCHAEOLOGICAL RESOURCES 37 INLET DYNAMICS 37 RECREATIONAL USE 39 4.0 MANAGEMENT PLAN GOAL AND SUPPORTING OBJECTIVES 40 OBJECTIVE 1—MAINTAIN AND PROTECT THE NATIVE FLORAL AND FAUNAL COMMUNITIES WITHIN THE CLAM BAY NRPA 41 OBJECTIVE 2—ENSURE THE ESTUARY HAS ADEQUATE TIDAL AND FRESHWATER FLOWS TO MAINTAIN ECOLOGICAL HEALTH WITHIN THE CLAMBAYNRPA 42 OBJECTIVE 3—MONITOR AND MAINTAIN WATER O_UALITY WITHIN THE CLAM BAY NRPA 42 OBJECTIVE 4—MONITOR ARCHAEOLOGICAL SITES WITHIN THE CLAM BAY NRPA 43 OBJECTIVE 5—ENSURE RECREATIONAL ACTIVITIES ARE ENVIRONMENTALLY COMPATIBLE WITHIN THE CLAM BAY NRPA 43 5.0 CLAM PASS DREDGING 44 A. DREDGING POLICY 44 B. DREDGING CRITERIA 44 1. BAY TIDE RANGE 44 2. CROSS SECTION OF FLOW AREA AND VOLUME OF SHOALED MATERIAL 45 CLAM BAY NRPA MANAGEMENT PLAN(DRAFT) Pelican Bay Services Division May 30, 2014 Ver. 6.1 3. INLET CHANNEL LENGTH 46 4. EBB SHOAL 46 C. DREDGING CONSTRUCTION 47 1. TYPICAL CROSS-SECTIONS FOR DREDGING 47 6.0 AUTHORIZED CONSTRUCTION ACTIVITIES 52 LIST OF PERMITS FOR WORK UNDERTAKEN TO DATE AND RELEVANT LEGAL FRAMEWORK 52 CLAM BAY NRPA MANAGEMENT PLAN AMENDMENTS 54 CLAM BAY NRPA MANAGEMENT PLAN STAKEHOLDERS GROUPS AND REVIEW AGENCIES 55 Appendix 1 A Appendix 2 B Appendix 3 C Appendix 4 D Appendix 5 E Exhibits F CLAM BAY NRPA MANAGEMENT PLAN BIBLIOGRAPHY A CLAM BAY NRPA MANAGEMENT PLAN(DRAFT) Pelican Bay Services Division May 30, 2014 Ver. 6.1 CLAM BAY NRPA MANAGEMENT PLAN EXECUTIVE SUMMARY The Clam Bay Natural Resource Protection Area (NRPA) is a 570-acre estuarine system consisting of sandy beaches, Clam Pass, shallow bays, tidal creeks or tributaries, seagrass beds, and mangrove forests on the west coast of Collier County in Southwest Florida. The NRPA includes three primary bays, Outer Clam Bay (southernmost), Inner Clam Bay (central), and Upper Clam Bay (northernmost), connected by a series of tidal creeks and connected to the Gulf of Mexico by Clam Pass. The preparation and implementation of the Clam Bay NRPA Management Plan has been undertaken by the Pelican Bay Services Division at the direction of the Collier County Board of County Commissioners. The Management Plan will provide guidance for future management activities within the NRPA, building on the successes of the 1998 Restoration and Management Plan, by outlining the goal and objectives designed to protect, maintain, and monitor the natural resources within the NRPA and foster responsible stewardship going into the future. The Management Plan provides an overview of the natural resources and processes within the NRPA along with a summary of the surrounding development and a brief historical perspective of past events and activities which have affected it. Coordination with community members and stakeholders has been balanced with anticipated administrative and financial resources to develop the following goal and supporting objectives for this Management Plan. Goal: to establish the basis for management activities that will be undertaken to protect the health of the NRPA estuary. Objectives to support this goal include: 1. Maintain and protect the native floral and faunal communities within the Clam Bay NRPA 2. Ensure the estuary has adequate tidal and freshwater flows to maintain ecological health within the Clam Bay NRPA 3. Monitor and maintain water quality within the Clam Bay NRPA 4. Monitor archaeological sites within the Clam Bay NRPA 5. Ensure recreational activities are environmentally compatible within the Clam Bay NRPA In support of these objectives, periodic monitoring of the terrestrial and benthic habitats will be conducted. Encroachments into the NRPA by exotic and nuisance vegetation will be documented and scheduled for removal or control. Observations and documentation of the wildlife utilization within the NRPA will be recorded. Monitoring of water quality and freshwater inputs into the NRPA will continue to be undertaken. Archaeological resources within the NRPA will be monitored and any degradation will be reported to the State Historic Preservation Offices. Educational opportunities will be explored and acted upon to promote environmentally sound recreational uses within the NRPA. Irresponsible or environmentally damaging activities will be documented and where appropriate, reported to the proper authorities. CLAM BAY NRPA MANAGEMENT PLAN(DRAFT) Pelican Bay Services Division May 30, 2014 Ver. 6.1 Regular monitoring of Clam Pass will be conducted to track the stability of the inlet. The Management Plan outlines the following parameters that will be investigated and used by the consulting engineers and the PBSD Board to make a recommendation of when and where dredging might be undertaken to maintain the tidal exchange necessary for the long-term health of the estuary. Dredging Criteria Parameters Location Target Description >0.5 ratio comparison of the interior and Gulf Bay Tide Range Ratio tidal ranges A Average>300 sq ft Not less than 250 sq ft Cross Sectional Area B Average>450 sq ft area in different locations of the Pass Not less than 350 sq ft through which water can flow C Average>450 sq ft Not less than 350 sq ft A <3000 cu yds Volume of Shoaled Material B <2500 cu yds quantity of sand and sediments within C <4000 cu yds channel that can restrict flow Inlet Channel Length <400 feet distance water must flow through the beach and ebb shoal areas >250 feet distance from shore to the outer ebb Ebb Shoal shoal limits The Management Plan also includes typical dredging templates for the three sections of Clam Pass and flood shoal that show the cross sectional areas that could be dredged in any event. All monitoring, investigative, and management activities from the preceding year will be compiled into an annual report and summarized in an annual presentation to the PBSD Board. Comparisons to historic data will be done where appropriate to track trends and make determinations as to whether additional interventions are needed to maintain the estuary health. Biological monitoring, water quality monitoring, Pass bathymetry and status investigations, and any other activities conducted or data collected during the preceding year will be documented in the annual report. The Management Plan will also be used to support permit applications that may be required for management activities in support of the Goal and Objectives. It provides the information needed for assurances to the permit review agencies regarding what resources are present (or may be present) in the system, why management actions are being undertaken, and how minimization of impacts to the natural resources in the system will be achieved. The document also allows for changes to the plan should new information or management techniques come to light that would be of benefit to the Clam Bay NRPA. ii CLAM BAY NRPA MANAGEMENT PLAN(DRAFT) Pelican Bay Services Division May 30, 2014 Ver. 6.1 List of Figures: - Figure 1 —Approximate extent of Clam Bay NRPA Boundary—Page 6 - Figure 2—Historic Aerials—Page 10 - Figure 3 — Soils map of the Clam Bay NRPA—Page 17 - Figure 4—LIDAR Map of the NRPA Boundary—Page 18 - Figure 5 —Wind and Wave Rose—2006—2013 - Figure 6—Wind and Wave Rose - 2013 - Figure 7—Beach habitat within the NRPA Boundary—Page 24 - Figure 8—Coastal Scrub habitat within the NRPA Boundary—Page 26 - Figure 9—Cabbage Palm Hammock habitat within the NRPA Boundary—Page 26 - Figure 10—Historic aerials of the location of Clam Pass—Page 30 - Figure 11—Open Water habitat within the NRPA Boundary—Page 31 - Figure 12—Mangrove habitat within the NRPA Boundary—Page 35 - Figure 13 —Salt Marsh habitat within the NRPA Boundary—Page 36 - Figure 14—Tidal Flat habitat within the NRPA Boundary—Page 37 - Figure 15 — Seagrass habitat within the NRPA Boundary—Page 37 - Figure 16—Oyster locations within the NRPA Boundary—Page 42 - Figure 17—Exhibit from Conservancy of Southwest Florida report—Page 46 - Figure 17—Hardbottom Community offshore of the NRPA Boundary—Page 48 - Figure 18—Approximate locations of Drainage Basins within the Pelican Bay—Page 65 - Figure 19—Water Quality monitoring locations within the NRPA Boundary—Page 67 List of Tables: - Table 1 — 1981-2010 Temperature and Precipitation Normals Graph—Page 19 - Table 2— 1981 —2010 Temperature and Precipitation Normals Graph—Page 20 - Table 3 —Number of Named Storms Passing Through or near Naples—Page 21 - Table 4—List of FLUCFCS Communities within the Clam Bay NRPA—Page 22 - Table 5 —Plant Species found within the NRPA Boundary—Page 49 - Table 6—Aquatic Invertebrates found within the NRPA Boundary— Page 50 - Table 7—Fish Species found within the NRPA Boundary— Page 50 - Table 8—Reptile and Amphibian species found within the NRPA Boundary- Page 52 - Table 9—Bird Species found within the NRPA Boundary—Page 53 - Table 10—Mammal Species found within the NRPA Boundary—Page 56 iii CLAM BAY NRPA MANAGEMENT PLAN(DRAFT) Pelican Bay Services Division May 30, 2014 Ver. 6.1 Acronym Key BCC Collier County Board of County Commissioners CBRMP Clam Bay Restoration and Management Plan CBRS Coastal Barrier Resources System DA Department of Army DHR Division of Historical Resources DNR Department of Natural Resources ESA Endangered Species Act FDEP Florida Department of Environmental Protection FDER Florida Department of Environmental Regulations FLEPPC Florida Exotic Pest Plan Council FLUCFCS Florida Land Use, Cover, and Forms Classification System FSU Florida State University FWC Florida Fish and Wildlife Conservation Commission FWS Fish and Wildlife Service LIDAR Light Detecting and Ranging MGD Millions of Gallons/Day MSTBU Municipal Services Taxing Benefit Unit NMFS National Marine Fisheries Service NOAA National Oceanic and Atmospheric Administration NRCS National Resource Conservation Services NRPA Natural Resource Protection Area PBID Pelican Bay Improvement District PBSD Pelican Bay Services Division PUD Planned Unit Development ST Sensitive Treatment TDS Total Dissolved Solids TMDL Total Maximum Daily Load USACE U.S. Army Corps of Engineers USDA United States Department of Agriculture USFWS U.S. Fish and Wildlife Service WBID Water Body Identification WCI Westinghouse Communities Inc. iv CLAM BAY NRPA MANAGEMENT PLAN(DRAFT) Pelican Bay Services Division May 30, 2014 Ver. 6.1 1.0 Introduction Purpose of the Clam Bay Natural Resource Protection Area Management Plan The purpose of this management plan is to provide guidance and direction for the protection, preservation, and maintenance of the Clam Bay Natural Resource Protection Area (NRPA). This plan will form the basis by which future management decisions can be made by identifying the appropriate techniques necessary to achieve long-term sustainability for the natural resources and their uses within the Clam Bay NRPA. This plan, in addition to providing a brief historical perspective of activities undertaken within this system, will identify the management goal and objectives; allow for development of methods to achieve the goal and objectives; and summarize implementation, assessment, and evaluation strategies that strive to balance resource protection with recreational use. While the 1998 Clam Bay Restoration and Management Plan (1998 Management Plan) primarily focused on mangrove health and recovery, this plan will address all floral and faunal components of the NRPA. The plan will draw from the 1998 Management Plan, input from multiple interested stakeholders, and historical biological, hydrological, and physical reports to outline goal and objectives for future management of the ecosystems throughout Clam Bay. The 2014 Clam Bay NRPA Management Plan (Management Plan) and any subsequent revisions recommended by the Pelican Bay Services Division (PBSD) shall be submitted to the Collier County Board of County Commissioners (BCC) for approval. Once approved by the BCC and relevant regulatory agencies, this Management Plan, or future amended plans, will supersede all others and will serve as the primary guidance tool for future permitting and other management activities necessary to protect, preserve, maintain, and monitor resources within the system. Development of the Clam Bay NRPA Management Plan Turrell, Hall &Associates, Inc. served as the principal consultant for the Management Plan. This consultant firm has a long history of work in the Clam Bay NRPA and was primarily responsible for the implementation of the 1998 Management Plan that resulted in the successful restoration of Clam Bay's mangrove forest. The coastal engineering firm of Humiston & Moore, Inc.provided input and monitoring data for the 2014 Management Plan relative to Clam Pass and the dredging activities and templates. The PBSD Clam Bay Committee consists of members of the PBSD Board, which is an advisory board to Collier County's Board of County Commissioners. The Clam Bay Committee met regularly in 2013 and 2014 and provided input and direction to the consultants. Additional regular input was provided by representatives of the Mangrove Action Group, and several interested Pelican Bay residents. All Committee and Board meetings were properly noticed, open to the public, and allowed audience participation. Input was also solicited via notices to more than 30 area businesses, government officials and employees, condominium associations, and individuals who regularly use Clam Bay. 1 CLAM BAY NRPA MANAGEMENT PLAN(DRAFT) Pelican Bay Services Division May 30, 2014 Ver. 6.1 These representatives were invited to participate in two meetings held in the spring of 2013. Some have attended and provided comments at the periodic meetings of the PBSD Clam Bay Committee where drafts of the Management Plan have been discussed. Stakeholders were also notified in April 2014 that a draft of the Management Plan was available on the PBSD's website, and they were invited to send their comments to the PBSD's office and/or attend a workshop about the Clam Bay NRPA Management Plan on May 14,2014. A list of these area people/organizations is included with this Management Plan(pages 92 and 93). Pelican Bay Services Division Turrell,Hall &Associates, Inc. Chairman Tim Hall—Project Manager 801 Laurel Oak Drive, Suite 302 3584 Exchange Avenue Naples, Florida 34108 Naples,Florida 34104 (239) 597-1749 (239) 643-0166 Humiston&Moore Engineers Brett Moore—Project Manager Mohamed Dabees—Project Engineer 5679 Strand Court Naples,Florida 34110 (239) 594-2021 2 CLAM BAY NRPA MANAGEMENT PLAN(DRAFT) Pelican Bay Services Division May 30, 2014 Ver. 6.1 Role of the Pelican Bay Services Division In order for the management and maintenance of the Clam Bay NRPA to be successful, coordination between a myriad of local, state, and federal agencies and concerned citizens groups is required. The PBSD has undertaken that role for most of the past fifteen years. The Pelican Bay Municipal Services Taxing and Benefit Unit (MSTBU)is a dependent special district known as the)that formed pursuant to Chapter 125 of the Florida Statutes and was formally enabled by the BCC pursuant to Ordinance numbers 90-111 and 91-22. These ordinances were replaced in 2002 by Ordinance 2002-27 which further clarified the role of the MSTBU and the PBSD Board. This MSTBU was created to, among other things, provide for the maintenance of conservation and preserve areas within Pelican Bay. This responsibility was undertaken diligently from 1998 to 2009 and resulted in the implementation of the previous 1998 Management Plan and the recovery of the mangrove die off areas. Per action by the BCC,the responsibility for many of the monitoring and maintenance activities associated with Clam Bay was given to Collier County's Coastal Zone Management Department from 2009 to 2012. In 2013,the BCC returned responsibility for the monitoring and maintenance of the system to the PBSD via Ordinances 2013-19 and 2013-61. It is under the PBSD's direction that this current management plan has been written. While the MSTBU is a dependent special taxing and benefit district,the PBSD is an arm of Collier County government and makes recommendations to the BCC. The PBSD implements its defined responsibilities within the Pelican Bay community, sets its own budget and agenda, and regularly submits them to the BCC for approval. The BCC has commonly approved the Clam Bay management activities and authorized the development of this Management Plan. The PBSD's effective working relationship with the BCC is expected to continue as the PBSD serves as the official manager of the 2014 Management Plan which is consistent with Ordinances 90-111, 2002-27, 2013-19 and 2013-61 of Collier County. The PBSD will direct the Management Plan and has the responsibility for its implementation and operation over time. As such, the PBSD will plan and implement defined management activities with BCC approval whose purpose will be to protect, preserve, maintain, and monitor the natural communities and ecological integrity of the Clam Bay NRPA. The PBSD has several attributes which make it a logical guiding force in the management and maintenance of Clam Bay. The PBSD: • is located within the Clam Bay drainage basin; • has an advisory board made up of residential and business members within Pelican Bay; • garners fiscal support for community projects, including Clam Bay NRPA activities, collected from local special assessments (non ad valorem taxes) of the residents and business members within Pelican Bay; 3 CLAM BAY NRPA MANAGEMENT PLAN(DRAFT) Pelican Bay Services Division May 30, 2014 Ver. 6.1 • is accessible to the public due to its local governing board and advertised public monthly meetings; and • has demonstrated a long-term commitment to the Clam Bay NRPA and a successful track record regarding its preservation,restoration and maintenance over the past fifteen years. These attributes give the PBSD the knowledge and expertise in matters of local concern and,in particular, the problems, opportunities, and interests of local residents as they relate to the Clam Bay ecosystem. Its relationship with the BCC gives it an additional level of access to technical expertise and oversight that will be necessary to assure that the Management Plan, as contemplated in this document, is fully implemented in the field. As part of its responsibilities, the PBSD will assemble and distribute various technical reports and assessments as required under the Management Plan, as well as coordinate with other public and private groups interested in Clam Bay. The PBSD is organized for and designed to maintain both its knowledge of the Clam Bay resources and to generate public support of the same. The PBSD will insure that the general public, residents in Pelican Bay, the PBSD consultants, and representatives from government agencies with jurisdiction over Clam Bay each have on-going involvement and input into the Management Plan as appropriate. 4 CLAM BA FNRPA MANAGEMENT PLAN(DRAFT) Pelican Bay Services Division May 30, 2014 Ver. 6.1 2.0 Overview of the Clam Bay NRPA Description of the System The Clam Bay NRPA is a 570-acre estuarine system consisting of sandy beaches, Clam Pass, shallow bays,tidal creeks or tributaries, seagrass beds, and mangrove forests on the west coast of Collier County in Southwest Florida. The Clam Bay system is part of the Cocohatchee-Gordon River Transition referred to by the Collier County Department of Natural Resources as Coastal Zone II. It is one of the few remaining estuarine systems in the Cocohatchee-Gordon River Drainage System. Historically the Clam Bay System was connected to Wiggins's Pass to the north via a system of mangrove swamps and shallow creeks with intermediate open water areas that were excavated and are now known as Vanderbilt Lagoon (Collier County, 1994, Tropical Biolndustries, 1978). It is recognized that the connection was marginal at best and while passable at times, it was not uniformly and consistently navigable (Clam Bay Restoration and Management Plan, 1998). Similarly, aerial photos of the Seagate Drive area taken prior to its construction show that Outer Clam Bay was connected to the mangrove swamps to the south via shallow meandering creeks and intermediate open waters leading to Doctors Pass. These creeks were only navigable by canoes and small skiffs (Turrell, 2009). These swamps to the south were eventually excavated to become Venetian and Moorings Bays. Today,the Clam Bay NRPA includes three primary bays, Outer Clam Bay(southernmost), Inner Clam Bay(central), and Upper Clam Bay(northernmost), connected by a series of tidal creeks and connected to the Gulf of Mexico by Clam Pass. The community of Pelican Bay abuts the northern and eastern edges of the system,while Seagate and Naples Cay communities abut the southern portion of the system. This system is an important natural and recreational resource for local residents and visitors. The Clam Bay system was designated a Natural Resources Protection Area (NRPA)by Collier County in 1995. The purpose of the NRPA designation is to protect endangered or potentially endangered species and to identify large connected intact and relatively unfragmented habitats, which may be important for listed species (Collier County, 1994). See the NRPA timeline (starting on page 17) later in this report for more details on the NRPA history. Clam Pass is a small,marginally stable inlet that has migrated north and south along the shore over the years. Prior to dredging, average water depths of Clam Pass were -2.5' to -1.0', and its width ranged from 30-50' (Collier County, 1994). 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' cum 7-r-s.w...,-1 •,„-",=, ,07 ..?N. 11 a .,-; IA.,. +•,...;' -Qz_.,. li ' -1'Tija =1. " . ? * ' 'IV 1 ..',''4..i.,:fele."'.A-Vit... 'r • ..t•IA . ' '1,-- „ g.. T. -)4'''. ' 117'1. ' 47'4 Val ---I lit.'4"sit.e,8 • i i- 14 r NAPLES -,e'r, ,WI'' .V. 3i ', - ,r.=:7,„1 ,0 4. , ii , CAY --0-1*r, 4 ,,.0 77.1,2;47: .-7* ,,,,-,',„ .'..,'''1 .13, 1, , !i'%'41., i11794 NvrAbi ,e ,,,..e--...-,..1. . - --- i1, tv .0- .. .,-.., q ,• . .1- . ;.. .- 21 - • Figure I:Approximate extent of Clam Bay NRI",4 boundary Clam Bay NRPA Vital Statistics Total acres:Approx. 570 acres Beaches: Approx. 5,000 feet Beach Park: Approx. 35 acres Mangrove: Approx. 420 acres Open Water:Approx. 115 acres Latitude and Longitude of Pass:N 26° 13' 11", W 81° 49' 01" Section, Township, Range: Sec. 32 &33, Twp 48S, Rng 25E, & Sec. 4, 5, 8, & 9, Twp 49S, Rng 25E Water Body Identification (WBID) 3278Q1 6 CLAM BAY NRPA MANAGEMENT PLAN(DRAFT) Pelican Bay Services Division May 30, 2014 Ver. 6.1 Adjacent Communities The Clam Bay system is bound on the north by Vanderbilt Beach Road and the Bay Colony portion of the Pelican Bay development; to the south by Seagate Drive, and the Seagate and Naples Cay developments,to the east by the Pelican Bay development; and to the west by the Gulf of Mexico and the Strand neighborhood of Bay Colony that is within the Pelican Bay development. Pelican Bay is predominately a residential community consisting of private single-family homes, villas, and both high and low-rise condominium units. The community also includes a 27-hole golf course, common areas with meeting rooms,tennis courts, beach park facilities, emergency services facilities, and commercial areas with shopping and hotels. The 2,104-acre Planned Unit Development (PUD)was approved in 1977 as a partnership between Collier Enterprises and Westinghouse Communities (WCI). It was one of the first developments in Florida required to save fragile coastal wetlands and associated ecosystems (Urban Land Institute, 1981). The development of Pelican Bay had a limited impact on the wetlands themselves with approximately 94 acres,including about 78 acres in the northwestern corner of the property, being developed. This left the majority of the mangrove forest intact and preserved around the bays. As mitigation for these wetland impacts, the 570 acre preserve area, including the 35 acre beach park, was donated to Collier County and eventually became the NRPA which is in place today. Development of Pelican Bay required a stormwater management system designed to spread runoff along the eastern edge of the Clam Bay estuary. A four to six foot high and 2 '/2 mile long berm separates the developed portion of Pelican Bay from the estuary lying to the west of the development, but numerous culverts through the berm discharge water to a swale system along the eastern perimeter of Clam Bay. The eastern edge of Pelican Bay is about 12-14 feet above sea level at US 41, sloping in an east-west direction to about 2 feet above sea level near the berm. Six drainage basins operate on a gravity system to slowly move surface water into the receiving area of Clam Bay. Naples Cay is a high rise development consisting of 8 multi-story condominium buildings. The community also includes pools, tennis courts, approximately 33 acres of park and preserve areas, and two canoe and kayak launching piers. Construction on the first building in Naples Cay started in the late 1970's, and the last building was completed in 2002. Stormwater management is accomplished through several internal detention areas before water flows into Outer Clam Bay. The Seagate community is composed of about 80 single-family residences. The community was first laid out in the 1950's and still has a few undeveloped lots. Because development of this community occurred so early,there was no community-wide stormwater system. More recent improvements to the road and utility systems have allowed for some dry retention and sewerage improvements to be put in place. Many of the homes within Seagate were built with boat docks along the community's man- made canals. Some homeowners keep motorized vessels at these docks. The 1995 Manatee Protection Plan acknowledges that access and use of Clam Bay was limited due to the shallow nature of the bay and ephemeral conditions. Vessels are generally shallow drafted, and their access is limited by the day to day conditions of the Pass and connecting waterway. 7 CLAM BAY NRPA MANAGEMENT PLAN(DRAFT) Pelican Bay Services Division May 30, 2014 Ver. 6.1 Clam Pass Park is a 35-acre County park providing beach access on the south side of Clam Pass. The Park is wholly contained within the NRPA boundary. Access to the Park is via a boardwalk through the mangroves from the parking lot at the very southern end of Pelican Bay. Operation and care of the Park is done under the supervision of the Collier County Parks and Recreation Department. Through an agreement between the County and the Waldorf Astoria Hotel, much of the day-to-day operation of the park is managed by the hotel. Natural History Prior to the development the entire coastline of South Florida would have resembled the Clam Bay ecosystem with meandering mangrove-lined shallow waterways buffering sandy barrier islands and natural terrestrial communities. Unique within the heavily developed coastal communities of Collier County,the Clam Bay estuarine system is a valuable resource for wildlife(particularly juvenile marine species and birds) as well as residents and visitors to the area who enjoy the low-impact recreational opportunities the system offers such as photography, canoeing, kayaking, paddleboarding, fishing, walking, swimming, bird watching, and beach going. The system is a mixture of mangrove-lined tidal creeks, mangrove forests, shallow bays and tidal passes, seagrass beds,tidal flats, sandy beaches, and brackish interior wetlands. It consists of approximately 420 acres of mangroves and some 115 acres of shallow, open water bays, as well as a 35-acre beachfront parcel (Clam Pass Beach Park) and approximately 1.5 miles of sandy beach. A man-made water management berm now divides natural and developed portions where historically mangrove forest would have transitioned gradually into the mesic coastal hammocks and upland pine scrubs that made up the now developed portions of the Pelican Bay community. A brief overview of these important habitat types,their key characteristics and value is provided in the Resource Description Section (Appendix I) of this Management Plan. Historical Overview Historically, Clam Pass was a small part of a large system of relatively shallow waterways and interconnecting wetland communities extending from Lee County to Doctor's Pass. Anecdotal evidence suggests that canoes and shallow drafted skiffs were used within many of these interconnected areas. Within the Clam Bay system, four Indian shell mounds have been identified and listed on the Florida Master Site Inventory as Clam Bay Shell Ridge, Inner Clam Bay Shell Mound, Brackish Hammock and Bayhead Camp (Hartwell, et al, 1994). During the 1950's this system was isolated from adjacent mangrove lined creeks and bays by the construction of Seagate Drive to the south and the construction of Vanderbilt Beach Road to the north (see attached Exhibit). The practical effect was to leave Clam Pass as Clam Bay's only connection to the Gulf. 8 CLAM BA YNRPA MANAGEMENT PLAN(DRAFT) Pelican Bay Services Division May 30, 2014 Ver. 6.1 The Clam Pass opening has moved over its lifetime up and down the shoreline, influenced by major storm events and by man's alteration of the tidal prism and drainage basin that feeds the Pass. Aerial photographs of the pass over time, is provided in Appendix I of this Management Plan. To properly understand and successfully implement proposed management objectives, actions and events which have lead to the current situation in Clam Bay should be described. The timelines presented later in this section are intended as background information and as a factual recount based on anecdotal evidence,press reports, and published and unpublished reports. Mangrove Die-off and Restoration The first mention of stressed or dying mangroves within the Clam Bay NRPA came from the 1978 Tropical Biolndustries and Gee and Jensen report titled Carbon Flows in Portions of the Clam Pass Estuarine System, Collier County, Florida. Reports of stressed or dying mangroves continued through the 1980's and 90's. In 1995, a large area of dead and dying mangroves was documented encompassing approximately 42 acres adjacent to Upper Clam Bay(Turret!, 1995). By 1999,this area had expanded to approximately 50 acres (Turrell, 2000). The Clam Bay Restoration and Management Plan(CBRMP)was finalized in 1998 to address the mangrove die off. The major objective of the plan was to restore the dead mangrove area through improvements to tidal flushing capabilities of the system, including enhancements to tidal flow into and out of the mangrove forest areas. This was accomplished through the dredging of Clam Pass and portions of the interior channels within the system, removing impounded water from the die off areas and the construction of a network of hand-dug flushing channels throughout the original die-off area and a few other areas exhibiting stress. In the fifteen years following the implementation of the CBRMP the mangrove forest has undergone a substantial recovery with over 90%of the original die-off area re-vegetated with new mangrove growth. Timeline of Important Events Within the Clam Bay System 1920 A dirt road is built by Forest Walker running from the northeast to south portion of Pelican Bay, a forerunner of US 41. 1950 Clam Bay ecosystem is part of a connected system of barrier islands,mangrove forest,passes and waterways. The orientation of the beaches and passes would have changed seasonally with storms. 1952 Vanderbilt Beach Road is constructed, eventually severing connection with the Wiggins Pass system to the north. 9 CLAM BA YNRPA MANAGEMENT PLAN(DRAFT) Pelican Bay Services Division May 30, 2014 Ver. 6.1 1958 Construction of Seagate Drive is completed severing flow into and out of the mangrove swamps to the south. This area was subsequently dredged and excavated to become Venetian Bay. - - s,,... esu-ii.-9 ,! Vanderbilt Lagoon tea. V i NN4 ,r Outer Clam Bay Upper Clam Bay ' itc l' t 'r',,''''' :L %e,j•,4:-.? . 4 ,,-- *-0. "it' 'ar, ' *tr Venetian Bay 4.Circa 1952 Aerial Photograph Circa 1960 Aerial Photograph Figure 2:Historic aerials 1972 Tri-County Engineering produces reports: • An Ecological Study of the Clam Pass Complex,published by Humm &Rehm • Hydrographic Investigation of the Clam Bay System Coral Ridge-Collier Properties, Inc. (a partnership between Westinghouse and Collier Properties) acquires the property and initiates development of Pelican Bay. 1974 Pelican Bay Improvement District(PBID) is formed to manage common property in Pelican Bay and provide for long-term sustainable infrastructure. 1976 Three, bi-directional 24-inch culverts are placed under Seagate Drive to provide hydrologic connection to Venetian Bay. Report"Environmental Assessment for Development Approval" is prepared for Pelican Bay. Clam Pass closes and is mechanically dredged by dragline to re-open the entrance; no records of quantities or dredge limits are available. 1977 Pelican Bay PUD is approved, and construction commences. 10 CLAM BAY NRPA MANAGEMENT PLAN(DRAFT) Pelican Bay Services Division May 30, 2014 Ver. 6.1 1977-1979 Gee & Jensen Hydrographic Engineers conduct a series of tidal studies within the system and distribute"A hydrographic study of Clam Bay system" in 1978. 1978 Tropical Biolndustries produces a report: Carbon Flows in portions of the Clam Pass estuarine system. Ecological assessment work by Tropical Biolndustries for permitting of the northwest fill area notes a small area of stressed and dead mangroves close to Upper Clam Bay. 1979 Environmental Assessment of the northwest fill area is distributed(Turrell, 1979). Tropical BioIndustries produces biological reports: • A comparative study of the water and carbon flows of Upper Clam Bay • Invertebrate Population Studies in the vicinity of Upper Clam Bay 1981 Clam Pass closes and is mechanically dredged by dragline to re-open the entrance; no records of quantities or dredge limits are available. WCI,the developers of Pelican Bay, transfer title to Clam Bay to Collier County with the stipulation that Clam Bay shall remain a conservation/preservation area in perpetuity. 1982 WCI deeds Clam Pass Park and Clam Bay to Collier County, and in accordance with the Pelican Bay PUD,requires the County to seek approval of WCI or its successors for any modifications to Clam Bay. 1983 Tropical BioIndustries produces biological reports: • Fish populations of tidal ponds west of Clam Bay • Populations of Melampus coffees(Coffee bean snail) and Cerithidea scalariformis(Ladder hornsnail) west of upper Clam Bay. 1986 Collier County constructs a 2,900' boardwalk to provide access to the county park, south of Clam Pass. 1988 Clam Pass closes twice,first in the spring and again in the late fall after Tropical Storm Keith (November 23, 1988). 11 CLAM BAY NRPA MANAGEMENT PLAN(DRAFT) Pelican Bay Services Division May 30, 2014 Ver. 6.1 1989 Small areas of stressed and dying mangroves are noted by residents in the basin west of Upper Clam Bay and east of The Strand in Bay Colony. A Department of Natural Resources (DNR) interdepartmental memo highlights cause of stress as "the lack of adequate water circulation resulting from the closure of Clam Pass". First emergency dredging is permit received from DNR to re-open clogged Clam Pass, following memo by David Crewz to the DNR highlighting problems and danger if the Pass was not reopened. Clam Pass is mechanically dredged to re-open. Approximately 700 cubic yards of material are removed from the mouth of the inlet and the south bend of the channel. Material is placed south of the Pass. Multiple closures of the inlet occur during the construction process. 1990 PBID becomes a dependent district of Collier County called the PBSD. 1992 The area of dead mangroves is reported at 7 acres. 1994 Twenty acres of mangroves are reported dead. 1995 Clam Bay is approved by the BCC as Collier County's first NRPA (See NRPA boundary map on page 8 of this report). Clam Pass closes following a winter storm event. Emergency dredging permit issued allowing opening of the Pass, but no work farther back than 600 feet. Mechanical dredging is undertaken removing approximately 5,000 cubic yards of material from the entrance of the pass. 1996 Clam Pass closes following a winter storm event. Permits to open Clam Pass received from the Florida Department of Environmental Protection (FDEP), formerly DNR, and US Army Corps of Engineers (USACE). Mechanical dredging event carried out at the entrance of the Pass. Blasting and hand excavation were permitted and completed in 1997. Mangrove die-off area is estimated at 50 acres. 1997 Clam Pass, on the verge of closing following a winter storm event, is mechanically dredged again under modification to 1996 Permits. Interior portions of the flood shoal are dredged to station 6+10. 12 CLAM BAY NRPA MANAGEMENT PLAN(DRAFT) Pelican Bay Services Division May 30, 2014 Ver. 6.1 1998 Clam Pass is on the verge of closing again following a winter storm event. A mechanical maintenance dredging event is carried out under modification to 1996 Permits. Interior portions of the flood shoal were dredged to station 6+10. Ten year permits are received from FDEP and USACE for dredging Clam Pass and the interior channels, including adjustments to the Seagate culverts and installation of hand dug channels throughout the system. Associated monitoring work and storm and freshwater studies are required. 1999 Dredging work associated with CBRMP is implemented(Mgmt by PBSD) in the spring by Ludlum Construction Company. Hydraulic dredging of Cuts 1,2, 3, and 4 (see attached Exhibits) are carried out. A 30 foot entrance cut is dredged. ali_. ,, _ 4 ' 'R tY°Nal* , One way flap valve is installed on Seagate culverts to allow flow from south to north. Staff at The Conservancy of Southwest Florida commences a 3-5 year study of mangroves, surface water level and elevation within the mangrove die-off area. 2000 Hurricane Gordon impacts the area with no inlet closure. 2002 Hydraulic maintenance dredging of Clam Pass flood shoals between stations 3+10 and 18+00 (Mgmt by PBSD) is completed to improve tidal circulation(see attached Exhibits). The entrance of the Pass is not dredged during this event. Flap valves on Seagate culvert are removed due to insufficient head differential causing them to act as plugs instead of valves. 13 CLAM BA YNRPA MANAGEMENT PLAN(DRAFT) Pelican Bay Services Division May 30, 2014 Ver. 6.1 Canoe trail markers are permitted and installed through Clam Bay System. 2004 Hurricane Charley passes approximately 30 miles west of Clam Pass. A lot of sand is redistributed, but the Pass does not close. Extensive limb and leaf loss is documented within the mangrove forest. 2005 Hurricane Wilma comes ashore about 30 miles south of Clam Pass. More limb and leaf loss is noted. Pass does close. Hurricane damaged mangroves along bay Same mangroves along bay 2007 2005 Hurricane Wilma damaged mangroves before and after 2007 Hydraulic maintenance dredging of Pass and entrance channel is conducted between Stations 0+00 and 18+00 (see attached Exhibits). The entrance to the Pass is dredged at 80 foot width(Mgmt by Collier County Coastal Zone Management Dept.) This dredging was conducted for sand for beach renourishment. 2008 Tropical Storm Fay comes ashore about 30 miles south of Clam Pass. The area receives over 10 inches of rainfall. Pass is not affected. 2009 1998 FDEP and USACE permits for maintenance of the Pass expire after 1-year extensions. 2010 Permits are issued to continue maintenance of hand-dug flushing channels through the system. 2011 White mangrove die-off is observed in central portion of the system and is found to be caused by a bark beetle infestation of trees that had suffered cold temperature stress. 14 CLAM BA YNRPA MANAGEMENT PLAN(DRAFT) Pelican Bay Services Division May 30, 2014 Ver. 6.1 Benthic Habitat Assessment study completed within the Clam Bay NRPA by the Conservancy of Southwest Florida. Study provides comprehensive mapping of benthic habitat compositions and distribution throughout the Clam Bay NRPA. 2012 Canoe trail markers and informational signage are permitted and installed throughout Clam Bay. The mouth of Clam Pass moves to the north near the Pelican Bay Beach Store. The northern shoreline of the Pass is temporarily reinforced with the installation of concrete barriers. Impacts from tropical storms Debby and Isaac, along with numerous winter storm fronts cause the closure of the Pass. 2013 A single event mechanical dredge is carried out in March under FDEP and USACE permits with an entrance cut of 45 feet. Beach compatible material is placed north and south of the Pass above the mean high water line. Development of a new Management Plan is initiated through Stakeholder input and multiple public meetings. Timeline Specific to the Establishment of the Clam Bay NRPA 1976 Collier County Ordinance 76-30 zoned coastal areas environmentally sensitive lands as ST(Sensitive Treatment). 1977 Approval of the Pelican Bay PUD (Ordinance 77-18) by Collier County. The PUD identifies 98 acres of coastal mangrove wetlands to be filled in for development while preserving 570 acres of ST lands as the Pelican Bay Conservation Area(35 acres in the south and 5 acres in the north would become parks providing public beach access). 1981-82 Department of the Army Permit(79K-0282) authorizes the fill of the 78 acres of coastal wetlands (76 acres for residential development and 2 acres for public parking area). It requires 570 acres, including Upper, Inner, and Outer Clam Bays, and their adjacent wetlands to be conveyed to Collier County and to remain a conservation/preservation area in perpetuity for the use of the public. It also prohibites dredging Clam Pass except to keep it open to the Gulf of Mexico. 1988 The Pelican Bay Conservation Area(570 acres) is approved and recorded as FL-64P by Congress and becomes part of the Federal Coastal Barrier Resources System (CBRS). 15 CLAM BAY NRPA MANAGEMENT PLAN(DRAFT) Pelican Bay Services Division May 30, 2014 Ver. 6.1 1995 The BCC approves the County Natural Resources Department's recommendation to establish the County's first NRPA, stipulating that it would have the same boundaries as the Pelican Bay Conservation Area within the Pelican Bay PUD. The Collier County Manatee Protection Plan is approved. It contains the recommendation to establish an"Idle Speed/No Wake"zone throughout the Clam Bay/Clam Pass System. 1996 Collier County Ordinance 96-16: "The Clam Bay System Water Safety and Vessel Control Ordinance" is approved. It establishes that the Clam Bay System is an"Idle Speed/No Wake"zone. 1998 The CBRMP is developed, implemented, and managed by the PBSD and their consultants. FL Admin. Court Case No. 98-0324GM provided an interpretation that certain elements of the Collier County Growth Management Plan(Conservation and Coastal Management Element)require protection of habitats within NRPAs which support existing and potential uses by wildlife. 2008 Public Law 110-419 is adopted identifying the CBRS, Clam Pass Unit, FL-64P to be entirely located within the existing boundaries of the Clam Bay NRPA. 2013 Work begins on new Clam Bay NRPA Management Plan under the PBSD direction. 16 CLAM BAY NRPA MANAGEMENT PLAN(DRAFT) Pelican Bay Services Division May 30, 2014 Ver. 6.1 3.0 Resource Description and Assessment The goal and objectives of this Management Plan aim to manage and preserve each of the resources that make up the Clam Bay NRPA as a whole. The objectives of the Management Plan focus on natural communities,tidal and freshwater flows,water quality, archeological resources and recreational uses, all discussed further in this section. There are many additional factors that come together to create the habitats and support the resources that make up the Clam Bay NRPA. These additional factors are discussed further in Appendix 2. Soils Based on the National Resource Conservation Service(NRCS)"Soil Survey of Collier County Area, Florida" (NRCS, 1998)there are 2 different soil types (soil map units)present within the NRPA boundary, frequently flooded Durbin and Wulfert muck and Canaveral Beaches Complex. These mapping units named for soil series represent the dominant undisturbed soils in that landscape that existed predevelopment. The unit descriptions do not recognize or appropriately interpret the drastically disturbed nature of urban landscapes created after the soil survey was completed. For information regarding soils specific to the Clam Bay NRPA, see Appendix 2. Natural Communities In this Section, a natural community refers to the mix of plant and animal species that form the natural basis of the Clam Bay NRPA. A combination of factors including geology, climate,topography, soils, wind,waves, storms and anthropogenic influences determines the specific types of plants found in any given area(see Appendix 2 for more information). These plants are a major factor in what type of animal species that may be present, including threatened and endangered species that may utilize the Clam Bay NRPA (see Appendix 2 for more information). The Florida Department of Transportation's Land Use, Cover and Forms Classification System (FLUCFCS 1999)has been used to identify the plant communities found within the Clam Bay NRPA. See the attached Exhibits for an overall FLUCFCS map of the Clam Bay system and the existing monitoring plots within these habitats. Table 4: List of FLUCFCS Communities within the Clam Bay NRPA FLUCFCS Community Description Upland or % of Clam Bay Code Wetland NRPA 181 Swimming Beach Upland 5.95 186 Community Recreation Facilities Upland 0.40 322 Coastal Scrub Upland 3.97 428 Cabbage Palm Hammock Upland 0.45 540 Bays (with and without direct Wetland 23.16 connection to Gulf or Ocean) 612 Mangrove Swamp Wetland 64.60 17 AgortiriimiviiMNINImr CLAM BA YNRPA MANAGEMENT PLAN(DRAFT) Pelican Bay Services Division May 30, 2014 Ver. 6.1 642 Saltwater Marsh Wetland 0.04 651 Tidal Flat Wetland 1.43 911 Seagrasses** Wetland 0.84** **included in the Bays (541)category Several other components of the Clam Bay NRPA ecosystem are also addressed in Appendix 2. These components include offshore hardbottom, oyster, and other benthic faunal communities that are not specifically addressed in the FLUCFCS classification system. Additional historical information on the natural communities within Clam Bay,the mangrove, and seagrass habitats is also included as appendices to the Management Plan. FLUCFCS Code 181- Swimming Beach There is approximately 8,675 linear feet of beach within the Clam Bay NRPA in three distinct segments. Contiguous beach habitat extends from the NRPA habitat both north and south along the coast. Shorebirds feed on marine invertebrates, such as coquina clams and mole crabs at the water's edge, and beaches are crucially important habitat for nesting sea turtles. This particular habitat has been monitored periodically in terms of width as part of the Collier County Beach renourishment program though no conclusive statements can be made about the floral or faunal details of the ecotone over the years. Large scale generalizations based on the annual aerial photographs can be made that the overall size, composition, and health of the habitat have remained relatively stable, and with the exception of the areas immediately adjacent to the Pass, are mostly unaffected by the status of the Pass. Management concerns for the swimming beach are loss of beach area due to natural erosive processes and recreational over-use of the resource. FLUCFCS Code 322—Coastal Scrub Landward of the frontal (beach)zone area is the back dune zone(also often called the coastal shrub or scrub zone). This portion of the dune is more stable,has greater organic matter, and supports less salt tolerant grasses and shrubs as well as some trees. Coastal scrub is represented by a conglomeration of coastal species generally found in a narrow band between an estuary and the beach. Many of the woody species found in coastal scrub are low growing due to low nutrient and droughty conditions of sandy soils. High winds and salt spray often prune the terminal buds of the trees and shrubs growing on the dunes and result in salt-pruned,windswept canopies. Species common in the coastal scrub zone of the Clam Bay system include: seagrape (Coccoloba uvifera), cabbage palm (Sabal palmetto),buttonwood(Conocarpus erectus) and Spanish bayonet (Yucca aloifolia). This is an important habitat as it helps anchor the back dune sands and provides habitat for several listed plant and animal species including the gopher tortoise (Gopherus polyphemus). See page 52 for a more complete list of plant species found in this habitat. 18 CLAM BAY NRPA MANAGEMENT PLAN(DRAFT) Pelican Bay Services Division May 30, 2014 Ver. 6.1 The primary management issues of concern in the coastal scrub are gopher tortoise habitat management and exotic vegetation control. FLUCFCS Code 428—Cabbage Palm Hammock This forested zone is composed of dune vegetation and is located inland of the coastal scrub - farthest from the Gulf of Mexico. The Cabbage Palm Hammock habitat consists primarily of cabbage palms (Sabal palmetto) and is found in sandy soils. In the Clam Bay NRPA it is generally found in pockets located between the mangrove forest and the coastal scrub zone or beach areas. The primary management issues for this habitat are exotic control and preventing destructive visitor access. FLUCFCS Code 540—Bay (with and without connection to the Gulf) The Clam Bay NRPA contains the three larger bays associated with Clam Pass (Outer, Inner, and Upper) as well as the interconnecting shallow creeks and small open water areas. These bays and interconnections serve as the life blood of the estuary. These open water habitats serve as the basis for many other communities. Seagrass beds, oyster bars, clam beds, and other benthic communities can all be supported to varying degrees with the open waters of the bays and interconnecting creeks. As outlined below, several of these communities are present within the Clam Bay NRPA and will be considered when deciding on management activities outlined within this Management Plan. Management concerns related to the bays and associated creeks include maintaining sufficient flow through them to accomplish flushing needs of the system, stabilization of the Pass without harming other components of the NRPA, and educating recreational users of the NRPA of the need to protect the shallow water habitats and the communities located therein. FLUCFCS Code 612 —Mangrove Swamps (Forest) Approximately 65%of the Clam Bay NRPA is composed of the three most common mangrove species in Florida, namely red mangroves (Rhizophora mangle), black mangroves (Avicennia germinans), and white mangroves (Laguncularia racemosa). All three species have special biological adaptations to cope with salt and unstable, mucky, low oxygen soils that result from the tidal, hence continually waterlogged, environment. The dominance of mangroves in tidal areas is a function of these adaptations and their ability to out compete other wetland plants. Tidal flushing allows nutrients to be distributed within the forest and provides for the transportation of dead leaves, twigs, etc. As this material decays, it becomes food for marine life. It is this mangrove detritus which is consumed by the many organisms at the base of the food chain which in turn creates the next level of the food chain necessary to support the fish populations that characterize the mangrove community. 19 CLAM BAY NRPA MANAGEMENT PLAN(DRAFT) Pelican Bay Services Division May 30, 2014 Ver. 6.1 Special attention has been given to the mangrove community in the past because of the die-off which occurred between 1991 and 1997 (though stress in the community was documented as far back as the late 1970's). The die-off affected black and red mangroves initially but eventually ended up encompassing some white mangroves as well. More details on the recent history of the mangrove management are provided in Appendix 3 included with this plan. Management concerns within the mangrove habitat include ensuring adequate tidal flushing and protection from exotic vegetation or pest infestations. FLUCFCS Code 642 —Salt Marsh At the interface between forested mangrove areas and the water management berm in Pelican Bay are depressional areas that have become colonized by aquatic freshwater plants, such as cattails (Typha latifolia), Carolina willow(Salix caroliniana),bulrush (Scirpus californicus), needlerush (Juncus romerianus), and leather fern (Acrostichum danaeifolium). Wildlife, such as otters (Lutra canadiensis), alligators (Alligator mississippiensis),various turtles, and wading birds can be commonly observed. These areas require regular maintenance to prevent the spread of nuisance and exotic plant species and ensure optimal functioning and interface between the natural mangrove forest and the water management system. Management concerns for this habitat would be protection from exotic vegetation infestation as well as ensuring appropriate water and salinity levels. FLUCFCS Code 651 —Tidal Flats The sand and mudflats of Clam Bay are rich feeding grounds for many species of fish and wading birds. These organically rich sediments support a variety of mollusks, worms, and invertebrates that scavenge detritus or, in the case of many bivalve mollusks, extend siphons at high tide and filter vast quantities of water. Birds, such as a variety of herons, ibis, egrets, and spoonbills pick through the sediment for the invertebrate food sources. The dredging of the Pass associated with the 1998 Restoration and Management Plan resulted in an increase of exposed tidal flats within the southern portion of the system. Increased tidal range resulting from the dredging allowed more area to be periodically exposed during the tidal cycle. Some of the area that had supported seagrasses prior to the dredging work were converted into the tidal flats by the increased range and reduced phase lag. Management concerns related to the tidal flats include the templates established for the dredging,the resultant currents that could be expected as a result of dredging, and the frequency of disturbance. FLUCFCS Code 911 —Seagrass Beds Several areas within the Clam Bay system host seagrass beds, specifically Outer Clam Bay and waterways just inside Clam Pass (see attached Exhibts). Three species are commonly found in these Clam Bay waters: the largest turtle grass (Thalassia testudinum) with flat strap shaped leaves, the 20 CLAM BAY NRPA MANAGEMENT PLAN(DRAFT) Pelican Bay Services Division May 30, 2014 Ver. 6.1 smaller shoal grass (Halodule beaudettei(fka wrightii)) with narrow, flat blades and paddle grass (Halophila decepiens) with the smallest, paddle shaped leaves. Shoal grass is by far the most common though a small area of turtle grass has persisted since the original 1998 dredging. Paddle grass is much more ephemeral in nature, and diligence is required to be able to locate it during the time frames when it is present. Seagrass coverage in Clam Bay has varied over time but has always been found predominately in Outer Clam Bay and the waterway between this bay and Clam Pass. A 1994 Collier County report estimated seagrass coverage at approximately 10 acres. Pre-dredge surveys conducted in 1999 estimated coverage at about 5.13 acres. Annual monitoring of seagrass beds along the monitoring transects has estimated coverage from a low of approximately 1.2 acres in 2003 to the current estimate of 2.85 acres from the 2013 survey. It should be noted that the coverage estimates are taken from along the survey transects only and do not account for other scattered grasses that may be located elsewhere in the system. Management concerns related to seagrasses include direct impacts due to recreational use and potential dredging templates,turbidity and water quality concerns related to flushing (too much or too little) and stormwater inputs, and algal infestations due to nutrient increases. A history of the seagrass monitoring efforts in Clam Bay is included in the Appendix 4 attached to this report. Other Benthic Habitats Oyster Bars Deteriorating conditions related to closures of Clam Pass are thought to have resulted in the disappearance of oyster bars in the system, though some re-occurrence has been observed to the south of the Pass in the last few years during seagrass transect monitoring. Oysters have been documented around the perimeter of Outer Clam Bay in past years monitoring efforts. 21 CLAM BAY NRPA MANAGEMENT PLAN(DRAFT) Pelican Bay Services Division May 30, 2014 Ver. 6.1 fry 11* ty.€ } Oysters (Croassostrea americana) along the mangroves near the canoe ramp in Outer Clam Bay A 2011 benthic habitat assessment conducted by the Conservancy of Southwest Florida found living oyster clusters in the upper reaches of Upper Clam Bay(a single cluster), in the tributary between Outer and Inner Clam Bays (a single cluster), and throughout the shoreline of Outer Clam Bay. Management concerns related to oyster growth are similar to the seagrass concerns,namely protection from recreation users,water quality, and flushing. Other bivalve mollusks In addition to oysters,the 2011 benthic habitat assessment conducted by the Conservancy of Southwest Florida also found two other bivalves within the Clam Bay system. The pointed venus clam (Anomalocardia auberiana) and the stout razor clam (Tagelus plebeius)were both observed. Turrell, Hall &Associates, Inc. benthic surveys found several beds of southern hard clams (Mercenaria campechiensis) also present in the system. 22 CLAM BA YNRPA MANAGEMENT PLAN(DRAFT) Pelican Bay Services Division May 30, 2014 Ver. 6.1 • , jet Southern hard clam(Mercenaria campechiensis) from waterway south of Clam Pass These mollusks are generally found within the shoal and tidal flat areas of the system and could be susceptible to impact during dredging or other disturbance operations. Management concerns would be protection from recreational users,water quality, flushing and dredging. .. -a? - - oN ,�•"� ,.Sj '�{Lt kteE^� •SIL' } �K ,e , F �T i Irz.$'•, 9nr e* . r.,..1."4,11.13.91:0114d x, v fr ,* :'.c3^. '" tx�T`�i4 i fit c t� Tei ,14.71 K � � o 3 P e ti, 3 a Figure 17:Exhibit from Conservancy of Southwest Florida Report Tubiculous Polychaetes Tubiculous polychaetes (tube worms)are typically the most abundant biological assemblage in Clam Bay and are primarily associated with muddy and sandy substrates. Polychaetes, including worm tubes and mud tubes, shell-encrusted polychaete tubes (Polychaeta) and trumpet worm (Pectinaria gouldi) tubes,are a vital component of the estuarine food web,providing key linkages between primary 23 CLAM BA YNRPA MANAGEMENT PLAN(DRAFT) Pelican Bay Services Division May 30, 2014 Ver. 6.1 producers and higher trophic levels. Polychaetes create habitat and food for many organisms, such as mollusks, fish and even sea turtles. These worms are usually filter or deposit feeders that keep the substrate aerated and free of waste accumulation. Polychaetes tend to dominate Inner and Outer Clam Bays, with lower occurrences in Upper Clam Bay, the Lower Tributary, and,to a lesser extent,the Upper Tributary. Hardbottom Communities Another important marine habitat marginally associated with the estuarine system is the hard bottom reef community found just seaward of Clam Pass. In about 10-15 feet of water a variety of sponges, stony corals, gorgonians, fish and associated invertebrates can be found within a system of rocks and ledges. Outcroppings of similar habitat type occur along the length of Collier County and are a little known resource of regional significance. Hardbottom outcrop off of Clam Pass Collier County has mapped this resource through side scan sonar surveys in 2005 and 2009 as part of its beach renourishment project. The information received from the County shows that the landward edge of this habitat is located approximately 250 to 300 feet offshore from the Pass. 24 CLAM BA YNRFA MANAGEMENT PLAN(DRAFT) Pelican Bay Services Division May 30,2014 Ver. 6.1 ler 1 t. . ,v e ' $ , s , s .c* ' 11V4441• F � ", 11:3. rA 4 v 'it k a t e i , 4rroe so y. r . . ^ OUTER tv:N 7# Z .. " CLAM BAY • xf r INNER t ,UPPER CLAM BAY .i" :''''' .--,"CLAM ' i 3 a ✓� ..„--"CLAM PASS vin'- a.,, r�, .a ,� M1tiJF� 1y - l / �� L� GULF OF �r o, MEXICO Figure 18:Hardbottom Community off-shore of the NRPA boundary Management concerns related to this habitat include recreation use and potential turbidity impacts resulting from dredging or other management activities within Clam Bay NRPA. Invasive,Non-native and Problem Species In an ecological context, an invasive species is one that is aggressive in growth and expansion of range and tends to dominate other appropriate native species. Its establishment and dominance can cause widespread harm to an ecological system by altering the species composition, susceptibility to fire and hydrology of an area. Non-indigenous species (i.e., non-native or exotic species) are those that have been introduced purposefully or accidentally to an area outside their normal range. FLEPPC Category I plants observed within the Clam Bay NRPA boundary: - Brazilian Pepper(Schinus terebinthifolius) - Melaleuca (Melaleuca quinquenervia) - Australian Pine (Casuarina equisetifolia) - Beach Naupaka(Scaevola taccada) - Earleaf Acacia(Acacia auriculiformis) - Shoebutton Ardisia(Ardisia elliptica) - Air Potato (Dioscorea bulbifera) - Lantana(Lantana camara) - Old World Climbing Fern (Lygodium microphyllum) FLEPPC Category II plants observed within the Clam Bay NRPA boundary: - Coconut Palm (Cocos nucifera) - Wedelia(Sphagneticola trilobata) - Oyster Plant(Tradescantia spathacea) - Mahoe (Talipariti tiliaceum) 25 CLAM BAY NRPA MANAGEMENT PLAN(DRAFT) Pelican Bay Services Division May 30, 2014 Ver. 6.1 Methodology outlining the management activities that will be used to treat exotics is found in Chapter 4 of this Management Plan. Listed Species Smalltooth Sawfish (Pristis pectinata) A juvenile smalltooth sawfish was observed in 2008 in the connector creek between Inner and Outer Clam Bays. Smalltooth sawfish are found in the tropical and subtropical Atlantic Ocean. In the western Atlantic they have historically ranged from New York to Brazil, including the Gulf of Mexico and Caribbean Sea. Habitat destruction and overfishing have succeeded in eradicating the smalltooth sawfish from the majority of its former range. Consequently, it survives in small pockets throughout its current range. The last remaining population in U.S. waters is off south Florida, a small remnant of a population that once ranged from New York to Texas. This sawfish primarily occurs in estuarine and coastal habitats such as bays, lagoons, and rivers. It does at times occur in deeper waters, however, and may make crossings to offshore islands. It can tolerate freshwater. This fish is easily recognized by its flattened body and wing-like pectoral fins. The mouth is located ventrally, and the eyes are positioned dorsally. The "saw" is approximately 25% of the body's total length. It is widest at the base, with teeth more broad than long, and spaced apart. The tips of the teeth are sharp,becoming blunt over time. Dorsally, it is brownish or bluish gray body with a white underside. The maximum length recorded is 24.7 feet(7.6 m); however, a length of 18 feet (5.5 m) is considered average. The average lifespan for the smalltooth sawfish is unknown. On April 1, 2003 the U.S. National Marine Fisheries Service placed the smalltooth sawfish on the Endangered Species List, making it the first marine fish species to receive protection under the Endangered Species Act. Florida has also designated critical habitat areas to further protect its habitat. Mangrove Rivulus (Rivulus marmoratus) This small fish has not been identified within the Clam Bay system in previous surveys or field work but the mangrove habitat is appropriate, and they could be present in the upper reaches of the mangrove forest. The mangrove rivulus is primarily a saltwater or brackish water species, with limited occurrence in freshwater. Within the Everglades and along Florida's west coast,this fish occurs in stagnant, seasonal ponds, and sloughs as well as in mosquito ditches within mangrove habitats. The mangrove rivulus is able to survive in moist detritus without water for up to 60 days during periods of drought, anaerobic, or high sulfide conditions. This fish can reach a maximum size of 2 inches (5 cm) in length, however it is more commonly observed at lengths between 0.4-1.5 inches (1.0-3.8 cm). The head and body are maroon to dark brown or tan,with small dark spots and speckling on the body, particularly the sides. The dorsal surface is always darker than the creamy ventral surface. The color of the body is reflective of the habitat, with light coloration in areas of light colored sediments and darker coloration in environments with dark leaf litter substrates. A large dark spot surrounded by a band of yellow is located at the upper base of the caudal fin in hermaphroditic individuals. Males lack this dark spot and have a red- orange cast to their flanks and fins. 26 CLAM BAY NRPA MANAGEMENT PLAN(DRAFT) Pelican Bay Services Division May 30, 2014 Ver. 6.1 The mangrove rivulus was once listed as a threatened species in the Gulf of Mexico. However, recently additional surveys have revealed the existence of numerous populations. In Florida it has been downlisted to a species of special concern. In 1999, it was submitted by the National Marine Fisheries Service as a candidate for protection under the Endangered Species Act. As of yet, it has not been officially listed as endangered or threatened. The main threat to the survival of the mangrove rivulus is habitat degradation and destruction as well as exposure to pollutants. Disturbances that alter salinity and temperature as well as vegetation cover may also reduce naturally occurring populations. Loggerhead Sea Turtle (Caretta caretta) Loggerhead sea turtles have been documented nesting on beaches within the Clam Bay NRPA. Loggerheads are circumglobal, occurring throughout the temperate and tropical regions of the Atlantic, Pacific and Indian Oceans. They are the most abundant species of sea turtle found in the U.S. coastal waters. In the Atlantic,the loggerhead turtles range extends from Newfoundland to as far south as Argentina. During the summer, nesting occurs primarily in the subtropics. Although the major nesting concentrations in the U.S. are found from North Carolina through southwest Florida, minimal nesting occurs outside of this range westward to Texas and northward to Virginia. Adult loggerheads are known to make extensive migrations between foraging areas and nesting beaches. During non-nesting years, adult females from U.S. beaches are distributed in waters off the eastern U.S. and through the Gulf of Mexico,Bahamas, Greater Antilles, and Yucatan. Loggerheads were named for their relatively large heads,which support powerful jaws and enable them to feed on hard-shelled prey, such as whelks and conch. The top shell (carapace) is slightly heart- shaped and reddish-brown in adults and sub-adults, while the bottom shell (plastron) is generally a pale yellowish color. The neck and flippers are usually dull brown to reddish brown on top and medium to pale yellow on the sides and bottom. In the southeastern U.S., mating occurs in late March to early June and females lay eggs between late April and early September. Females lay three to five nests, and sometimes more, during a single nesting season. The eggs incubate approximately two months before hatching sometime between late June and mid-November. Loggerheads occupy three different ecosystems during their lives: beaches (terrestrial zone), water (oceanic zone), and nearshore coastal areas ("neritic" zone). Because of this,NOAA Fisheries and the U.S. Fish and Wildlife Service (USFWS)have joint jurisdiction for marine turtles, with NOAA having the lead in the marine environment and USFWS having the lead on the nesting beaches. The loggerhead turtle was first listed under the Endangered Species Act as threatened throughout its range on July 28, 1978. In September 2011,National Marine Fisheries Service (NMFS) and USFWS listed 9 Distinct Population Segments of loggerhead sea turtles under the Endangered Species Act 27 CLAM BAY NRPA MANAGEMENT PLAN(DRAFT) Pelican Bay Services Division May 30, 2014 Ver. 6.1 (ESA). The population in the Northeast Atlantic Ocean Segment is listed as endangered. The agencies are currently proposing Critical Habitat designations on several areas which contain a combination of nearshore reproductive habitat, winter area, breeding areas, and migratory corridors. The Clam Bay NRPA is contained within the LOGG-N-27 segment of this proposed critical habitat area. Gopher Tortoise (Gopherus polyphemus) Gopher tortoises and their burrows are found along the coastal strand portions of the Clam Bay NRPA. The range of the tortoise includes southern portions of Alabama, South Carolina, Louisiana, Mississippi, and Georgia as well as most of Florida. Gopher tortoises are one of the few species of tortoise that dig burrows. These burrows can be up to ten feet deep and 40 feet long, and are as wide as the length of the tortoise that made it. In addition to providing the tortoise a home, it has been documented that as many as 350 other species also use the burrows including the indigo snake, Florida mouse, gopher frog, and burrowing owl. Gopher tortoises can live 40 to 60 years in the wild and average 9 to 11 inches in length. These tortoises are superb earth-movers, living in long burrows from 5 to 45 feet long and up to 10 feet deep that offer refuge from cold, heat, drought, forest fires, and predators. The burrows maintain a fairly constant temperature and humidity throughout the year and protect the gopher tortoise and other species from temperature extremes, drying out, and predators. The mating season generally runs from April through June and gestation for the eggs is between 80 and 100 days. The shell or "carapace" of the gopher tortoise is mostly brownish gray and the underside of the shell, or "plastron," is yellowish tan. Their front legs are shovel-like which helps them when digging their burrows. The gopher tortoise has been regulated in Florida since 1972 and has been fully protected since 1988. Despite the afforded protection, gopher tortoise populations throughout the state have declined. As a response to the continuing decline of the species, a new management plan was drafted and approved in September 2007 as a precursor to reclassifying the gopher tortoise from a "species of special concern" to a "threatened species." The threatened status was approved and went into effect on November 8, 2007. Piping Plover(Charadrius melodus) Piping plovers have been rarely sighted foraging or resting along the shoreline within the Clam Bay NRPA boundaries. No nesting activities have been documented within the NRPA. Piping plovers are small shorebirds approximately seven inches long with about a 19 inch wingspan. They have sandy/grey colored plumage on their backs and crown and white underparts. Breeding birds develop a single black breast band, a black bar across the forehead, bright orange legs, and bill with a black tip on the bill. During the winter, the birds lose the black bands,the legs fade to pale yellow, and the bill becomes mostly black. 28 CLAM BAY NRPA MANAGEMENT PLAN(DRAFT) Pelican Bay Services Division May 30, 2014 Ver. 6.1 Piping plovers breed in three geographic regions of North America: the Atlantic Coast(which is where the Clam Bay NRPA is located), the Northern Great Plains, and the Great Lakes. Nesting in the Atlantic Coast region occurs on coastal beaches, sand flats, and bars associated with barrier islands, gently sloped and sparsely vegetated dunes, and washover areas cut into or between dunes. Plovers from all three breeding populations winter along South Atlantic, Gulf Coast, and Caribbean beaches and barrier islands,primarily on intertidal beaches with sand and/or mud flats with no or very sparse vegetation. Piping plover populations were federally listed as threatened and endangered in 1986. The Northern Great Plains and Atlantic Coast populations are threatened, and the Great Lakes population is endangered. Piping plovers are considered threatened throughout their wintering range. The highest concentration of birds reported in winter censuses are found in Texas, Louisiana, and Florida. In recent decades, piping plover populations have drastically declined as breeding habitat has been replaced with shoreline development and recreation. (USFWS). West Indian Manatee(Rivulus marmoratus) Manatees have been sighted on numerous occasions within the Clam Bay NRPA boundaries. Manatees can be found in shallow, slow moving rivers, estuaries, saltwater bays, canals, and coastal areas particularly where seagrass beds or freshwater vegetation flourish. Manatees are a migratory species. Within the U.S.,they are concentrated in Florida in the winter. In summer months,they can be found as far west as Texas and as far north as Massachusetts, but summer sightings in Alabama, Georgia and South Carolina are more common. Manatees are large, gray aquatic mammals with bodies that taper to a flat, paddle-shaped tail. They have two forelimbs, called flippers, with three to four nails on each flipper. The average adult manatee is about 10 feet long and weighs between 800 and 1,200 pounds. They eat a large variety of submerged, emergent, and floating plants and can consume 10-15%of their body weight in vegetation daily. Because they are mammals,they must surface to breathe air. They rest just below the surface of the water, coming up to breathe on an average of every three to five minutes. It is believed that one calf is born every two to five years, and twins are rare. The gestation period is about a year. Mothers nurse their young for one to two years, during which time a calf remains dependent on its mother. Protections for Florida manatees were first enacted in 1893. Today, they are protected by the Florida Manatee Sanctuary Act and are federally protected by both the Marine Mammal Protection Act and the ESA. Other Species A list of plant and animal species that has been observed within the Clam Bay NRPA and the adjacent Pelican Bay development areas can be found in Appendix 2 of this Management Plan. These lists are not all inclusive but represent a wide array of the species found within and adjacent to the Clam Bay NRPA habitats. 29 CLAM BAY NRPA MANAGEMENT PLAN(DRAFT) Pelican Bay Services Division May 30, 2014 Ver. 6.1 Hydrology Hydrological regime, sometimes referred to as the surface water or surficial hydrology, in simple terms describes the long term spatial variation in the water depths and period of inundation within a wetland system. This is because the surficial hydrology has both horizontal and vertical components and provides key ecological functions to the mangrove forest(Lewis, pers. comm., 2008). With respect to the horizontal component, incoming water(both tidal and surface water run-off) into an estuary brings with it nutrients, dissolved oxygen, and marginally lower salt concentrations. Conversely, the outgoing water leaving a mangrove wetland (through tidal exchange) removes metabolic waste products (e.g. carbon dioxide and toxic sulfides) and excess salt. The vertical component refers to incoming water that percolates down into the sediment and root zone, and the sediment drainage, on a falling tide which removes metabolic wastes and excess salt. It is the inflow and outflow of sea water that is critical to the ability of the estuary to manage these two ecological functions and as such dissipate salts, organic matter and freshwater. It follows that anything that affects the system and alters the ability of the system to perform these functions, will, in most instances, cause stress to the system and, at some point in time,result in the death of the system, or portions of it. Hydrologic studies indicate that the tidal flushing capacity of Clam Bay prior to the restoration dredging was limited and almost insignificant in Upper Clam Bay. The preliminary hydrographic assessment of the Clam Bay system prepared by Tackney&Associates, Inc. (August 1996) demonstrated rather dramatically that there was a significant reduction in tidal range between the middle boardwalk and Inner Clam Bay. Tackney described the flow in that area as "measurably reduced" and "very inefficient". The connecting tidal creek between the Pass and Inner Clam Bay is the key conduit for tidal input and outflow to the northern reaches of the Clam Bay system. Its constriction and the ancillary constriction of tributaries connecting to it impact the quantity and quality of the flushing that can occur in Inner and Upper Clam Bay. Another key aspect of the surficial hydrology is the vertical location of the water level elevation relative to the sediment elevation. Specifically,the mean low water(tide) elevation has to be sufficiently lower than the sediment elevation in order for sediments to drain during low tide. A persistent high surface water elevation stops sediment drainage and results in anoxic sediment and the accumulation of toxic waste products. The absence of meaningful exchange was certainly a contributor to the significant degradation of the mangrove system within Clam Bay. (Tackney 1996; Lewis pers. comm., 2008). In this context Tackney observed that even in the absence of rainfall, the average water surface elevations for the inner and upper bays were higher than the average surface elevation for the Gulf. Analysis of the tidal data indicated that average water surface elevations in the Inner and Upper Clam Bays were both elevated above the average Gulf water surface elevation by approximately 0.2 feet. This indicated that the tidal range in Inner and Upper Clam Bays was muted and that the system was receiving significant additional water through runoff and restricted capacity to drain additional inflow. 30 CLAM BAY NRPA MANAGEMENT PLAN(DRAFT) Pelican Bay Services Division May 30, 2014 Ver. 6.1 In fact, during portions of the Tackney study no tidal fluctuation was noted in the Upper Clam Bay and only marginal tidal effects were observed in Inner Clam Bay. The reduced tidal ranges were also accompanied by relatively large phase lags. The phase lag is the average time delay measured in hours and minutes between the occurrence of slack(high or low)water in the Gulf of Mexico and the measurement stations. It is affected by both the distance between measurement stations and the amount and quality of hydraulic resistance of the connecting channel. The longer the distance and the higher the resistance,the more pronounced one would expect the phase lag to be. In the upper bays, high and low waters generally occurred over three hours later than the Gulf tides. These conditions indicate that the tidal creeks connecting the interior bays are hydraulically very inefficient. As a result,the upper bays are prone towards extended periods of flooding as a result of freshwater runoff and the inability of the system to drain efficiently. During Tackney's field studies of May 1996,rainfall of approximately 4 inches in three days was adequate to flood the Upper Clam Bay above high tide levels and sustain this flooded condition for over two days. Accordingly, he concluded that the creeks and bays that serve to connect the Inner and Upper Bays were significantly less efficient in the ebb tide stage than they were in the flood stage. Studies undertaken by both Lewis Environmental Services, Inc. and Turrell &Associates, Inc. would support this conclusion. (Turrell 1995). Finally, an additional attribute of the system that is directly related to tidal prism and the quantity of inflow and outflow is the question of inlet stability. Inlet stability refers to a tidal inlet's capacity to adequately scour out deposited sediments and prevent inlet closure. For a given wave environment, inlet stability is governed primarily by the volume of water(tidal prism) carried by the inlet. To remain stable, an inlet must have the characteristic that a temporary constriction in cross sectional area produces an increase in current velocities adequate to scour out the constriction. To function without mechanical intervention, the system must generate a sufficient volume of water on the ebb tide to scour out the inlet naturally, otherwise the inlet will, over time, continue to close. This is particularly true during periods of high wave activity and low tidal ranges. (Turrell 1995; Tackney 1996). The six closures of Clam Pass that have occurred in the past twenty-five years indicate that stability of Clam Pass is marginal. (Turrell 1995; Tackney 1996,Humiston 2010). Hydrologic studies have indicated that during a tidal cycle, 75-80%of water that flows through the Seagate culverts originates in Clam Bay,while 20-25%of water that flows through the Seagate culverts comes from Venetian Bay. Enlarging the Seagate culverts is not recommended because it would further reduce the tidal prism of the Bay, and decrease the stability of Clam Pass. Since implementation of the 1998 Management Plan, the hydrologic conditions of the Clam Bay System have improved considerably, resulting in the restoration of the mangrove forest. 31 CLAM BAY NRPA MANAGEMENT PLAN(DRAFT) Pelican Bay Services Division May 30, 2014 Ver. 6.1 Freshwater Component Under predevelopment conditions, much of the area's rainfall was held on the surface of the land in sloughs and other low areas. This water would either slowly filter through the soil to recharge the shallow aquifer or move through the mangrove community to the bay. Less than ten inches of the approximately 53 inch average rainfall is estimated to have been lost from the uplands east of Clam Bay as surface runoff. The storage capabilities of the land thus moderated surface flows, preventing extremely high flow rates during the rainy season and serving to maintain surface flow and groundwater flow during the dry season (FDER 1981). The development of Pelican Bay had limited fill impact to the Clam Bay system,but it did modify the pattern of freshwater entering the Clam Bay system (Wilson, Miller et. al., 1996). The stormwater management system as designed, permitted, and implemented at Pelican Bay employs a series of detention ponds, swales, and culverts to regulate the discharge of run-off into Clam Bay. Discharge occurs almost continuously along the eastern perimeter of the conservation area. Run-off from the northern end of Pelican Bay is collected and discharged into Upper Clam Bay. Irrigation water for 27 holes of golf and landscaping in Pelican Bay is approximately 3.0 MGD which approximates 26 inches per year of additional rainfall equivalent(Wilson, Miller et. al., 1996). When added to the average rainfall for South Florida of approximately 53 inches per year, the local area has an effective rainfall of approximately 80 inches plus annually. This is significant, particularly when viewed in the context of predictable storm events that have the potential for altering the amount of average rainfall entering the Clam Bay system. The "Pelican Bay Water Management System—Stormwater Detention Volume and Water Budget Analysis" (Wilson, Miller, Barton&Peek, Inc. April, 1996) describes the water management system as being divided into six watershed or drainage systems. Rainfall, including irrigation, reaches the ground and either seeps into the ground or runs off to a stormwater detention area within each system. The stormwater detention plan for Pelican Bay has a standard, permitted design capacity to hold the first inch of stormwater during a 25-year storm event. The stormwater is detained for flood protection and water quality treatment. Stormwater discharge is controlled by a series of weirs designed such that the post-development stormwater run-off rate does not exceed pre-development rates. Stated differently, the system is designed to discharge stormwater in the development portion of Pelican Bay in the same manner that it discharged stormwater prior to development. The stormwater discharge exits the weir system for a final release into Clam Bay. Stormwater runoff from an additional 130 acres of watersheds, outside of Pelican Bay, contributes an supplementary and significant volume of discharge to Clam Bay. This water represents 7.9%of the total stormwater discharge to Clam Bay. 32 CLAM BA YNRPA MANAGEMENT PLAN(DRAFT) Pelican Bay Services Division May 30, 2014 Ver. 6.1 • �,aa a + r ani t e r t3. - }d S:a "1 t r , ,......na liar t iA ,•.- Y i- ,2t*^�" Ri>i t t e.. e.;�•___ t e may- �5y�sxrc� j r.;; ,� `Y r4 ,,,r?-17171-): i + ♦ f '7 _,,s 1�p -- ..l' t.''' alt \y. 4X� � f ��! �z -s �ti w "" 3 y r � A. ""1k. �: S' r f is +1+�Ly '441 r xyq E,, yt`' 1 ► _ .�liy -•! 3, �" $' r 7 ..(.,7 Lw R ! `,8""'�se'rr''`��) .rF is♦ :,'s� a. �1 r:a��iY"X'n' '2 Is i' e • - ''+' ' '" `-. ..1114.;14-1W ZTr .1[ r* ,.1" K *• fY''r +t (�. S'4k r t b �K. BASIN 2 f:Fsxt c „� ::,:k4,Ott y BASIN 4 7 +� BASIN 3 fir. r+ e! f ,�Q �' � ,{� .M • 'env ..07 .�.'•.: Z-g ,",.ta 7 :,t_,, + , 1 -a alae r rtr `4, y,., Y ... i 4 �f ,�. [ � � � ,' �£ �a.�;'. e BASIN 1 t�.v ( -0�`' �( `y .. ."`Qi -�1 h .2e *�.r� til L r� --1!� y .1, ,i•A 'h.ii •' 7. 5. " `1411 . :1 -"e i .4:--1A-4:\: �.,r�p t` xgT'+i�. „,`,i,.a s„'.-4.,',y1.-:,` 'F� ' an. "' rl9-J*"* � � . � .. t�' x. i2 :y.-..ai i r + ies 0 �t5 ,.tea �` ,;, _,11 jet ' ;, °efyir L'1>.; BASIN 5 u y , -1!s" , iC 3r 3f 114 w so 2.41.. ,.di R r+1 :ii .` of ft, 1" swa, .°', ,Ig45 • a, ` �S = r�s e w 1+« .`'kt'%'4 a. ' •.' +", . > 4. •w,' a. 1.' � a as BASIN 6 °+ } �T.} tit Jti—1"*,. .- C '.. : i.. .,, tea.'1*;..1'1,,^ae.`"�''-F.1 Via Figure 19:Approximate locations of Drainage Basins within the Pelican Bay Development(photo is oriented with north up and west to the left). As the area of Pelican Bay to the east has undergone development, it has increased the impervious surface area,with a concomitant increase in surface runoff,which is eventually discharged to Clam Bay. The daily irrigation water volume enhances the saturation of the uplands which reduces their ability to accommodate rainfall volume,thus effectively increasing surface and groundwater discharge. Groundwater discharge can be commonly observed throughout the eastern side of Clam Bay and is discernible as a very slight sheet flow. Where this water encounters a discharge system, even one that is not operating at peak efficiency (from an engineering, not historical, standpoint), such as Outer Clam Bay, excess water is effectively removed from the system. However, in the northern section, sheet flow was not efficiently removed due to lack of flow through the forest. Thus, it accumulated, increasing soil saturation and raising the mean water table elevation, and apparently overwhelming the black mangrove's anaerobic soil/gas exchange mechanisms. Mangroves in these areas became stressed and died. Subsequent activities undertaken as part of the 1998 Management Plan have resulted in the reestablishment of mangroves throughout the die-off area. Water Quality During the initial environmental permitting of Pelican Bay,the agencies required water quality testing within the Pelican Bay subdivision and the Clam Bay estuary to help evaluate the impact of development on Clam Bay. The water quality testing program was first implemented by the Pelican Bay Improvement District(PBID) starting in the early 1980's. In 1990 the PBID became the Pelican Bay Services Division (PBSD), a dependent Division of Collier County. The PBSD continued the testing program after 1990. The PBSD is currently the responsible entity for the testing program. 33 CLAMBAYNRPA MANAGEMENT PLAN(DRAFT) Pelican Bay Services Division May 30,2014 Ver. 6.1 The water quality testing is performed at several sample points within Pelican Bay and Clam Bay. The sample point locations are shown on the Figure 20 on page 65. There are currently nine sampling locations within Pelican Bay and Clam Bay. Sample points W-7 (located in the creek near the north Pelican Bay Foundation boardwalk); W-6 (located in the creek near the south Pelican Bay Foundation Boardwalk); W-1 (located near the kayak launch area at the southern end of Outer Clam Bay);North Seagate(located on the north side of the Seagate culverts between Venetian Bay and Outer Clam Bay); and Upper Clam Bay(located at the very north end of Upper Clam Bay) are within Clam Bay, which are categorized as Class II waters by the FDEP. The remaining five sampling points are PB-13 (located north of the Sandpiper parking lot on both sides of the berm); PB-11 (located between the St. Maarten condominium and the Commons on the east side of the berm); Glenview(located between the Glenview and Stratford condominiums on the east side of the berm); and St. Lucia(located adjacent to the St. Lucia condominium on the west side of the berm), are located in the stormwater treatment portion of the property(Class III waters)within Pelican Bay. 34 CLAM BAY NRPA MANAGEMENT PLAN(DRAFT) Pelican Bay Services Division May 30, 2014 Ver. 6.1 41-• .:b c.f V5V te- y r wik:it ,�zt I t .t...„-,0414,,t E ?,C�s'..� � 6 fid' ��,� �� � �'. +�;s 4; 4p t;4.:‘,4-1,V L t _ tie 4 . . sf� ; • x p 1.1 .-Cis' � � ''' Ce i �: ' z .x"yye�= .f--i •`a k �t sky 4 'a 't' .1, gg'' ,... lki ;,..4?-- ''NF ` q 1 ``i p .-^� .j{w s!-t ,w'yl�s�y y� . 1 f ,,04,1,, cif,: 1„.,.. AS"<.;,,,,•.,,,,-" " l:s ,y _- ,i;.., �5 4:4-r-,6,--,,,,,,,-,„,...} v.F ''�Aa. 1. ,$)....4.,:.. k `` 5 ;„ '� '_..it � '`fit 5 L. 4. y, yx• , -err '.% ..a. � hf y f <., `tf s ?y fi! f 'err + 1. l .,,3'•. `2` Li' l ' ; t R r. ' • r w r is f: p IsJ. ' ' L',-1.. .;-„A„r'z'' -'VX Yee: 4,III '-,` .. K =4 A tV ], Jf ' 4111,s,�t, • Si 14-"N• � � '2 ` Jam' �3,4 - 4',^le ;, -• �'> i ASF s p ' ,R?i ,-E"4.A.Ht '{ 141, i J C� } { �:1 s yrs is >wrt CF420 I:- S 1. :44.#1 45 4 ' e...,i * F. A.,- Y . rf t e41',";t4, # •i5 ....„. ,....,..•„x.. ..... ,. ., . . , . ...., .. . ,..,.... , ,., Iiii,..,_ ,....,,,,G. . .. _,.,.... ..... „1„..„. . ...., c, M ti _ ", `moi: °� ,"11:".�_ '.It..i. rir, . Figure 20: Water Quality monitoring locations within the NRPA Boundary 35 CLAM BAY NRPA MANAGEMENT PLAN(DRAFT) Pelican Bay Services Division May 30, 2014 Ver. 6.1 Water quality sampling is conducted within the Clam Bay system on a monthly basis. The samples are collected by PBSD staff and transported to the Collier County Pollution Control laboratory for processing. Parameters sampled and collected, include: • Field pH • Field Temperature • Field Salinity • Field Dissolved Oxygen • Ammonia • Carbon—Total Organic • Chlorophyll a • Copper(added to the parameter suite in 2013) • Nitrate-Nitrite(N) • Nitrite (N) • Nitrogen—Total Kjeldahl • Orthophosphate (OPO4) • Pheophytin • Phosporus - Total • Residues—Filterable (Total Dissolved Solids (TDS)) • Silica(SiO2) Water quality sampling results of nutrient loading seem to indicate that the development stormwater management system is doing its job. No evidence of nutrient loading has been observed within the Class II waters though several spikes and elevated nutrient(N and P) levels have been observed from the testing locations along the berm. It is believed that the spikes observed are correlated with fertilizer application within the community. The FDEP conducted water quality sampling within the Clam Bay NRPA in 2011 and 2012. Based on their sample results, FDEP had made an initial determination that Clam Bay could be impaired for both Dissolved Oxygen (DO) and Copper. Subsequent coordination between FDEP, PBSD, the Pelican Bay Foundation, and involved consultants, FDEP made a determination that the oxygen levels in Clam Bay were natural, and the system was not listed as impaired for DO. TMDL (Total Maximum Daily Load) are defined by the FDEP as the maximum amount of a given pollutant that a surface water can absorb and still meet water quality standards. FDEP did determine that the Clam Bay System was impaired for copper and was placing the Clam Bay system on the Everglades West Coast verified list for copper with medium TMDL priority(5 to 10 years for TMDL development). Subsequent copper testing undertaken by PBSD has also shown periodic elevated levels of copper within the Clam Bay Class II waters. FDEP acknowledged that the Pelican Bay community is developing an upland stormwater and nutrient management program that is designed to reduce nutrient and copper inputs into the stormwater system. Once completed, this program can be given to FDEP for review and if satisfied with the anticipated reduction of copper resulting from the implementation of the plan, the system could be removed from 36 CLAM BAY NRPA MANAGEMENT PLAN(DRAFT) Pelican Bay Services Division May 30, 2014 Ver. 6.1 the impaired list. While the upland nutrient management plan is not part of this Management Plan, PBSD will work closely with the Pelican Bay Foundation to coordinate and share information and to integrate management decisions and activities into this Management Plan where appropriate. Archaeological Resources The Florida Division of Historical Resources Master Site File lists three known archaeological sites within the Clam Bay NRPA boundary. All three are located within the mangrove forest habitat. Two of the sites (CR476 and CR547) are located north of the Pass and south of Inner Clam Bay. The third site (CR576) is located south of the Pass and north of the Clam Pass Park boardwalk. Site CR476 is identified as a prehistoric campsite and shell midden possibly supporting the use of several cultures dating from 8500 B.C. to A.D. 1700. Sites CR547 and CR576 are identified as shell middens which were in use between 100 B.C. and A.D. 1700. All three of the sites are within the mangrove forest and outside of the footprint of any previous or future anticipated dredging activities. Inlet Dynamics Clam Pass is a small wave-dominated inlet on the southwest coast of Florida that provides a tidal connection to approximately 500 acres, of the 570 acres in the Clam Bay NRPA, of wetland preserve. The relatively small tidal prism of Clam Bay provides a critical balance between tidal flow in and out of the inlet channel and littoral processes moving to the inlet. This affects the inlet hydraulic efficiency over time, especially when littoral transport rates are high due to periods of high wave energy. The morphologic features of a tidal inlet include ebb shoal, flood shoal, and inlet channel. The flood shoal includes the sand shoals on the bay side of the inlet channel. The flood shoal is less dynamic than the gulf side of the inlet as it is influenced mainly by tidal flow and sheltered from the varying wave conditions on the open coast side. The ebb shoal features can be explained as sand bar features forming a delta on the open coast side of the inlet. The ebb shoal delta shields the inlet channel from waves and provides pathways for sand transport along the coast to bypass the channel without shoaling the inlet closed. 37 CLAM BAY NRPA MANAGEMENT PLAN(DRAFT) Pelican Bay Services Division May 30, 2014 Ver. 6.1 if f 1 hr® ( ter. Q L. Figure X:Ebb and Flood Shoals. Figure provided by Hermiston&Moore A stable inlet system requires an ebb shoal feature that prevents rapid shoaling at the inlet mouth. The inlet channel maintains its flow cross section through tidal flow that scours the channel to required flow area while the waves are moving large amounts of sand along the coast. The stability and dynamics of a tidal inlet are based on the balance of the two forces of tidal flow versus wave-induced current and sand transport. The direction of wave action plays a significant role in the shape and dynamics of the inlet features. Clam Pass is critically stable but subject to shoaling, and therefore requires regular monitoring to determine if dredging is needed. The relatively small bay area compared to other estuaries in Southwest Florida provides adequate tidal flow to keep the Pass open under typical conditions. The narrow nature of the flood shoal area surrounded by the mangrove forest limits the flood shoal capacity to maintain an equilibrium volume and bypass additional sand to the Gulf and bay waters. The accumulation of sand over long periods of time, especially within the flood shoal and inlet channel creates additional resistance to flow. This additional resistance causes a reduction in the tidal range within the bay system and consequently reduces the flow through the Pass. Maintenance dredging to restore flow rates may be needed. During the 1990's Clam Pass was subject to channel migration as well as closure, and dredging was necessary to keep the inlet open. In 1998 the Pelican Bay Services Division developed the Clam Bay Restoration and Management Plan that was approved by the Collier County Board of Commissioners. The purpose of the plan was to address the mangrove die-off by improving tidal flushing into and out of the mangrove forest areas. This was accomplished through the dredging of Clam Pass and portions of the interior creeks within the system, as well as the construction of a network of hand-dug channels throughout the original die-off area and several other areas that were exhibiting stress. The implementation of the Clam Bay Restoration and Management Plan resulted in a significant increase of the tidal prism compared to conditions prior to 1999 and the eventual recovery of over 90%of the original mangrove die-off area. 38 CLAM BAY NRPA MANAGEMENT PLAN(DRAFT) Pelican Bay Services Division May 30, 2014 Ver. 6.1 Clam Pass requires regular monitoring to determine when dredging may be needed. In addition to the 1999 dredging, dredging occurred in 2002, 2007, and 2013. The 2013 dredging took place following inlet closure in late 2012 following the passage of Tropical Storms Debbie and Isaac and high-energy wind and wave conditions. The inlet was reopened in April, 2013 and tidal exchange between the bay and the Gulf of Mexico was restored to near design levels. Chapter 4.0 of this Management Plan outlines factors that will be considered prior to a determination to dredge Clam Pass. Recreational Use The Clam Bay NRPA provides a variety of opportunities for recreation, such as walking, kayaking, canoeing, paddle-boarding, swimming, fishing, and snorkeling. Many Collier County residents and visitors enjoy the natural environment of the preserve. Recent Stakeholder input as well as prior reports supports the use of the Clam Bay NRPA for low-impact recreation. It is important that all who participate in recreational activities within the system do no harm to the unique flora and fauna of the Clam Bay NRPA. Clam Bay's dense forest of mangroves significantly limits walking in the preserve. Most walkers seeking to enjoy the rich natural environment of Clam Bay use the three boardwalks that cross the preserve and provide access to the beach. Residents and guests of Pelican Bay use the northern and middle boardwalks. The southernmost boardwalk is open to the public and accessed from the parking lot at the south end of the system. Trams are used on all three boardwalks to transport those choosing not to walk on the boardwalk to the beach. Fishing and swimming are popular pastimes. Fishing can be done from the boardwalks and canoes or by wading into the water. Swimming is usually confined to the beach areas, but some swimmers and waders, if conditions permit, venture into Clam Pass. Kayaks, canoes, and paddleboards are used by those wanting to enjoy the natural setting and serenity of Clam Bay's waterways. There is a public launching area for non-motorized vessels adjacent to the parking lot at the south end of Outer Clam Bay. There is also a launch area for Pelican Bay residents on the northern boardwalk. The canoe/kayak trail is clearly designated by canoe trail markers from Outer Clam Bay to Upper Clam Bay. Occasionally, motorized vessels, including boats,jet-skis or other personal watercraft, have been observed operating in a manner that may be in violation of Florida Statutes. Appropriate County Ordinances regarding vessel operation may be sought in the future to ensure that Clam Bay remains a safe environment for all recreational users. 39 CLAM BAY NRPA MANAGEMENT PLAN(DRAFT) Pelican Bay Services Division May 30, 2014 Ver. 6.1 4.0 Management Plan Goal and Supporting Objectives The following goal and supporting objectives for the management of the Clam Bay Natural Resource Protection Area (NRPA) were developed in accordance with the directives of the Collier County Board of Commissioners (BCC) and the Pelican Bay Services Division (PBSD), which serves as an advisory board to the BCC. The goal and supporting objectives were formed in conjunction with stakeholder input and are based on the management issues present in the NRPA as well as the purposes for which the land is held in public trust. The Clam Bay NRPA requires active management to ensure its long term health. The goal and supporting objectives set forth in this plan should not appreciably change over time, but management techniques and strategies may be modified to appropriately manage the NRPA. Annual reports will be completed documenting the results and analysis of all monitoring activities over the course of the previous year. The ability to implement specific objectives of the management plan is dependent upon available administrative and financial support. Therefore, activities will require prioritization to remain within available funding. Management strategies will be reviewed annually and adapted as needed. GOAL The goal of the Clam Bay NRPA Management Plan is to establish the basis for management activities that will be undertaken to protect the health of the NRPA estuary. Objectives to support this goal include: 1. Maintain and protect the native floral and faunal communities within the Clam Bay NRPA 2. Ensure the estuary has adequate tidal and freshwater flows to maintain ecological health within the Clam Bay NRPA 3. Monitor and maintain water quality within the Clam Bay NRPA 4. Monitor archaeological sites within the Clam Bay NRPA 5. Ensure recreational activities are environmentally compatible within the Clam Bay NRPA These objectives were formed to allow for adaptive management, whereby the compilation and analysis of all data will occur holistically and provide direction to adjust strategies to better achieve the goal. 40 CLAM BAY NRPA MANAGEMENT PLAN(DRAFT) Pelican Bay Services Division May 30, 2014 Ver. 6.1 Objective 1 —Maintain and protect the native floral and faunal communities within the Clam Bay NRPA A. Maintain healthy, native floral and faunal populations • Establish plots and photo points in Scrub and Hammock habitats and monitor annually. • Monitor annually established plots in the mangroves. • Monitor annually established transects in the seagrasses. • Update periodically a list of observed wildlife. • Monitor benthic organisms periodically. B. Protect Listed Species • Monitor gopher tortoise burrows and then update every three years to track population trends within the NRPA boundary. • Coordinate with Collier County to review, track, and document sea turtle nesting along the NRPA beachfront. • Add to current species lists as new species are sighted. • Update listed species management practices as needed if species status changes. • Conduct appropriate listed species surveys as needed prior to disturbance events. • Periodically review and, if needed, update educational information on species, such as the Clam Bay Field Guide. • Review listed species information annually and make recommendations for adapting management strategies as appropriate. C. Remove Exotic and Nuisance Flora and Fauna • Locate and identify exotic, nonnative, and nuisance species. • Remove, or report to the responsible entity for removal, Category I and II invasive exotic species and nuisance species as appropriate. • Make recommendations annually to improve conservation strategies. 41 CLAM BA YNRPA MANAGEMENT PLAN(DRAFT) Pelican Bay Services Division May 30, 2014 Ver. 6.1 Objective 2—Ensure the estuary has adequate tidal and freshwater flows to maintain ecological health within the Clam Bay NRPA A. Identify the minimum tidal flow necessary to ensure a healthy ecosystem. Provide sufficient tidal exchange to maximize benefits while minimizing negative environmental impacts. • Conduct periodic bathymetric surveys of Clam Pass. • Conduct periodic analysis of tidal data. • Maintain tidal gauges. • Conduct a bathymetric survey of interconnecting waterways when needed. • Determine through regular biological monitoring whether ecological health warrants intervention strategies. • Seek appropriate federal and state permits to dredge Clam Pass or interconnecting waterways if needed. • Monitor identified variables of Clam Pass conditions to determine when dredging is needed. See Chapter 4 for more detail. B. Ensure appropriate freshwater inputs and drainage • Conduct annual monitoring of hand-dug channels. • Perform annual maintenance of prioritized sections of hand-dug channels. • Develop intervention strategies if data documents the need. Objective 3—Monitor and maintain water quality within the Clam Bay NRPA A. Develop a long-term water quality program that assesses the physical,chemical,and biological processes to ensure a sustainable healthy environment for all users • Continue a program of water quality data collection, making certain that all protocols and sampling locations comply with FDEP guidelines and standards and addresses the Site Specific Criteria approved by FDEP. • Report and review water quality data that includes comparing recent data to historical data and in conjunction with biological data. • Develop intervention strategies when results do not meet standards. • Enter data into STORET system on an annual basis. • Develop a plan to address copper impairment in Clam Bay. B. Support programs for controlling water pollution from point and nonpoint sources • Continue to work with the community to address additional copper concentration in upland stormwater ponds in Pelican Bay. • Continue to work to reduce the use of fertilizer in Pelican Bay. • Continue to work to increase the use of Best Management Practices in Pelican Bay. 42 CLAM BA YNRPA MANAGEMENT PLAN(DRAFT) Pelican Bay Services Division May 30, 2014 Ver. 6.1 Objective 4—Monitor archaeological sites within the Clam Bay NRPA A. Monitor conditions of known archaeological sites. • Review historical records of Florida Division of Historical Resources (DHR)on known archaeological sites. • Inspect known archaeological sites at least annually. • Report findings as appropriate to DHR. B. Implement strategies for the protection archaeological sites as needed. Objective 5—Ensure recreational activities are environmentally compatible within the Clam Bay NRPA A. Monitor access and the condition of the facilities for recreational uses. • Report vegetation needing to be trimmed to the responsible entity. • Report litter needing to be removed to responsible entity. • Report facilities needing repair or replacement to responsible entity. B. Maintain existing canoe trail. • Inspect signage periodically. • Repair or replace signage as needed. • Repair/replace seagrass and caution shoaling signs. C. Maintain existing signage for safe swimmer and boater usage. • Inspect signage periodically. • Repair/replace signage as needed. D. Monitor use of facilities/area for recreational uses. • Encourage citizens to report incidents of unlawful, unsafe, and/or environmentally harmful use to the responsible entity. • Coordinate with outside agencies such as Collier County Sheriffs Department and the Florida Fish and Wildlife Conservation Commission, for enforcement of laws and regulations as needed. • Develop materials to guide recreational use as needed. • Continue to support the use of the Clam Bay NRPA for low-impact recreational uses. E. Maintain materials to educate visitors about the unique features of the Clam Bay NRPA • Inspect signage periodically. • Report signage needing repair or replacement to the responsible entity. 43 CLAM BA YNRPA MANAGEMENT PLAN(DRAFT) Pelican Bay Services Division May 30, 2014 Ver. 6.1 5.0 Clam Pass Dredging A. Dredging Policy There are two circumstances that could necessitate dredging Clam Pass. The first is if Clam Pass closes completely due to a storm or natural event or is in eminent danger of immediate closure following a weather driven event and such conditions are decided by competent professionals to be uncorrectable through the dynamics of natural hydrological and meteorological processes. In this situation the inlet should be dredged as soon as possible. The second is if the inlet has lost hydraulic efficiency that is not recoverable through natural processes, jeopardizing the health of floral and faunal communities of the Clam Bay NRPA. This determination is made by reviewing and comparing current and past data from tidal hydraulic and bathymetric monitoring. In both cases the PBSD Board would approve and recommend an appropriate set of construction drawings for the dredging event to the BCC for its approval prior to the submittal to the regulatory agencies. Dredging will only be done for the health of the Clam Bay NRPA, not for navigation or beach renourishment. Beach compatible sand removed as part of the dredging event will be spread on area beaches, as required by the permitting agencies. B. Dredging Criteria The purpose of regular monitoring is to evaluate inlet characteristics on a comprehensive long term basis with less emphasis on short term or seasonal changes. To monitor the stability of Clam Pass, data on the on the four variables listed below will be regularly collected,and they will be reviewed by the consulting engineers. If data are not within the identified target ranges for the variables, further monitoring and/or intervention will be considered. See Appendix 2 for additional information on the dredging criteria. 1. Bay Tide Range Tidal range data have been collected annually since 1999 and will continue to be collected and reported to the consulting engineer at least quarterly, if Pass conditions warrant concerns. An annual tidal analysis report will be included with the annual report. Data are collected from gauges at four locations (Clam Pass Park Boardwalk, Pelican Bay South Boardwalk, Pelican Bay North Boardwalk, and Upper Clam Bay). These gauges provide a record of 44 CLAM BA YNRPA MANAGEMENT PLAN(DRAFT) Pelican Bay Services Division May 30, 2014 Ver. 6.1 the tidal range within Clam Bay and are one indication of the tidal prism or volume of water flowing through Clam Pass at each tidal cycle. Based on an analysis of data from the gauges at the South Boardwalk and Clam Pass Park Boardwalk from 1998 to the present when the inlet was hydraulically stable,the ratio between Clam Bay and Gulf tide was between 0.6 and 0.7 over 90%of the time. Therefore, if the ratio between Clam Bay and the Gulf tide falls below 0.6, but above 0.5, further monitoring will be considered once it has been established that other types of blockage are not causing the problem. If the tidal range ratio falls below 0.5,physical monitoring of, or interventions to,potential shoaling areas that could be impeding flow will be considered. 2. Cross Section of Flow Area and Volume of Shoaled Material Annual bathymetric surveys and reports were completed from 1999 to 2008. Bathymetric surveys provide data on the physical conditions of the inlet channel, ebb shoal and flood shoal. Post-dredging bathymetric surveys and reports were completed and 3-month, 6-month, and 12-month intervals following the opening of Clam Pass in April 2013. Beginning in 2014, bathymetric surveys and reports will be issued at least annually. Additional surveys should be considered if the hydraulic efficiency falls below target levels. To establish benchmarks or targets for these variables,the data analysis included evaluation of the flow cross-section areas in the three main sections of the dredging region. Section A represents the inlet channel, Section B the seaward part of the flood shoal, and Section C the bay side part of the flood shoal. Section C • Nh . Section A • • � •\, ' ' �OC'� • Figure X. Sections A, B and C 45 CLAM BAY NRPA MANAGEMENT PLAN(DRAFT) Pelican Bay Services Division May 30, 2014 Ver. 6.1 The analysis included evaluation of the cross-section of flow between mean high water and the volume of sand within each segment. The cross-section of flow was computed at each survey station spaced approximately 50 feet apart. The average and minimum cross-section areas were used as indicators of the physical condition of the flow area of the three segments. The cross-sections were compared to the design cross-section area of the 2013 dredging and the inlet conditions in 2004 and 2008 when inlet conditions were near equilibrium 24 months and 16 month, respectively, following dredging events. Targets for the average cross-section of flow areas: Section A greater than 300 sq. ft. Section B greater than 450 sq. ft. Section C greater than 450 sq. ft. Targets for the minimum cross-section flow areas: Section A greater than 250 sq. ft. Section B greater than 350 sq. ft. Section C greater than 350 sq. ft. Targets for volume of shoaled materials: Section A less than 3000 cu. yds. Section B less than 2500 cu. yds. Section C less than 4000 cu. yds. Therefore, if the average cross-section of flow area falls below these numbers or the volume of shoaled material exceeds these numbers, further monitoring, or intervention, may be needed. 3. Inlet Channel Length The channel length is an important factor in the inlet stability parameters. A longer inlet channel will provide greater resistance to flow. Higher flow resistance will reduce the tidal range and increase the phase lag with the Gulf tide that reduces the tidal prism and flow through Clam Pass. To establish a benchmark for channel length a selection of aerial photos of Clam Pass from 2004 to 2013 was studied as well as data on the approximate length of the channel following dredging events in 2002, 2007, and 2013. Based on this analysis, the benchmark for inlet channel is to stay under 400 feet in length. 4. Ebb Shoal The size and shape of the ebb shoal is a key factor to the stability of the inlet that, in turn, supports the stability of Clam Pass. The ebb shoal helps to keep the inlet open when facing storms and big wave events. The ebb shoal delta provides sheltering to the channel and sand bypass pathway around the inlet without filling in the Pass. The shape and volume of the ebb shoal are additional indicators of the stability of the inlet. Critical conditions include onshore collapse of the ebb shoal that can be indicated 46 CLAM BAY NRPA MANAGEMENT PLAN(DRAFT) Pelican Bay Services Division May 30, 2014 Ver. 6.1 by significant change in ebb shoal offshore distance, volume, and increase in dry beach areas adjacent to the inlet. To determine a target for the ebb shoal delta, data from April 2013 to April 2014 were reviewed. The ebb shoal position offshore is measured from a line connecting the north and south channel banks at mean high water out to the -4.0 foot contour line. The recommended length of the seaward extent of the ebb shoal is to at least than 250 feet. Dredging Criteria Parameters Location Target Description >0.5 ratio comparison of the interior and Gulf Bay Tide Range Ratio tidal ranges A Average>300 sq ft Not less than 250 sq ft Cross Sectional Area B Average>450 sq ft area in different locations of the Pass Not less than 350 sq ft through which water can flow C Average>450 sq ft Not less than 350 sq ft A <3000 cu yds quantity of sand and sediments within Volume of Shoaled Material B <2500 cu yds channel that can restrict flow C <4000 cu yds <400 feet distance water must flow through the Inlet Channel Length beach and ebb shoal areas >250 feet distance from shore to the outer ebb Ebb Shoal shoal limits C. Dredging Construction 1. Typical Cross-Sections for Dredging Typical cross-sections for the suggested dredge template are provided below. Minor modifications to this dredging template may be necessary for future permitting. Typical cross-sections are shown for open areas in Section B and C where the waterway is wider than the target cross-section. In areas where the waterway is limited by mangroves, the width of the cut will be limited to maintain a minimum of a five-foot buffer to the mangroves. In Sections B and C where seagrasses may be present every effort will be made to avoid dredging activities that would be harmful to seagrasses. 47 CLAM BA YNRPA MANAGEMENT PLAN(DRAFT) Pelican Bay Services Division May 30, 2014 Ver. 6.1 2013 Target Proposed Dredged Area Design Area area Below 312 300 300 MHW p 8— SECTION A — TYPICAL SECTOR A", — 4— > - CNAIML VA.NLL� 2— `-' -IAHW (AG.53'1 D : . _—2— SIJESU]VE IY:IH O 4•it —rims arr(-n.o'MAYO) 1.3—6— 2111$t'MStAtC I-83`No.a.) W - -8— bo" —10- - NORTH SOUTH —12 —200 —150 —100 —50 0 50 100 100 200 DISTANCE FROM CENTER (FEET) Figure 22. Typical Maintenance Dredging Cross Section-Inlet Channel-Section A 29 Typical maintenance dredging cross section—Inlet Channel—Section A (figure provided by Humiston&Moore) 48 CLAM BAY NRPA MANAGEMENT PLAN(DRAFT) Pelican Bay Services Division May 30, 2014 Ver. 6.1 2013 Target Proposed Dredged Area Design Area area Below 650 450 450 ' MHW a 8— SECTION 8 — TYPICAL ''' aT 0 4— 4 - •--• 2— MHf (4033') d0- —2— .00,!vimz F_4_ COON COT[4.6'wig) -8- -10- - NORTH SOUTH —12 —200 —150 —100 -40 0 510 100 140 200 DISTANCE FROM CENTER (FEET) Figure 23, Typical Maintenance Dredging Cross Section—Seaward Flood Shoal—Section B Typical maintenance dredging cross section—Seaward Flood Shoal—Section B(figure provided by Humiston&Moore) 49 CLAM BA YNRPA MANAGEMENT PLAN(DRAFT) Pelican Bay Services Division May 30, 2014 Ver. 6.1 2013 Target Proposed Dredged Area Design St 1,05 `` • 4 Area area Below 530 450 450 MHW I a SECTION C - TYPICAL 0 1- z 2- ✓ U14* (3D.33.) tt • -2- '' 33C030Pt IVA( o-(- 1:0400wl(-s.1.14.(0) -a- -10- - NORTH r f SOUTH -12200 -150 -f00 -�O l� 50 100 150 200 DISTANCE FR0U CENTER (FEET) Figure 24. Typical Maintenance Dredging Cross Section-Bayside Flood Shoal-SectionC st Typical maintenance dredging cross section—Bayside Flood Shoal—Section C figure provided by Humiston&Moore) 50 CLAM BAY NRPA MANAGEMENT PLAN(DRAFT) Pelican Bay Services Division May 30, 2014 Ver. 6.1 51 CLAM BAY NRPA MANAGEMENT PLAN(DRAFT) Pelican Bay Services Division May 30, 2014 Ver. 6.1 6.0 Authorized Construction Activities List of Permits for Work Undertaken to Date and Relevant Legal Framework Eighteen years ago, Collier County processed a permit to dredge limited areas of Clam Pass to facilitate the movement of tidal water in and out of Clam Bay. The FDEP permit for this activity was issued on March 28, 1996 with the companion USACE permit being issued on April 2, 1996. The FDEP permit was modified on April 10, 1996 with the authorized work being undertaken and completed on April 17, 1996. The practical effect of implementing this Permit was to reopen the Pass, but it was clear that without a more comprehensive strategy, this effort, standing alone, would not revitalize the Clam Bay ecosystem. A permit to improve the channel flow within defined areas of the Clam Bay system by a combination of blasting and hand excavation was issued on June 26, 1996. The work was undertaken and completed in two segments. The first channels were opened in August 1996, and the second channels were opened in November 1996. The results of these two initiatives were positive in that measurable improvements in tidal flow were discernible and with that have come improved conditions for natural re-vegetation. A permit was issued on January 5, 1997 to construct a portable pump and pipe system as an interim measure to divert impounded freshwater within the Clam Bay system to the Gulf while a more permanent solution contemplated by the construction of an outfall structure was reviewed. This plan was never implemented and is no longer being considered. it envisioned two pumps that would be operational when the water surface elevation within Clam Bay exceeded a specified threshold. The Management Plan anticipated the direct discharge of excess water into the Gulf with the expectation that this system would augment the natural discharge through the tidal mechanism after severe storm events. Subsequently, Collier County authorized the pursuit of a ten-year permit to allow the County, or its designee (which in this case was the Pelican Bay Services Division), to maintain Clam Pass in an open condition. The application, as filed, did not address any other issues affecting the operational characteristics of Clam Bay and essentially mirrored the 1996 Permit described in the first paragraph above. Agency comments and concerns which arose as part of the permit review led to the creation of the 1998 Clam Bay Restoration and Management Plan. The Management Plan addressed agency concerns at the time and included provisions for adding one-way flap gates to the Seagate culverts, dredging within three sections of the creek north of Clam Pass, a network of hand dug channels throughout the forest area, in addition to the dredging of the Pass. This permit was issued in 1998 and the Management Plan created in support of the permit has been the guiding document for the maintenance activities undertaken in the Clam Bay system since then. FDEP and USACE 10-year permits will be sought in conjunction with this new Management Plan. The permits will allow for ongoing maintenance activities to continue along with occasional, modest 52 CLAM BAY NRPA MANAGEMENT PLAN(DRAFT) Pelican Bay Services Division May 30, 2014 Ver. 6.1 removal of material by dredging within a discreet area of Clam Pass in order to maintain the existing tidal regime within the system. Any changes to the submitted dredging scope or other new management initiatives will be reviewed by the PBSD Board and Collier County Commissioners before seeking any additional permit(s)which may be necessary for the modified activities. Additional investigations which may be undertaken at a later date to look at, for example, faunal investigations, more in-depth water quality concerns, or other issues that may arise as a result of Stakeholder discussions could also necessitate permitting which will have to be reviewed by the PBSD and BCC prior to any such permit applications being submitted. This Management Plan is specifically tasked to maintain the improvements and benefits already realized and to insure that the restoration success observed to date is continued. Dredging for navigation or beach renourishment will not be done. Appendix 5 contains a list of authorizations brief details related to existing and historical permits issued for the Clam Bay system. 53 CLAM BAY NRPA MANAGEMENT PLAN(DRAFT) Pelican Bay Services Division May 30, 2014 Ver. 6.1 Clam Bay NRPA Management Plan Amendments Studies within the Clam Bay Estuary as well as in other similar local ecosystems, are either ongoing or expected to occur within the asked for time frame of this document. The Management Plan is not expected to be a static document and ongoing research and data collection related to water quality; hydrographic changes in the various areas of the system; benthic community health; mangrove community health; exotic and nuisance vegetation control; and public education will be conducted and/or collected. Conclusions, recommendations, or alternative management activities that come about as a result of studies conducted outside of the scope of this Management Plan will be examined and considered by the Pelican Bay Services Division and its consultants. Those modifications that are found to be viable,pertinent and economically feasible alternatives or additions allowed under the scope of this Management Plan will be added to the Management Plan. Those changes in Management activities or new work items that are outside of the scope of the Management Plan but are considered important or practicable by the Pelican Bay Services Division and its consultants will be submitted to FDEP and USACE for consideration and inclusion into this Management Plan. 54 CLAM BAY NRPA MANAGEMENT PLAN(DRAFT) Pelican Bay Services Division May 30, 2014 Ver. 6.1 Clam Bay NRPA Management Plan Stakeholders Groups and Review Agencies Review Agencies City of Naples Collier County Natural Resources Michael R. Bauer, J.D., Ph.D. Bill Lorenz 295 Riverside Circle 2800 N Horseshoe Dr Naples, FL 34102 Naples, FL 34104 Collier County Parks and Recreation Florida Dept. of Environmental Protection Maura Kraus/Barry Williams Megan Mills 15000 Livingston Rd P.O. Box 2549 Naples,FL 34109 Fort Myers, FL 33902 Florida Fish & Wildlife Conservation Comm. Florida Fish & Wildlife Conservation Comm. Habitat& Species Conservation Div. Boating& Waterways Section 3829 Tenoroc Mine Rd 620 South Meridian St Lakeland,FL 33805 Tallahassee, FL 32399 National Marine Fisheries Service South Florida Water Management District 263 13th Avenue S Laura Layman St. Petersburg, FL 33701 2301 McGregor Blvd Fort Myers, FL 33901 U.S. Army Corps of Engineers U.S. Fish and Wildlife Service Tunis McElwain 1339 20th Street 1520 royal Palm Square Blvd, Ste 10 Vero beach, FL 32960 Fort Myers, FL 33919 Stakeholder Groups/Individuals Collier County Audubon Conservancy of Southwest Florida Brad Cornell Andrew McElwaine/Kathy Worley 1020 8th Avenue S, Ste 2 1450 Merrihue Dr Naples,FL 34102 Naples, FL 34102 Mangrove Action Group Naples Cay Association Ted Raia Brett Cohan/Edwin G. Saphar, Jr. P.O. Box 770404 40 Seagate Dr, Ste 1206 Naples, FL 34107 Naples, FL 34103 Paradise Coast Paddlers Club Pelican Bay Foundation Jay Rose James Hoppensteadt/ Suzanne Minadeo 2392 Clipper Way 6251 Pelican Bay Blvd Naples, FL 34104 Naples, FL 34108 Pelican Bay Property Owners Association Seagate Property Owners Association Bill Klauber/Ted Raia/Joanne Smith David Buser/ Sarah Wu/David Conely/ 801 Laurel Oak Dr, Ste 600 Patrick Dudasik Naples, FL 34108 P.O. Box 3093 Naples,FL 34106-3093 55 CLAM BAY NRPA MANAGEMENT PLAN(DRAFT) Pelican Bay Services Division May 30, 2014 Ver. 6.1 Sierra Club Southwest Florida Paddling Club Marcia Cravens 20991 S Tamiami Trail 6075 Pelican Bay Blvd, #703 Estero, FL 33928-2838 Naples,FL 34108 Tall Tales Bait and Tackle The Ritz-Carlton Naples 841 Vanderbilt Beach Rd 280 Vanderbilt Beach Rd Naples,FL 34108 Naples, FL 34108 The Seasons at Naples Cay Condo. Assoc. Waldorf Astoria Naples Keith Tompkins/ George E Bergeron Hunter Hansen/Donna Cox 81 Seagate Dr, #3000 475 Seagate Dr, Naples,FL 34103 Naples, FL 34103 Diane Solomon Brown & Stuart Brown Sandra J Doyle dianesolomonbrown@me.com naplespatriots@comcast.net Anne Georger Brandon Lampe ageorgerl@gmail.com brandonlampe@rocketmail.com Diane Lustig & Leon Lustig Linda Roth lustigl@embargmail.com LOR3LOR3@aol.com Missy Travis & Pat Travis Mary McLean Johnson missy.travis@gmail.com 6573 Marissa Loop #1501 ptravis@delotte.com Naples,FL 34108 56 CLAM BA YNRPA MANAGEMENT PLAN(DRAFT) Pelican Bay Services Division May 30, 2014 Ver. 6.1 APPENDIX 1 CLAM PASS MAINTENANCE DREDGING DESIGN CRITERIA Bay Tide Range The existing hydraulic monitoring program provides water level measurements at several stations within the bay system.The hydraulic monitoring data provides a record of the tidal range in the bay which is an indicator to the tidal prism or volume of water flowing through the pass at each tidal cycle. In this analysis a review of ratios of the bay tidal range to that of the gulf tide is used as the monitoring indictor to the flow through the pass. Figure 2 shows a definition sketch illustrating the tidal ranges for the gulf and bay. The bay tidal range is typically smaller than that of the gulf tide due to flow resistance through the inlet channel and shoal features. The figure also shows the locations of two of the bay tidal gages that are used in this analysis to represent the bay tide range. Figure 3 shows a plot of the annual ratios of bay to gulf tide from 1998 to date. The figure indicates that when the inlet was hydraulically stable the ratio between the bay and gulf tide was between 0.6 to 0.7 over 90% of the time. The data also show that this ratio was below 0.5 prior to 1999 dredging when the inlet was unstable and in 2012 prior to the inlet closure. Physical monitoring data analysis In addition to the hydraulic monitoring program, analysis of the physical monitoring data is used to characterize the flow areas and shoaling within the channel and flood shoal areas. The physical monitoring data includes bathymetric surveys of the inlet channel, flood shoal and ebb shoal features. The data analysis includes evaluation of the flow cross-section areas in three main sections of the dredging template, Sections A, B and C. Figure 4 shows the dredge template and the three monitoring segments. Section A represents the inlet channel, Section B represents the seaward part of the flood shoal and Section C represents the bay side part of the flood shoal. The analysis included evaluation of the cross section of flow below mean high water and volume of sand within each segment. The cross section of flow was computed at each survey station spaced approximately 50 feet apart. The average and minimum cross section areas were used as indicators of the physical condition of the flow area through each of the three segments. The cross section areas were compared to the design cross section area of 2013 dredging and the inlet conditions in 2004 and 2008. The 2008 and 2004 inlet conditions were used as a background benchmark for inlet conditions near equilibrium as the 2004 and 2008 survey were completed 2 years and 16 months following the 2002 and 2007 dredging event respectively. These conditions represent the inlet at stable conditions after the post dredging adjustment phase. Section A Inlet Channel The indicators used in this analysis were average cross section area, minimum cross section area and total volume of sand within Section A. Figure 5 shows the change of average flow cross-section area below mean high water for Section A.The figure covers the time period from January 2013 (pre-dredging conditions) to April 2014 (12 months post-dredging). The figure shows the change in cross-section area from pre-dredging conditions when the inlet was closed and its evolution immediately following dredging to 4 months, 7 months, and 12 months post dredging. The figure also shows the benchmark reference areas for the 2004 and 2008 average cross sections and the 2013 design cross section area.The data indicate that following the inlet opening in 2013 the average cross section shoaled below the design area while the inlet morphologic features were forming.After the initial adjustments the cross section area increased to above the design area and 2008 conditions, but remained below the 2004 conditions. 4 .,: .: ,,,,„,,„„- ,,,i,i3t. 4,-7.,-,:-...7r.--,,,,,-,,r,-,,,,,,tr-,::-- -,,_,.,,-. , :,,-Twir,P-., • •.4?!.tte: ,;40-lii,rak. -f%"‘,,t,',,:...j.,:f6107A.:,----4 „, . F....,;4,..i. 70 -' 7 +1.: Ni,''',. . ' .1- , .',..'4.:7',.' 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I) 6L I • oo v co 4 I Q G m C I I o O Q - N LL 0 U I l° C CI o If) I m c� I .0 VI I o IVI f) I • i U V � ( 111 ) a) ` m b L Oiv - \ I I • m it; I I m a) I I - CA U- N I I • N c-i O N O O O O O O O N o O Oft O O O s--I N.bs)MHUV moiae eaad uoi;gas sso)) Figure 6 shows the change of the minimum flow cross section area below mean high water for Section A. The figure also shows the change in minimum cross section area from pre-dredging to 12 months post dredging with comparison to the 2004 and 2008 minimum cross sections and the 2013 design cross section area. The data indicate that following the inlet opening the minimum cross section shoaled then steadily increased. The minimum cross section area remained smaller than the design cross section area, but approaches the design cross section area after 12 months. Figure 7 shows the change in total volume of sand accumulated in the dredge template since inlet opening. The figure shows that the Section A dredge template has accumulated sand within the dredge cut. It should be noted that the channel migrates and meanders within in the vicinity of the dredge cut. Thus,this indicator should not be used as a measure of critical conditions of the channel. Figure 8 shows a table of the design criteria parameters for Section A with comparisons to post dredging measurements. Recommended target values for each parameter are shown in red. Section B Flood Shoal The cross section area of flow through the flood shoal in Section B is an important indicator of the flow exchange between the bay and inlet and the flow efficiency to maintain the tidal range within the bay. Figure 9 shows the change of average flow cross section area below mean high water for Section B since inlet reopening. The figure covers the time period from January 2013 (pre-dredging conditions when the inlet was closed) to 12 months post dredging in April 2014. The figure shows how the average cross section evolved immediately following dredging to 4 months, 7 months and 12 months post dredging. The figure also shows the benchmark reference cross section areas for the 2004 and 2008 conditions and the average design template dredged in 2013.The data indicate that following the inlet opening the average cross section shoaled below the design area while the inlet morphologic features were forming. This process has continued throughout the 12 months post dredging. The cross section area remained larger than 2004 and 2008 conditions during the first 6 months post dredging then shoaled significantly in the following 6 months. The 12 months post dredging data indicate that the average cross section area within Section B became smaller than both historical benchmark conditions of 2004 and 2008. Figure 10 shows the change of the minimum flow cross section area below mean high water for Section B since inlet opening. The data indicate that following inlet opening the minimum cross section shoaled to a level similar to the 2008 conditions.After the initial post dredging adjustment the minimum cross section area of flow, the 4 month and 7 month post dredging conditions became larger than the conditions of 2004 and 2008. However, at 12 months post dredging the minimum cross section dropped below the 2004 and 2008 conditions. Figure 11 shows the change in total volume of sand accumulated in the dredge template following inlet opening.The figure shows that over 5,500 cubic yards of sand were dredged from Section B. Over the 12 months since dredging nearly 5,000 cubic yards have accumulated in Section B. The amount of material accumulated in Section B after 12 months was much greater than the 2004 and 2008 conditions. Figure 12 shows a table of the design criteria parameters for Section B with comparisons to post dredging measurements. 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N O • II rsi U I m m V) I I o c I 11 m 0 0 v 44..1 ( I —1cn co I M I Q Ii O a - N @ CD ro d O Q I ELo 1—, I . Co I W • mN to 1 o N -o I N I . c CI i I `° ro C I ._ I • m v a) 1 I• co E IIVD o I CD m II • o 0 Q I I .-I 1 I m E1 c-I Z 1 O dA 11 N Q II N r-I O N o O O O O O O .- O O O O O O r-I p O VI O O O O (AD)aleiduaal aSpaia U! uaw pas 4 tiliv MC 13 O }, D O O 0 0 0to r - 0 in O LI) ti � n r -o a) N 1-r) N N 0 a > I- 0 V Ln o Nm Lno m 0 N , O +.a 0- U V O Q) N N II y. O N L N C Lni O .cc- 0 Ln M 0100oLn Ln Ln 0 Q U G m A r-1I m d- N o U C 0 m C •1-+ u ° a) --, U 4 ) j ` % iV. VAQ O 0 � C) d1' 0 Ln Ln O NCO Ln U Q Vo n N l �LC) �0 0Lr) Ln l v .L U C bA N OA 4-1 Q1 W V1 C }' +. N 0 O (1) v) O 471U Q GJ ] U Q Q GJ +' E it b°c O co . O E E N N 1— a O_ m LO c--1 Section C Outer Flood Shoal Section C represents the outer (bay side) flood shoal area of Clam Bay which is also a junction in the Clam Bay system where flow from the north and south tributaries connects to the pass. Restriction of this area below design levels may reduce the tidal ranges in the bay system and therefore reduce tidal flow through the pass. Only part of Section C was dredged in the 2013 maintenance dredging. This analysis is presented in part based upon the dredged portion of Section C and in part based upon the entirety of Section C. Figure 13 shows the change of average flow cross section area below mean high water for the dredged portion of Section C in 2013. The figure covers the time period from January 2013 to 12 months post dredging. This illustrates pre-dredging conditions when the inlet was closed, how the average cross section evolved immediately following dredging, 4 months,7 months, and 12 months post dredging.The figure also shows the 2008 average cross section area and the design template area dredged in 2013. The data indicate that since Section C was partially dredged the average cross section remained below the 2008 conditions. The data also shows that the average cross section area in the dredged portion of Section C was similar to the 2008 conditions at 7 months post dredging and approached pre-dredging conditions at 12 months post dredging. Figure 14 shows the change of the minimum flow cross section area below mean high water for all of Section C following inlet opening. The data indicate that since Section C was partially dredged the average cross section generally remained below the 2004 and 2008 conditions. Figure 15 shows the change in total volume of sand accumulated in the dredged portion of Section C since inlet opening. The figure shows that over 2,000 cubic yards of sand were dredged from Section C. Over the 12 month period since dredging, approximately 1,500 cubic yards have accumulated in Section C. The accumulated material in the dredged portion of Section C is greater than the conditions of 2004 and 2008. Figure 16 shows the change in total volume of sand in all of Section C including the part that was not dredged in 2013. This figure illustrates the relative amount of dredging to the total volume within the template.The figure also shows the volumes within the template for 2004 and 2008 conditions. Figure 17 shows a table of the design criteria parameters for Section C with comparisons to post dredging measurements. Recommended target values for each parameter are shown in red. 17 cl H 0 N c-i N d- c O c • vz O ,�-i U cu T' O csi 1 0 Lr, ni C L , m O 1 o 4-I I b c CD to v V I $_ cLa co 0 I a) in a) 41 CN cii I 1 Q a Q O I I o 0 0 0 CV NI (NI NI C I 1I 1 0 O 4-1 I I I 1 _ N N y N Q I . N0 c\-1 Cl. 1 1 ZS 1 i mCD o taA i I N U I 1 CD 0 0 O I m a) QJ N CNI co I E co Q I 1 00a I m o o N I N O I Ln O W. Imi ca) Ln .44.) I 1n U CD I I ttO o a) y Q iI I m M ei 1 I rn M I O dA - ii I ILoN c I I -I N c-I O N O O O O O O N LID in 7Y M N r-1 i--1 (j bs)MHVd mope eaJV uomas ssoap v 0 N c\-1 N C 0 U O C 1 I . 't' OJ '-'7, O I I . IA N j `^ I • a m ' I 7 (t_--) E 7 �, ECM E E H C .in C C ON 2 o 2 IU i . m m OO .--1 ,--I O O '-i ' O O O 0 C N NJ NJ NJ O 11 11• 0 U 11 1 I I I - N U W N (l) %-1 I \-1 4— I I O m I I o v Q I1 o Io — 1 - u Ca O m CD CU I it( i o v o Icz o LL, I m LL 14— I o o I Ln I IN UD 0 C I' U +, I I CO G1 I I _ o 0 (n U O IIm E U II o N C I1 r1 I 1m r-t I Ii m i 3 i 0 NJ III.0 I 1NJ Ii1-1N O N 1 I 1 1 1 \ n O O O O O O O N O O O O O O r.1 Ls) u-) d- CO N c-1 04 bs)MHW nnolae Bait/UO gas ss0.0 0 N a-1-I N rn oo 0d- r+ o 0 0 0 0 • N N N a�-I o I I 1 1 0 C i ! 1 1 N 0 1 I UCD 1 I o LA I 1 0 I 1 O _ I I 0 O I 1N L • I I N U a 1 Im 0 +' 73 1 I o v I I I 0 Cl.) I CO CI I ! CO E CD 0 .a) •1 I oo -0 N ca oo 2I 0 1 N Q N N r I ---, c CD I IDA I CU I I m a.) 73 , 0 +ca 2 CI I !C1.0• o .1 ! a0 m 1 1 •. CO I I 0 m I ! r I 1 oN ao I I N • a\-1 0 I I N O N i Nr O O O O 00 Ln OO O in 0 O in e-.1 N N a-I r i r (AD)a;eiduaal aSpaaa ui;uawupas Cr 0 (N e\-I N cr m Co CY %-I co co O O O N N N d' • I . C I I. 0 I N I I I Co I I cr a-i I I o N I \ I I I I M O N • 1 I NINI I I I o C N I I O U I I m I C▪U I o ro Q I ! ris o ._ • ! st 1-41 00 O N ✓ I ! I m w UA I O 110 I .7:1 I Lnry 0 CU I I i I CI I 1• m •'� v o +-+ o cv CD 1 L o = I E=1 6,-I L ry WDLL O O O O O N O O N a--I (AD)a;eldwal aSpaia u!}uaumpas -..c s f \. C oa- ,_ ,c„,...- \, \ D O LL, O O O O O Otio Ls zE 0 0 O 0 0 O '�--` O d un �r1 O O h -a :-- ;- , °;a >H p V LO d' �f) I..rl °' L w . � Q b N t Q . , m C o O "' ._ o * .4_, U N IV �� C 0 1 4.i . 1— N .. .. O CO CO 0 Ltl 0 0 N�) 0 0 V G d- m OM d M M 0m E U - N a N U C0 O U C11 U N N8 1 ' CO tai VI o Ln 0 I IOQ ® CV Cr A d'' bio v a.) a) qA bA e^-1 Q) i L -o ,- 6L N c +-' M r-I O O Q a.) CI a- C Inlet Channel Length The channel length is an important factor in the inlet stability parameters. A longer inlet channel will provide greater resistance to flow. Higher flow resistance will reduce the tidal range and increase the phase lag with the gulf tide which reduces the tidal prism and flow through the pass. Figure 18 shows a selection of aerials showing Clam Pass from 2004 to 2013.The figure shows the range of channel orientation and change in channel length and beach width on both sides of the inlet during that period. Figure 19 shows a plot of the approximate channel length measured at the center line of the channel through Section A from open coast to the beginning of Section B. The plot shows the dredged channel length of approximately 250 feet. Pre-dredging conditions show a channel length of over 500 ft. The data shows the channel in Section A meandered to over 600 feet in length before the inlet closed in 2012. Figure 20 shows a table of the design criteria parameters for channel length with comparisons to post dredging measurements and mapping of the channel evolution since reopening in April 2013. The recommended target value for channel length is shown in red. A similar situation also occurs in Sections B and C. After dredging, these Sections behave as bay areas where sand may accumulate. As sand accumulates these areas become channelized. This channelization increases the overall channel length and adds to the flow resistance and attenuation of the bay range. When the flood shoal areas fill to capacity,the connection between the gulf and bay become a very long meandering channel that dissipates the tidal range and diminish the flow rate beyond critical conditions needed to keep the pass open. Such conditions existed in the late nineties and in 2012 prior to inlet closure. Maintenance dredging of Sections B and C as conducted in 1999, 2002, 2007 and partially in 2013 is necessary to keep the inlet stable. Ebb shoal The size and shape of the ebb shoal is a key factor to the stability of the inlet that supports the stability of the pass. The ebb shoal helps to keep the inlet open when facing storms and big wave events. The ebb shoal delta provides sheltering to the channel and sand bypass pathway around the inlet without filling the pass closed.The shape and volume of the ebb shoal are additional indicators of the stability of the inlet. Ebb shoal critical conditions include onshore collapse of the ebb shoal that can be indicated by significant change in ebb shoal offshore distance, volume, and increase in dry beach areas adjacent to the inlet. Figure 21 shows a table for the ebb shoal design criteria parameters and monitoring measurements since inlet opening in April 2013. Recommended target values for the ebb shoal are presented in red. 23 . 1°`` p tN m r.- N f. O L vim' N -.•. + E - o r •y� ,� �gi. 2 { z pa2paJG "� N N - 00 a . O NM- N l° a t [6 Q co v-I 0 pa2paaa N o O N O N I O 'r• y � O • I t-5'. - ro - r w x Y ,p .; _�.mfr U .y N Q U 0 N cc d E (c U 00 '-i G1 L t to N N "k '..;.1.,...4, c V 0 o dr 0 N N N N r-I c-1 F M 0 46.....4446N - -.... N c�1 CO N c-1 - OICNCC1-v0cC_CUN N bA ILN C ii. O N J CL O QCO QQLc E 73O X O w N 2 Q Ms 0 22 -1 Q O a CD '-I 01 CU i 7 0 dA O LL N Ib N In O O N dr O O O O O O O O O O O O O O O ,- I--- l0 l!1 d- M N r1 (alewixo.Idde-baa})tp.2uai lauueo °" _/..,;,„ epi Y .,.E. . . .; ` ,,.. s Q . N Q. O Q Z 7 Alb, • CD N RIN 12 .., SCS` C..x N .'E ria' drN. _,� CU r -SRC. ti N XI t Q ti _c impc J v C CU RS 0.0 117 CU 4 O O N CU Jc,i `� t CO u 0 m tin ,� ,n +., 4—' L +A N - p O O E O E O N O I H a v a U m 0- LD Q.. (RRaAVN laa3)suo±lenol3 ,RN.,,, c. ..°. V�NW .4.."4.:' Cu]rym c4--Go RRr YNfVNSIrIYST.Pi RRm.APm HHHHHIHIHI. 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I- ,C 1 y TP O N N f. ` tiA 0 -.: N an ' N -a a ,� . -0 ' Q z M xn . a , .w .; .... * 0 „ N i U) r O N _ d Co Co O 0 0 O 0 0 O - N N 'a Ps, O O O 0 00 00 I . as O C as 42 in �` N N O O no Q c a) 12 Z +' LU ((3 +-' i U 0.1 CU N U)) C a-+ 4- E to 41 et v) CU 0 O 0 0 0 O 0 0 •- 0 4-,_C te-, 0 s w m O O O O O O O 2 Ta Q _ �� O O Ln O Lfl u•1 c a O .0 W CSV 0 .�-I c�I rh-I U > a cc) N - i -O E 's w .0 c c 41 N 12 W CU a) 41 i ea O v I (ri) O dam- rn Le) E E _o N to MI C C cv� n1-1 O0 fV [V r-I ,CLI o 0 Q CU GJ s -0 -a .c +- WN v c c c +� x � a c w _ - +' 4-' .+- to V) p, C O V) N O C6 > E O cii 3 Q CO c 00 Q�1 u 0 0 0 w v Z v N ,:3 N +' ~O cn N < > O N 0 co Cl. d (f l0 r-I Z r-I 4- N m �U) CLAM BAY NRPA MANAGEMENT PLAN(DRAFT) Pelican Bay Services Division May 30, 2014 Ver. 6.1 APPENDIX 2 NATURAL COMMUNITIES Appendix 2—Natural Communities Soils Based on the National Resource Conservation Service(NRCS)"Soil Survey of Collier County Area, Florida" (NRCS, 1998)there are 2 different soil types (soil map units)present within the NRPA boundary. It is important to understand that where the soil survey shows mapping units named for soil series,the units represent the dominant undisturbed soils in that landscape that existed predevelopment. The unit descriptions do not recognize or appropriately interpret the drastically disturbed nature of urban landscapes created after the soil survey was completed. • 1 "4 �t ,V,�RS`�`••••• �,.a •' 1 e �, 14::Y" V jI 1 • `i TA w ,+ a`xa r^4 CrU:4 aka • i'� N i� 1 fir Cc,a I a*y C WO, ;c- .t? / �. �• ' ts! 4• ,�y - ".•`•"_ .4 ' 30 Y e'I ' . y il •'� 10d Figure 3:Soils map of Clam Bay NRPA Durbin and Wulfert mucks,frequently flooded(Map Unit#40), covers approximately 66%of the NRPA. These level, very poorly drained soils are most often found in association with tidal mangrove swamps. Mapped areas can consist entirely of either Durbin or Wulfert or any combination of the two soils. Individual areas are elongated and irregular in shape and range from 50 to 1000 acres. The slope is 0 to 1 percent. The permeability of the Durbin soil is rapid, and the available water capacity is high. The permeability of the Wulfert soil is rapid, and the available water capacity is moderate. The water table fluctuates with the tide and is within 12 inches of the surface most of the year. The soil is subject to tidal flooding. The natural vegetation within these areas consists of red,white and black mangroves. Canaveral-Beaches Complex (Map Unit#42) covers approximately 9 %of the NRPA. This map unit consists of the nearly level, moderately well drained Canaveral soil on low ridges and beaches. Individual areas are elongated and irregular in shape and range from 20 to 300 acres. The slope is 0 to 2 percent. Typically,beaches consist of sand mixed with shell fragments and shells and are subject to frequent wave action. The permeability of the Canaveral soil is rapid to very rapid. The available water capacity is very low. In most years,the seasonal high water table is at a depth of between 18 to 40 inches for 1 to 4 months. This soil is subject to tidal flooding under severe weather conditions. Natural vegetation consists of sea oats, seagrape, cabbage palm, and salt grasses. They are commonly invaded by exotics such as Australian pine and Brazilian pepper. Topography Topography is shown below using a Light Detecting and Ranging map (LIDAR)obtained from Collier County. The elevations within the NRPA boundary range from+5.0 to -7.0 NAVD88. The surrounding lands are generally higher than the NRPA and generate the freshwater flows into the preserve (see attached Exhibits). � C.� A ,„_ __\,.... 1 Beachwalk CIR PD c o Vanderbilt Beach RD • O N 00 0 I- 4 a T6o%ROi G .r, <� E E = Carica�RD I (• LL'''' 'Z r ,,,„,,,.23 0 o co r , Banyan RD � o i -t-I,24 o _,..• c . .f, 1 D N 0 r �p F. O zZ JO a Q N Q,p. _ N Q E genia DR if � aC�J� o � Eugenia is 90�J) �W ' igi,- 0.. -Po 0 P c0'C o) O tec -0 O ' , J' m N I , 04 OP A „, ...9y (J) A fn 0 0.15 0.3 _U m 73 ml L < g o in m 73 Legend �o N Seagate DR Pine Ridge RD oa o< ' LIDANg 23 R01 ' o Pompei LN m y Y`—'am in illiML mill 0 I o Figure 4:LIDAR map of the Clam Bay NRPA Climate Clam Bay's climate falls within the United States Department of Agriculture (USDA) subtropical classification. There are essentially two seasons experienced. The wet season occurs in the summer, and the dry season occurs in the winter. Typical rainfall and temperature data are provided in Tables 1 and 2. In the summer the center of the trade winds shift north and moisture-laden breezes blow from the east or south-east. In winter the trade winds shift southward and the winds are less constant. Weather is then more influenced by fronts advancing from the northwest. This brings cooler conditions, although temperatures rarely reach freezing, due to the fact that they are being moderated by the surrounding waters. Cold fronts are typically preceded by winds from the southwest,which clock to the west then northwest as the front passes,with strong winds of 20-25 knots and cooler air. In general terms,winds are predominantly southeast during the summer and northeast during the winter. Historical meteorology for Clam Bay is based on data collected for 30 years (from 1981 to 2010) from Naples Municipal Airport by the Florida Climate Center(NOAA&FSU). The following charts present meteorological statistics for temperature and precipitation. 1981-2010 Temperature and Precipitation Normals Graph 110.0 100.0 90.0fir=- �•�-'��-!—" �,.� 8 0.0 a -. +• . 70.0 • 60.0a a,'""� "�"` ,• 50.0 • a 40.0 30.0 20.0 10.0 ��. .�. �""wo +� „� 0.0 a.�..�. a v. Jan Mar May Jul Sep Nov O Precip (in) 0 Min Tmp (CF) 0 Avg Tmp (CF) 0 Max Tmp (a F) Table 1 Temperature The monthly average temperatures range from 64.5°F to 83.2°F. The lowest monthly minimum temperature is 54.2°F while the highest monthly maximum temperature is 91.2°F. The data reflect a humid subtropical climate with a narrow fluctuation in air temperature. Precipitation Average annual rainfall for the Naples Municipal Airport NOAA station is documented at 51.89 inches. The data in the table indicate the highest rainfall occurs during the summer months of June, July, August, and September. 1981-2010 Temperature and Precipitation Normals Graph 0 Precip(in) 0 Min Tmp(OF) 0 Avg Tmp(`F) 0 Max Tmp(`F) January 1.85 54.2 64.5 74.7 February 2.10 56.8 66.9 76.9 March 2.38 60.0 70.0 79.9 April 2.36 63.4 73.3 83.2 May 3.16 68.5 78.2 87.8 June 8.82 73.9 81.9 89.9 July 7.27 74.9 83.1 91.2 August 8.58 75.3 83.2 91.0 September 7.69 74.8 82.4 89.9 October 4.19 70.0 78.5 86.9 November 2.04 62.9 72.1 81.2 December 1.45 57.0 66.8 76.6 Table 2 Winds Winds are predominantly easterly throughout the year, but with a tendency to become northeasterly from October to April and southeasterly from May to September. Winds speeds, not including storm events are, on average, below 10 knots. During the winter months when fronts move through for a day or two at a time, winds out of the northwest to northeast may increase to about 25 knots. Sea breeze As the land surface around Naples and Clam Bay warms,the air above is heated. The warm air is less dense and tends to rise creating a lower air pressure over the land than the water. The cooler air over the water then flows inland creating a sea breeze. In the evening the reverse occurs and the cooler air over the land will flow back toward the water creating a land breeze. The incoming sea breeze acts as a lifting mechanism, resulting in the warmer air rising up to higher altitudes. This creates cumulus clouds that begin to build which leads to the development of afternoon showers and thunderstorms in the area. Storms Naples and Clam Bay specifically are within the Atlantic Tropical Cyclone basin. This basin includes much of the North Atlantic, Caribbean Sea, and the Gulf of Mexico. On average, 6 to 8 tropical storms form within this basin each year. The hurricane season lasts from June 1st to December 1st. The formation of these storms and possible intensification into mature hurricanes — takes place over warm tropical and subtropical waters. t3affir-Simpson Hurricane Scale Eventual dissipation or modification, averaging 7 to 8 days Category Wind speed Storm surge later,typically occurs over the colder waters of the North mph it Atlantic or when the storms move over land and away from ( ) (m) a156' >1a the sustaining marine environment. (a250) ('`5 711 131-155 13 u Due to the destructive nature of these storms, landfall can (210-249) (4.0-5.5) result in significant damage to upland development and 111-130 9-12 facilities from storm surge,waves, and wind. A good example Three (176-209) (2.7-3.7) of this would be Hurricane Wilma which formed in 2005. 96-110 6-8 Two (154-177) (1.8-2.4) A tropical storm is defined by maximum sustained winds from One 74-95 4-5 35-64 knots (40-74 mph). A hurricane has maximum (119-153) (1.2-1.5) Additional classifications sustained winds that exceed 64 knots (74 mph). Hurricanes Tropical 39-73 , are classified into different categories according to the Saffir- storm (63-117) (0-0.9)` Simpson scale. Hurricanes can also spawn severe weather Tropical a such as tornadoes as they move inland. depress ,.„ (0 "(0} The table below lists the number of tropical storms and hurricanes that passed through or near Naples over the past 20 seasons including 1992 through 2012 as reported by the National Oceanic and Atmospheric Administration(NOAA) Coastal Services Center and Hurricane City(www.hurricanecity.com). Analysis of the available information indicates that Naples, on average, is brushed or hit by a tropical storm or hurricane once every 2.71 years and is directly hit once every 7.05 years. Table 3 Number of Named Storms Passing through or near Naples Year #of Storms Names Strength closest to Naples 1992 1 Andrew Hurricane Cat. 3 1993 0 1994 1 Gordon Tropical Storm 1995 1 Jerry Tropical Storm 1996 0 1997 0 1998 1 Mitch Tropical Storm 1999 1 Harvey Tropical Storm 2000 1 Gordon Tropical Storm 2001 0 2002 0 2003 0 2004 1 Charley Hurricane Cat.3 2005 1 Wilma Hurricane Cat. 2 2006 0 2007 0 2008 1 Fay Tropical Storm 2009 0 2010 0 2011 0 2012 0 2013 0 Hurricane Wilma image 10%19%05 13452 GOES-il N , i An l � ii �, y ' w _ .100 4 i � LI____ - ; 1 _ me .31 Mal - 1 M �su[e ivpr//....t fC rA:1/1/_je-ee cc.11!11 2.°:, -nn -3a -ea z . , Waves Clam Pass connects the Clam Bay system to the Gulf of Mexico's tidal water fluctuations and open coast wave energy. Clam Pass is subjected to relatively low wave energy; significant wave heights in deep water commonly range between 1 to 3 feet(0.3 to 1 m). Predominant wave directions are from the northwest to west, especially during the winter months,while summer and tropical storm events include wave energy from the south and southwest. The beach material is composed of fine sand having an average median grain size of 0.2 mm. The average net sediment transport along the southwest Florida coast is approximately 30,000 to 60,000 cubic meters per year to the south. The relatively small tidal prism for Clam Bay provides a critical balance between tidal flow in and out of the inlet channel and littoral processes moving alongshore. This affects the inlet hydraulic efficiency over time, especially when littoral transport rates are high due to periods of high wave energy. The wave climate at Clam Pass was obtained from the NOAA Wave Watch III (WWIII) model. Wind and wave data were extracted at the nearest station located approximately 2 miles offshore of the Pass. The data included significant wave height,wave period and direction as well as wind direction and speed. A total of 8 years of data were extracted from the beginning of 2006 to the end of 2013. Figure 5 shows the wave/wind roses for the 8 year record. The wave and wind rose graphs show a color coded percentage of occurrence in wave height or wind speed in incremental direction bins of 12.5 degrees. The wave direction notation is to where waves are originating from,while wind direction is where it is heading. The combined annual wave rose shows that largest waves and highest frequency waves typically originate from the northwest to west direction. Because the annual wave rose does not describe seasonal variations,the wave data of 2013 were evaluated monthly and represented by wave roses to assess variations in wave energy direction. Figure 6 shows comparisons of the monthly wave roses for the 2013 data indicating the temporal variation in the incoming waves during the winter and summer months. ri .E"Ou $1QIOU lion:.Clam Past,WaW&Wind Rent-2006 to 2013 Figure 5: Wind and Wave Roses—2006-2013 &AIL WE ,m:Pem c . r . 1410.. IMO& :a Wel Clem Pass,Warr&Wind R 7013 I 1iP • .e.Figure 6: Wind and Wave Roses-2013 Natural Communities In this Section, a natural community refers to the mix of plant and animal species that form the natural basis of the Clam Bay NRPA. A combination of factors including geology, climate, hydrology, soils, and anthropogenic influences determines the specific types of plants found in any given area. These plants are a major factor in what type of animal species that may be present. The Florida Department of Transportation's Land Use, Cover and Forms Classification System (FLUCFCS 1999)has been used to identify the plant communities found within the Clam Bay NRPA. See the attached Exhibits for an overall FLUCFCS map of the Clam Bay system and the existing monitoring plots within these habitats. Table 4: List of FLUCFCS Communities within the Clam Bay NRPA FLUCFCS Community Description Upland or %of Clam Bay Code Wetland NRPA 181 Swimming Beach Upland 5.95 186 Community Recreation Facilities Upland 0.40 322 Coastal Scrub Upland 3.97 428 Cabbage Palm Hammock Upland 0.45 540 Bays (with and without direct Wetland 23.16 connection to Gulf or Ocean) 612 Mangrove Swamp Wetland 64.60 642 Saltwater Marsh Wetland 0.04 651 Tidal Flat Wetland 1.43 911 Seagrasses** Wetland 0.84** **included in the Bays (541) category Several other components of the Clam Bay NRPA ecosystem are also addressed below. These components include offshore hardbottom, oyster, and other benthic faunal communities that are not specifically addressed in the FLUCFCS classification system. Additional historical information on the Clam Bay mangrove and seagrass habitats is included as appendices to the Management Plan. FLUCFCS Code 181-Swimming Beach Beaches form when offshore sand deposits are moved landward by wave action usually during the spring and summer. Sand,which is stirred up as the wave breaks on the shore, drops out of suspension as the water moves up the beach face. Thus,the beach becomes gradually higher, wider,and steeper. In the wintertime, larger,higher energy waves associated with winter storms overflow the beach area and stir up the sand deposited earlier in the year. The sand is pulled off the beach as the wave recedes and is deposited in an offshore sand bar. If these two forces are in equilibrium,the beach area will be stable from year to year. However,naturally occurring factors, such as storm events, littoral drift(lateral movement of sand because waves approach the beach at an angle), and offshore winds,upset this equilibrium and result in the ever shifting nature of the beach environment. Dunes form because of onshore wind action on beach and sand. When wind speeds are sufficient, individual grains of sand start to roll and bounce along the surface. This windborne sand is transported landward until the wind speed drops below that needed to move the sand. Coastal vegetation is critical for slowing wind speeds and causing sand to be deposited. Landward of the highest tides,pioneer or frontal zone sites are stabilized by sand trapping action of various rhizomatous grasses and low growing shrubs that are tolerant of salt spray. Only a few plant species can tolerate the stresses of a dune environment,particularly frontal dune sites. Foredune plants must be able to survive being buried by blowing sand, sand blasting, salt spray, and saltwater flooding, drought,heat, and low nutrient supply. Coastal plants colonizing the dunes are key players in trapping windblown sand and preventing coastal erosion as the first defense against heavy winds and surge of tropical storms. Many plant species that occur on dune areas have developed specific attributes to help them survive these harsh environments. These include high growth rates, dense root systems, low profiles, and high flower and seed production rates. Species common on the beaches of the Clam Bay system include: sea oats (Uniola paniculata), seagrape(Coccoloba uvifera), and railroad vine(Ipomoea pes-caprae). There is approximately 8,675 linear feet of shoreline within the Clam Bay NRPA in three distinct segments. Contiguous beach habitat extends from the NRPA habitat both north and south along the coast. Shorebirds feed on marine invertebrates, such as coquina clams and mole crabs at the water's edge, and beaches are crucially important habitat for nesting sea turtles. This particular habitat has been monitored periodically in terms of width as part of the Collier County Beach renourishment program though no conclusive statements can be made about the floral or faunal details of the ecotone over the years. Large scale generalizations based on the annual aerial photographs can be made that the overall size, composition, and health of the habitat have remained relatively stable, and with the exception of the areas immediately adjacent to the Pass, are mostly unaffected by the status of the Pass. -i,'ty,} +t ti. /' �►i.a" 4 h. .xc *..5"-'' i L y vA. ��'pi s7 r8 -i FTZt 1{�.", �@ � a {}&.s,�, � Z�4'4'xa.-4. eiYj T�a;i 4:64 +.,f, A.C,g i M ��}�"4'4c c�' e � ,. }� :,t 1 i .�• 'oat a, .ii r Cx � '4 z(i'F,-xi E iiiiii, • • C> Y w;;xa4 i x� ''''......L$r '.- .;,.---. 41,1-411 1 ',,,'-',//41W1,,',,, ,x,r� Y r J�. } �1 • �� wr▪ %� } ,, .,;..1741.1:",. .��� �.'1,.�4Y it .Kf 4-+Y -c*T i,...'�` 1 -...,-,-*-044- Y y4.�Ra4 • `• 4-74,M ut�.�T ",�j• ' <' Q `7 ; ".guy,:"i *,'. p-T d Z=9 4, ',YON ,f';i k 1;14'l'. 4 �' 3'.,s 0 Y: tAVCA-4e,NO, * ' /#411,,,. -n • r ^ a ,.a ; t m'.axr 'g." ''r,-,-..-x..2- r 'V ' s1- - "` ' , '' t .k"'a r ,4 ?:er : .-o`t Y' - __ e - _ , � � t.,', ,.rtts f i:l. 181 -, Figure 7:Beach habitat within the NRPA Boundary FLUCFCS Code 322—Coastal Scrub Landward of the frontal (beach)zone area is the back dune zone (also often called the coastal shrub or scrub zone), a portion of the dune that is more stable, has greater organic matter,and supports less salt tolerant grasses and shrubs as well as some trees. Many of the woody species found in coastal scrub are low growing and shrubby due to low nutrient and droughty conditions of sandy soils. High winds and salt spray often prune the terminal buds of the trees and shrubs growing on the dunes and result in salt-pruned,windswept canopies. Coastal scrub is represented by a conglomeration of coastal species generally found in a narrow band between the mangrove forest and the beach areas. Species common in the coastal scrub zone of the Clam Bay system include: seagrape (Coccoloba uvifera), cabbage palm (Sabal palmetto),buttonwood(Conocarpus erectus)and Spanish bayonet(Yucca aloifolia). This is an important habitat as it helps anchor the back dune sands and provides habitat for several listed plant and animal species including the gopher tortoise(Gopherus polyphemus). See page 52 for a more complete list of plant species found in this habitat. The primary management issues of concern in the coastal scrub are gopher tortoise habitat management and exotic vegetation control. i } A Y'"..i..;:d (g �y,,y.s.00,*4 r .c , . ,i 7 _ „.,_. i.„ 1... ..,..,.,:,,,_401.1„..e.041 /& ..w \'`,4'fi...-V... -,..ct;- 1. *' 1 .4. \ -‘A. : ' i''''''i f" + ,.,r $ V; *r.V:°.ki,i':;A. ,! 7 • ,f if s ��Ij� / �, *tir r'Pit , . I:` r it, F1' j ,; ., ` '!�' 1[{ N 1(,',/(PI �1 -$ )1• ��ly, S.S3'} .1,1 '".. y(��Jj �"x' ''i41:If utt ',. , .f /� 71„dt1 'jam tide �I �i r r it �r �$. 77 ' �� +�t 3 v{ ttt�r (� pp``yyA�,pJq�� ns. X 5e *. 1 . I • TkEY' �t ' z.. tl t x{�` '� { i� r it f `A „sr s '.�fi•.,,,1‘,./ �r v e, , ..7,,,„,'f r�.% '{ f f ,.l\it,4. 4, a '- 1•.;t ,,,, �{, r 'r` t 1�°! ?v•, i,+'t r ;' Y it u r ; a 1 V w`�A,> i' 4 - 7 } lye Ni'f ' : , ( iQi i e? . '`L Liter a r , ,h V. 7 F ; f:�'t/,��': t & r $ 'E k •4 1S4?4,z r 3 ! :,� 7 + , t'. 1 ryao $ ��r;�`rff Y� R t,r yt ? w S' Vr 4 Y+ 'i eF}'4 �s�,� 'i. i s 1 5 ,'4 R y - i,os.'--.1,0911,/....,AN.�7k -.-- 41.41.-. .1,�• ” q { r a 4 K F b ±fit. J!t. . f' ''1 x `t+ to �k"i616,1 Lt l cV £ytY ,. 4 l,t t t;�,�_. ` T . ! , a, d sS+,.. i "Z. .14, r, is -AA's.2 -. (' c', a- Y ' �gg�� i''l�_ � t 1 .,'5 } C� i� � v d rt 41..3 '1�.d u. (r}}'1r w � �fd ti "i''-,.7 ., ti •1414, > 4 4 I, i L t,.� e., . ear" -4,,..., '..V •4*- �.�'�� �_ + .,: .17-,4-.=,' # y 'Z�,t. 7 �t m,1,{ ,a-�{1..' `,.0 x iI.}‘,+7 i- I � ,eh £V`« I �'' ' p 322 Figure 8:Coastal Scrub habitat within the NRPA Boundary FLUCFCS Code 428—Cabbage Palm Hammock This forested zone is composed of the more protected dune vegetation farthest from the Gulf of Mexico. The Cabbage Palm Hammock habitat is identified by the preponderance of cabbage palms(Sabal palmetto). It is generally found in pockets located between the mangrove forest and the coastal scrub zone or beach areas. Aside from the cabbage palms, seagrapes (Coccoloba uvifera), buttonwood(Conocarpus erectus), and several other hammock species, such as wax myrtle (Myrica cerifera) and myrsine (Myrsine guianensis), are common. See page 52 for a more complete list of common plant species found in this habitat. A hammock is a habitat that is densely shaded by a canopy of trees. Hammocks usually have sparse groundcover that leaves the forest floor mostly open for animals to travel through. Hammocks also provide a reprieve from the sun for animals and humans alike. In Clam Bay,this habitat is also susceptible to infestation by exotic vegetation, such as Australian pine (Casurina equisetifolia)and Brazilian pepper (Schinus terebinthifolius)which are addressed later in this Section. The primary management issues for this habitat are exotic control and preventing destructive visitor access. 6-77,-,4,,,e .yP art' *i X..r n �� n? -17..,' tti s...a.H.i?;' , s '171'. T£. 7g{3.f L r .u"s ` i q! 1,, 45+ c, .. ""n' c.. .- t �. x tC — *•, i.- .•. .1.'- iv J s,, t �.t isktti C y 9 *' .y� . 4 # ti; 34�11.11�� -1 Y ) 10'14;tf y.a + j a } # �a � r.� , 3- s '' �,M �� +,�;c� x#� '� � ma �1 viva, ^�+" ----93333'"' rpvrw.jS+r.'a +ui F r .. J '' t' ' u+ Y ' 'ir , 428 '.-_- 428 Figure 9: Cabbage Palm Hammock habitat within the NRPA Boundary FLUCFCS Code 540—Bay(with and without connection to the Gulf) The Clam Bay NRPA contains the three larger bays associated with Clam Pass(Outer, Inner, and Upper) as well as the interconnecting shallow creeks and small open water areas. Second in extent of aerial coverage within the NRPA boundary, it is the bays and interconnections which serve as the life blood of the estuary. This open water habitat serves as the basis for many other communities. Seagrass beds, oyster bars, clam beds, and other benthic communities can all be supported to varying degrees with the open waters of the bays and interconnecting creeks. As outlined below, several of these communities are present within the Clam Bay NRPA and will be considered when deciding on management activities outlined within this Management Plan. Multiple studies have indicated that the single most important thing that can be done to restore the health of the Clam Bay system is to improve the total tidal flushing capacity of the system (Tackney 1996; Lewis 1997; Wilson Miller, et al 1996;Turrell 1995). The dredging conducted within the Pass and the interconnecting creeks, as well as the hand-dug flushing cuts,have been seen as the major contributing factors to the restoration of the mangrove forest community within the system (Turrell 2008; Humiston&Moore 2003). Tidal Pass Clam Pass is the only open water connection to the Gulf of Mexico for the Clam Bay NRPA. The exchange of seawater between Clam Bay and the Gulf is critical to the ability of the estuary to export organic matter, as well as to help regulate excess salt and freshwater. It also supplies oxygen rich water from the Gulf. In the absence of surface water circulation or tidal activity, estuarine habitats, such as mangroves, can slowly die due to deleterious changes in the sediment because in the absence of oxygenated water the sediments become anaerobic or anoxic and metabolic wastes and hydrogen sulfide accumulate in the anoxic sediment(CBRMP, 1998). Tides in the Gulf of Mexico are mixed,with the norm being two high tides and two low tides experienced per day and normal amplitude(range) of approximately 2 feet. The highest tides (springs) are experienced twice per lunar month at full and new moons when the gravitational pull on the Earth's surface waters is greatest. Neap tides also occur twice per lunar month when the planetary (gravitational) influences of earth,moon and sun are perpendicular. CLAM BAY TIDAL RANGES 2.53 O x1st.CREDGENANGE; •10E90112003 RANGE 003AMCR 9 IRANGE .00.g307:00RAtt3E . .DQITOORANGE ■12.0701!01 RANGE .02.131.0501 RAME N07,01-01•01 RANGE ' I - -- —_ tomm11-1IlOIRANGE 001 M-01.02RANGE 1•04,13.-07:02RAN3 .07,12CO31'Q2RAN3E .11. 'a3RANGE R05.09 01•CORAME COM3-11'03RANGE .0210400104RANGE UE3 004. 0d'04RN4 E W 9 JO __ ▪ 0Fr0.A'05RANGE u. a ■12,01040NG 7RAE W 8.+47.10'07RANGE z 00010Atta11:08RANGE 4 IX o 1,9A ; I= ' t s tti-1f , s VO 1 O e3 iha 0.00 GULF REGISTRY SOUTI-, t ORTI UPPER Gaga Location It can be seen that the health of the mangrove forests is directly related to the efficiency of the tidal pass. Clam Pass and its associated waterway is a very dynamic creek whose location has varied over time(Turrell 1995; Tackney 1996). Because of this, it is susceptible to outside events and can periodically close, such as has happened at least six times in the last 25 years. The following aerial photographs show how the Pass and its waterway have changed over the past 60 years. 144 i . 7,. ,joii: i 0 i # CLAM ,:. .%. . - PASS JO ` ) .. ii . ` ,.: Li962 ,e ` ``, r' , [ 4 ry CLAM CLAM 'PASS ASS , 400% 4, '1973 ~1985. , A `41.' .!, ,Jr - -„, i , , 1 i , • . . „tio, -„,,,,i, CLAM `__ t t k CLAM PASS . PASS f 4 1994 ; so`` 4 I ' ::: , . 10.::---fl !ip .i '} _ i k, -,/,:,..4,;,,,,,,-.0 y ` CLAM .„rw V. L PASS ? L. 012 `. t�. ,$ Figure 10:Historic aerials of the location of Clam Pass Tidal creeks are passageways for fish and marine invertebrates between the open waters of the Gulf and the protected embayments of Clam Bay. Manatees,dolphins, and turtles may also use the Pass. Scouring action of the fast flowing tide generally prevents colonization by seagrasses and other benthic plants, and the substrate is typically sand and shell with the finer sediments carried in suspension and deposited just outside the mouth of the Pass (the ebb shoal delta)or to the interior of the system on the incoming(flood)tide. Management concerns related to the bays and associated creeks include maintaining sufficient flow through them to accomplish flushing needs of the system, stabilization of the Pass without harming other components of the NRPA, and educating recreational users of the NRPA of the need to protect the shallow water habitats and the communities located therein. a.�. \i\Ar y�1 tt P C - 1Vt 'a€ 174-P7171—.4. ,: '".;;;44 7g. 7 �yli `�t� Si :i l .fu V r , .' } ^ j., } d '..}"�• T:-.' '1 5F i1:19t,-• •:` A Y 1 . Ley X - 7 q.x,,` T ,,.,„..; ... „ ,,,_....4.... ,,,..” R # r •.cr 1 >7 ,fir s — 540 540 - 1� Figure 11: Open Water habitat within NRPA Boundary FLUCFCS Code 612—Mangrove Swamps (Forest) Mangroves are salt tolerant trees that grow in tidal areas of the tropics and are legally protected for their ecological value with such functions as: • Providing habitat for marine,terrestrial, and avian wildlife. • Protecting coastal areas from storm surges and coastal erosion. • Improving water quality by acting as a natural filter for land based freshwater run-off. • Forming the basis of a highly productive estuarine food chain which includes many commercially valuable species. • Enhancing the atmosphere by absorbing carbon dioxide and reducing greenhouse gasses. Approximately 65%of the Clam Bay NRPA is composed of the three most common mangrove species in Florida, namely red mangroves (Rhizophora mangle), black mangroves (Avicennia germinans), and white mangroves (Laguncularia racemosa). For a more complete list of common plant species found in this habitat see page 53. All three species have special biological adaptations to cope with salt and unstable,mucky, low oxygen soils that result from the tidal, hence continually waterlogged, environment. The dominance of mangroves in tidal areas is a function of these adaptations and their ability to out compete other wetland plants. Tidal flushing allows nutrients to be distributed within the forest and provides for the transportation of dead leaves,twigs, etc. As this material decays, it becomes food for marine life. It is this mangrove detritus which is consumed by the many organisms at the base of the food chain which in turn creates the next level of the food chain necessary to support the fish populations that characterize the mangrove community. Special attention has been given to the mangrove community in the past because of the die-off which occurred between 1991 and 1997 (though stress in the community was documented as far back as the late 1970's). The die-off affected black and red mangroves initially but eventually ended up encompassing some white mangroves as well. More details on the recent history of the mangrove management are provided in Appendix 3 included with this plan. Red Mangroves Red mangroves (Rhizophora mangle) are recognized by their tangle of reddish looking prop roots, long cigar shaped seedlings (propagules) and their large,pointed evergreen leaves. Red mangroves flower all year but reach maximum propagule production during the late spring and early summer months. They are typically the most seaward of the three species with the prop roots and vertical drop roots providing support. Small pores on the trunks called lenticels allow oxygen exchange via air as the waterlogged soils become rapidly oxygen depleted. Salt is excluded from the plants cells through a process called ultra-filtration roots. The characteristic propagules germinate on the parent tree and drop and float for up to a year, finally becoming heavier at one end so that when en°countering a suitable substrate they are ready to root upright. The mass of prop and drop roots forms extensive surface area under water for attachment of sessile, filter feeding marine species(such as sponges,tunicates, and mollusks) as well as hiding places for juvenile fish. Birds, butterflies, insects, and mammals find home and food within the canopy. 7 � ^4 ' % ;*$ ' iitri.`‘,"Nk 4... ; — " , ; 3. •v 1 y!'i'a ), , � �� 1►A„� 3�4%,1. r i'i*— ti., ,'4 ). ,W'' - .art ` t 4' '+:4‘ T ,,if { ; } '} `..1c4';',4,'} } • � •A' y.• ...4 �,t. rr'`�jL►a�, a 1 ,. , ' " $:' ! t y� + sem. , c � J er „_ 4.-4.'l. ' »' r _ .4_ . , - f 4, .. ' '4,.,„,.. . : ,.. ... . ... „„,4„ ,,, . , : ,_ ,.. , . ,_ . f, ii i .,,,,,_:4-, ,,c. ,i, ..,,,., .. _ ._ „. ,..... ., , 4_. c,.. ,4_,..3„. ,r „•:,:i.::::.,,,,,,,,;,,,,,,,,,,,;.„.cp,"„,•., .,, ,.4.4. n, , . . ,,-.)„, „ • ...,„ 4. , x .., '� : . .. .. `Ali if, be'• �.,.; ' Red Mangroves and Propagules (inset) Black Mangroves Black mangroves (Avicennia germinans) are typically found a little further inland. Key identification features include the snorkel like pneumatophores which radiate upwards out of the soil from the base of the trunk, a grey-black rough bark and slightly pointed, oval leaves which are silvery with salt deposits on the undersides. The pneumatophores play an important role in oxygen exchange and unlike the red mangroves, which keeps salt out of the body cells through filtration in the roots,the black mangrove excretes salt out of the backside of the leaves. They are also reliant on adequate tidal exchange but lack the supporting prop roots that typify the red mangrove. Small white flowers and lima bean shaped propagules are typically apparent during the late spring and early summer months. Black mangroves are cryptoviviparous as the embryo develops within the fruit while on the parent plant. When these propagules fall from the parent tree,they are able to float for a short period before rooting in the mucky soil. ,,i iii j t S, l 3 1 'r ' Yid :44....: a' f[ 3 j 44II 4.t. ' "t '` id.+ S ,e ,y....,/,...„,,..„ �'.j�'. `t� t'' tit i + ii - i ,..41. 4;+i r .2_P..1;,''i y*A. ' may 4?'7`�, • r 1.7 I-, ks '-r, 1 t,''''2,- ,i? tt ;M1 a- ia t l It *_;1,4 ,t- i"� t 34; 1, 7 ,; 1 f��.,t. est :Na+ t -1« 3c a x� - v 1 y y ..+ FY �, .:z.7.....4-_-:.: 4.1.teiftit k.---..- 1.-*i,,,,,„, „:„..,1 ,r ,,..z ., 1 :, , w-,rili - --_,,,„- _____ ,. t ,I. .:_ -z- t- r. t' { t cam ] t3 :'�”t 4 r. ?S.'-."1‘ , ..,t5 '-'--r-41., r. i,,f,,LZ-',fligs-is-- -,i--' 4-,,frAff- -4); ,::,,Wzr.;+5..t,"-- -1 4 3 •9� fr- r -v i 3. } Y 1 is i t-. i l',r —.,e� - �5 •,y. f ' 'F_\, . 3i - -cr. .,._ .'`N': il > ' ik" '<zi 7 4-,-* k• F a • Fi1 t y� Z. i .. _ . j' �.-'. '' a i. s,;d '' 7'64-.. +4� r V-`4.:-:::_;.'�'i 4 cam, J s- 3 A''-'\ -- Black Mangrove Pneumatophores White Mangroves White man groves(Laguncularia racemosa) are the third mangrove species and are often found further inland than the other two species, Although zonations described are typical they can frequently vary. Since they often occur in drier areas,white mangroves do not exhibit the adaptations to soft, anaerobic soil of the other species. The bark is characteristically grooved and furrowed, and leaves are oval, mid-green and leathery with two small glands on the petiole at the base of each leaf. White mangroves also flower in the spring and early summer, and the small seedlings have the shortest floating dispersal stage of the three species. White mangroves are semi-viviparous and germinate inside the fruit during the approximately five-day dispersal,but not while attached to the parent plant. . , - -.,,-,, ar ,. A 7 g J 9 i.,-,:-.. ' _ \ Igrpr, , ' - - oki ,,„ /Z- o- tw...0 . .N. -, ,-41 ---k, 0 4/ tifffr Ym + fh fP i . *** i -/ft 4 is,a / - , All, ''''41.11P , '''''''.....4%,,\ -, , impl , ''411„?,'_. _ l'. lipt s \4 am.. White Mangrove leaves and fruit The mangrove communities are composed of both riverine (along the creeks) and basin forest components. The species composition of mangroves within these two community components is very distinctive. Riverine mangrove areas are almost exclusively composed of red mangroves within the Clam Bay NRPA while all three species, along with buttonwood (Conocarpus erectus), are found in the forest component. Riverine (Creeks)Mangroves On the waterward edges of small islands and the tidal creeks,passes and estuarine waterways that make up the Clam Bay system, a fringe of red mangroves will be found growing up to 25 feet in height. This zone can be just one or two trees in depth or extend landward for some distance, depending on topography. The habitat provided by the prop roots of these red mangroves is of great importance to many fish and other aquatic organisms. Forests The majority of the Clam Bay mangrove habitat is low-lying basin forest where the dominant mangrove species varies between red,white, and black through the forest habitat. This forest community was the habitat affected by the mangrove die-off. The hand dug flushing channels were constructed throughout this community to increase the flushing capacity through tidal inundation. Associated plants within the mangrove habitat include: buttonwood(Conocarpus erectus),the succulent ground covers, saltwort(Batis maritima)and glasswort(Salicornia cervicornis), (especially where a fallen tree provides a break in the canopy and light penetration to the forest floor) and, further inland and closer to freshwater sources,the leather fern(Acrostrichum danaefolia). 13'1 - ejf F'i1 � " off � Ir nErs A + v �`�L{ f�i}iY yr x� � ; aa4. , r 1.oei • raSvIp ,+T s fiIr, �6 � v # . r9:%,' ! + t ` ry" . aS �yr '; Y' � � � 1 u ♦ iii-,-14. 7 i �Gs•4t WY° L f • 612 Figure 12:Mangrove habitat within the NRPA Boundary FLUCFCS Code 642—Salt Marsh At the interface between forested mangrove areas and the water management berm are depressional areas that have become colonized by aquatic freshwater plants, such as cattails (Typha latifolia), Carolina willow(Salix caroliniana),bulrush(Scirpus californicus),needlerush (Juncus romerianus), and leather fern(Acrostichum danaeifolium). For a more complete list of common plant species found in this habitat see page 53. Wildlife, such as otters (Lutra canadiensis), alligators (Alligator mississippiensis), various turtles, and wading birds can be commonly observed. These areas require regular maintenance to prevent the spread of nuisance and exotic plant species and ensure optimal functioning and interface between the natural mangrove forest and the water management system. 44 ) !!! � y � j •, "1 V 'i y t , � \► w= u'�Yt:;;,*1-,:'' T, ,ai ' ) Y. a .+— OS�c� ,.....,t..,„ ,,,,,,,,,,,„::,..?,..,,,,.st.rh ! f $�FY r, 0,-. 7 ,, `;cr A;-qq ,4 a x ,x0 r ' r � ,tjLr . * a 'es 1 ,, Y, .1(b it le - " _ - # . 4.'. 4.-,.` .. - 'I.ate,- ,ViJ . t ( j _ s \t� 642 ''' \ �. 0 t Figure 13:Salt Marsh habitat within the NRPA Boundary FLUCFCS Code 651 —Tidal Flats Tidal flats are flat bottomed, sub- or intertidal habitats that lack an oyster or seagrass community and are located inside the outer coastal margin. The two most significant environmental characteristics that control a flat's infauna(benthic organisms that live within the substrate) and epifauna(benthic organisms that live on the surface of the substrate)are: the height of the substrate relative to mean sea level and the sedimentary consistency of the substrate. The position relative to mean sea level dictates whether the habitat is emergent(in air) for part of a tidal cycle or how deep below the water it is. This latter characteristic controls other physical water quality measures, such as dissolved oxygen,the frequency and duration of hypoxic events, and light penetration. Firmness of the substrate affects the capacity to support an epifauna by both supporting the organism on the substrate and permitting the burrowing of the infauna. The sand and mudflats of Clam Bay are rich feeding grounds for many species of fish and wading birds. These organically rich sediments support a variety of mollusks,worms, and invertebrates that scavenge detritus or, in the case of many bivalve mollusks, extend siphons at high tide and filter vast quantities of water. Birds, such as a variety of herons, ibis, egrets, and spoonbills pick through the sediment for the invertebrate food sources. The dredging of the Pass associated with the 1998 Restoration and Management Plan resulted in an increase of exposed tidal flats within the southern portion of the system. Increased tidal range resulting from the dredging allowed more area to be periodically exposed during the tidal cycle. Some of the area that had supported seagrasses prior to the dredging work were converted into the tidal flats by the increased range and reduced phase lag. Management concerns related to the tidal flats include the templates established for the dredging,the resultant currents that could be expected as a result of dredging, and the frequency of disturbance. y�A''..71,:t4,' +iT"' -...-,,,,..,,, ...11,7,"r f�k i ...pa," yM x`v'°� w � sa.r p y 'u` ir`t�•d ."• IPA ri "'t .f � } �t�� � f{ :w * rx ' ar4 ": i J •r • 44 t P, a a,. a f x k 3 lir L .x J ! dry .a,: ,� �t •r .1', C "4- 4' j� � �„d ,.sir. ....,..,57,-L•::,,,,1,, '$? S+sr -,. SFS M S ,, \ > �' =a-w�•`'"lp� .*" x_...17 r ✓.' 4 k z>?' z ,1;•-'„..'4,.}''.,t5, k .k �,a, Y � + a�sS+s'.$ t f ,' L ; ' fl+s" u T-t,i\ '. % N4. A f} v> n+ •4'\ ,}ka;,:•` lY Ott' i R t'hf.i`,'f'�'t 2Y _...s 1 II-7 )6651 Figure 14: Tidal Flat habitat within the NRPA Boundary FLUCFCS Code 911 —Seagrass Beds Seagrasses are flowering marine plants of shallow, tropical regions. With a creeping growth form connected by horizontal rhizomes they serve to trap and anchor sediment. Both the grass blades themselves and the surface area they represent provide food and attachment for marine species. Seagrass beds are renowned for their value as nursery habitats and are legally protected. Several areas within the Clam Bay system host Seagrass beds, specifically Outer Clam Bay and waterways just inside Clam Pass (see attached Exhibts). Three species are commonly found in these Clam Bay waters: the largest turtle grass (Thalassic testudinum)with flat strap shaped leaves,the smaller shoal grass (Halodule beaudettei(fka wrightii))with narrow, flat blades and paddle grass (Halophila decepiens)with the smallest,paddle shaped leaves. Shoal grass is by far the most common though a small area of turtle grass has persisted since the original 1998 dredging. Paddle grass is much more ephemeral in nature, and diligence is required to be able to locate it during the time frames when it is present. 3'na" �<1•=`,,,-1,;, 14.'"..s.'101, 'E'Ft'€ v :.< ,r,a *"4 +�.� �a �Niess.tes.. • (lgir a 1"g . c `1 i i i.-...,,, }- F tt i < t+'' ,j'ySi�lit f t xt s s. ',S4 {� _r • rw =. o- �r+" ,x �tiH� ;-?E . iJ. t^J 1 R wi;t'ia i t� * ,v`�^Ad l..r�'f _ ' ' ;� • I ..,: • 1 t r ?1 Ow a `; 1 n R s...t s F 3 Jt 41 Y f:_ ,. 17.E rn ;,. � i l? 1 `,..r.3 �h / DIY r i 1`�.M t ',1-'-e y I Y`a} X�`�' �j�t+�t a �., ► Six f-t r[ ', ~— i.s�'t q'' ,x4 Ste43 y (41 -.. },b "a^,x- -^":0-„,`*.', '`t 6'5. + . - M - } i �"4,iiii4e i,•#',,,'', ..:4"1,/} # cv, 'k, ,,,, ,t• x`r '3'.i* ut ' Ci: / t :wa� ” _fit' ;''''.4.:1Y/4,' cwt a'" r' -',Yu'S-•' 1 I.,- ,,ill".4!-'Ir. .,. •.•:'st.:Htfil'r-A, . `"' - �� ��+y r��fd`� A '4 1 "w _ s .,x, ^ . . " ..,d....a.. f � GRASS Figure 15:Seagrass habitat within the NRPA Boundary y"4 � ja^�1'.ice' •. ' �'£i yc� :: .f'.f'. � �,�c a ,_ gs • • • Shoal grass (Halodule beaudettei) along interior channel south of Clam Pass � A Paddle grass(Halophila decepiens) in the center of Outer Clam Bay I Turtle grass (Thalassia testundinum)just south of County boardwalk in Outer Clam Bay Seagrasses rely on good light penetration to enable photosynthesis and are sensitive to reduced tidal water quality. Growing in shallow regions,they are also vulnerable to physical damage by boats. A variety of marine algae can be associated with grass species, differing in the lack of a true rooting and vascular system. Several species of both brown and green alga have been observed. Seagrass coverage in Clam Bay has varied over time but has always been found predominately in Outer Clam Bay and the waterway between this bay and Clam Pass. A 1994 Collier County report estimated seagrass coverage at approximately 10 acres. Pre-dredge surveys conducted in 1999 estimated coverage at about 5.13 acres. Annual monitoring of seagrass beds along the monitoring transects has estimated coverage from a low of approximately 1.2 acres in 2003 to the current estimate of 2.85 acres from the 2013 survey. It should be noted that the coverage estimates are taken from along the survey transects only and do not account for other scattered grasses that may be located elsewhere in the system. Management concerns related to seagrasses include direct impacts due to recreational use and potential dredging templates,turbidity and water quality concerns related to flushing(too much or too little)and stormwater inputs, and algal infestations due to nutrient increases. A history of the seagrass monitoring efforts in Clam Bay is included in the Appendix 4 attached to this report. Other Benthic Habitats Oyster Bars Oysters (Croassostrea americana)are filter-feeding bivalves, which were once common within the tidal creeks of Clam Bay(Humm and Rehm 1972). Oysters play a significant role in shaping the environment in which they live by forming a hard structure upon which an intricate biological community is built. Similar to coral reefs, oyster reefs are `biogenic' (formed by the accumulation of colonial animals) and provide structure and surface area for numerous other temporary and permanent species. Providing complex habitat structure is the most fundamental of ecosystem services that oysters provide. The structure provides a place for algae and non-mobile invertebrates to attach, as well as a place for mobile invertebrates and fishes to be protected from predators.Although the relationships between sportfish and oyster habitats are not as well studied as in other estuarine habitats, such as seagrass beds,they are considered essential fish habitat. The numerous ecosystem services provided by oysters can be summarized into three general categories: habitat provision,water quality improvement, and shoreline stabilization. Oyster reefs provide habitat to a diverse array of flora and fauna. The role of oyster habitat to the estuarine food chain is highly significant, as discussed in the previous paragraph. Through their feeding process oysters filter large quantities of water which transfers energy and material from the water column to the benthic community, subsequently reducing turbidity and water column nutrients. Through bio-deposition, nutrients are made available to the flora and fauna which comprise the complex oyster bar food web. Additionally, oyster reefs stabilize sediments, shorelines and adjacent habitats by buffering wave energy, further aiding water quality. Deteriorating conditions related to closures of Clam Pass is thought to have resulted in the disappearance of oyster bars in the system;though some re-occurrence has been observed to the south of the Pass in the last few years during seagrass transect monitoring. Oysters have been documented around the perimeter of Outer Clam Bay in past years monitoring efforts. 4 Oysters(Croassostrea americana) along the mangroves near the canoe ramp in Outer Clam Bay A 2011 benthic habitat assessment conducted by the Conservancy of Southwest Florida found living oyster clusters in the upper reaches of Upper Clam Bay(a single cluster), in the tributary between Outer and Inner Clam Bays (a single cluster), and throughout the shoreline of Outer Clam Bay. Management concerns related to oyster growth are similar to the seagrass concerns,namely protection from recreation users,water quality, and flushing. ��(�r2�, 5. ,i ----.-.2-J7',0,, ,....2.704,44:4:1,, s -- frit.', % -a1,ts \: ,fit s. { °°W4t 0,,,,f',� . i aV '+•3' a - 4":1 i rC � �1,, 'v y, *'1'l7`'Cg' r"ahY . i 2.r r4.1:1— i _ '..-A�},'i' i 'Ptt.3-'-C `4 7l �'" r� "-cr t } tli+ ' 1 .t. r S 1 .\�+� �'t'71 .c x f A.' # i'-t. . .r,' /1. #.. ..>• fi 04'..P.:1� 3 • l', ''{ it , ,„ - „,,,44-J, JiN t E 'A F APPROXIIv1Al1 L OYSTER !_()CATIONS Figure 16: Oyster locations within the NRPA boundary Other bivalve mollusks In addition to oysters,the 2011 benthic habitat assessment conducted by the Conservancy of Southwest Florida also found two other bivalves within the Clam Bay system. The pointed venus clam(Anomalocardia auberiana) and the stout razor clam(Tagelus plebeius)were both observed. Turrell, Hall &Associates, Inc. benthic surveys found several beds of southern hard clams (Mercenaria campechiensis) also present in the system. 3X u Southern hard clam (Mercenaria campechiensis) from waterway south of Clam Pass These mollusks are generally found within the shoal and tidal flat areas of the system and could be susceptible to impact during dredging or other disturbance operations. Management concerns would be protection from recreational users,water quality,flushing and dredging. E'tx Vie'.r nt�E1"_ aaxrsu +aca�® tee _E. ...wY.. fM •C pM; T-Y. F P4ist :'„t` "' ill o m K E s ,;�'�' ak 7 ..l t re# �"*��vt�ity vY Lf.. wr},,�. 0. rn E f�� t' fs,�j,,•,.; �i4.r z�, e' .a 14 t * •l1 rt9W : '!7g tW rod. 4,44.1";= S LS ... k it it lVb.W Fa �yya,6a��-�' # ry 'w p! . �1 i 11 { wiz .14 f. E 9:2i 91 Figure 17:Exhibit from Conservancy of Southwest Florida Report Tubiculous Polychaetes Tubiculous polychaetes (tube worms), are typically the most abundant biological assemblage in Clam Bay and are primarily associated with muddy and sandy substrates. Polychaetes, including worm tubes and mud tubes, shell-encrusted polychaete tubes (Polychaeta) and trumpet worm (Pectinaria gouldi)tubes are a vital component of the estuarine food web,providing key linkages between primary producers and higher trophic levels. Polychaetes create habitat and food for many organisms, such as mollusks, fish and even sea turtles. These worms are usually filter or deposit feeders that keep the substrate aerated and free of waste accumulation.Polychaetes tend to dominate Inner and Outer Clam Bays,with lower occurrences in Upper Clam Bay,the Lower Tributary, and,to a lesser extent,the Upper Tributary. Hardbottom Communities Another important marine habitat marginally associated with the estuarine system is the hard bottom reef community found just seaward of Clam Pass. In about 10-15 feet of water a variety of sponges, stony corals, gorgonians, fish and associated invertebrates can be found within a system of rocks and ledges. Outcroppings of similar habitat type occur along the length of Collier County and are a little known resource of regional significance. Hardbottom outcrop off of Clam Pass Collier County has mapped this resource through side scan sonar surveys in 2005 and 2009 as part of its beach renourishment project. The information received from the County shows that the landward edge of this habitat is located approximately 250 to 300 feet offshore from the Pass. .1'� R t4 't ivit a.,1• 3 �4 f ,'s, *4gBn� •:- 4,fi " , II s - 9...- � ti j..a ,_,Air,,,,-,,, yams lPk 1 N tY .,,*, s "*" '. 3: t' r. q\ F ,ate+,. �ti -. b' �110.1Fv �' y 1 d„ri. �x,''''''..41i1 .../ ,..' k. s - alb . a OUTER�'� -, ' . _ CLAM BAY .�ISE 5.„1::'''''' INNER - UPPER 1 CLAM BAY � r,;.,,r�� CLAM B Y �*�C" 4 ', GULF OF ,,,.„ ,......,,C1-'"' MEXICO Figure 18:Hardbottom Community off-shore of the NRPA boundary Management concerns related to this habitat include recreation use and potential turbidity impacts resulting from dredging or other management activities within Clam Bay NRPA. Invasive,Non-native and Problem Species In an ecological context, an invasive species is one that is aggressive in growth and expansion of range and tends to dominate other appropriate native species. Its establishment and dominance can cause widespread harm to an ecological system by altering the species composition, susceptibility to fire and hydrology of an area. Non-indigenous species (i.e., non-native or exotic species)are those that have been introduced purposefully or accidentally to an area outside their normal range. The characteristics of some of these species (high rate of growth/reproduction, no natural predators, easily dispersed, able to out-compete native species)make them invasive. Some indigenous species (a species whose natural range included Florida at the time of European contact circa 1500 AD or a species that has naturally expanded or changed its range to include Florida)may also become invasive. Invasions by native and non-native species often follow an alteration to ecosystem function, disruption of the food web, large-scale fragmentation of an ecosystem and/or disturbance (e.g., clearing, fire, drought, etc.) of an area. While some native species may become invasive,the establishment and dominance of non-native species is of particular concern. The exotic species documented within the NRPA and those that have a potential to occur within the NRPA are discussed in the following section. Invasive and Problem Plant Species The Florida Exotic Pest Plant Council (FLEPPC) maintains a list of exotic plants that have been documented to (1)have adverse effects on Florida's biodiversity and plant communities, (2) cause habitat loss due to infestations, and(3) impact endangered species via habitat loss and alteration. To date, 9 non-indigenous plant species have been detected within the Clam Bay NRPA which are listed by FLEPPC as Category I exotics. FLEPPC defines Category I plants as those that alter native plant communities by displacing native species, change community structures or ecological functions, or hybridize with natives. Category II plants have increased in abundance or frequency but have not yet altered Florida plant communities to the extent shown by Category I species. These definitions do not rely on the economic severity or geographic range of the problem, but rather on the documented ecological damage caused by these plants (FLEPPC 2013). FLEPPC Category 1 plants observed within the Clam Bay NRPA boundary: - Brazilian Pepper(Schinus terebinthifolius) - Melaleuca (Melaleuca quinquenervia) - Australian Pine (Casuarina equisetifolia) - Beach Naupaka(Scaevola taccada) - Earleaf Acacia(Acacia auriculifbrmis) - Shoebutton Ardisia (Ardisia elliptica) - Air Potato (Dioscorea bulbifera) - Lantana(Lantana camara) - Old World Climbing Fern (Lygodium microphyllum) FLEPPC Category II plants observed within the Clam Bay NRPA boundary: - Coconut Palm (Cocos nucifera) - Wedelia(Sphagneticola trilobata) - Oyster Plant(Tradescantia spathacea) - Mahoe (Talipariti tiliaceum) Methodology outlining the management activities that will be used to treat exotics is found in Chapter 5 of this Management Plan. Listed Species Smalltooth Sawfish (Pristis pectinata) A juvenile smalltooth sawfish was observed in 2008 in the connector creek between Inner and Outer Clam Bays. Smalltooth sawfish are found in the tropical and subtropical Atlantic Ocean. In the western Atlantic they have historically ranged from New York to Brazil, including the Gulf of Mexico and Caribbean Sea. Habitat destruction and overfishing have succeeded in eradicating the smalltooth sawfish from the majority of its former range. Consequently, it survives in small pockets throughout its current range. The last remaining population in U.S. waters is off south Florida, a small remnant of a population that once ranged from New York to Texas. This sawfish primarily occurs in estuarine and coastal habitats such as bays, lagoons, and rivers. It does at times occur in deeper waters, however, and may make crossings to offshore islands. It can tolerate freshwater. This fish is easily recognized by its flattened body and wing-like pectoral fins. The mouth is located ventrally and the eyes are positioned dorsally. The "saw" is approximately 25% of the body's total length. It is widest at the base, with teeth more broad than long, and spaced apart. The tips of the teeth are sharp, becoming blunt over time. Dorsally, it is brownish or bluish gray body with a white underside. The maximum length recorded is 24.7 feet (7.6 m); however, a length of 18 feet (5.5 m) is considered average. The average lifespan for the smalltooth sawfish is unknown. On April 1, 2003 the U.S.National Marine Fisheries Service placed the smalltooth sawfish on the Endangered Species List, making it the first marine fish species to receive protection under the Endangered Species Act. Florida has also designated critical habitat areas to further protect its habitat. Mangrove Rivulus (Rivulus marmoratus) This small fish has not been identified within the Clam Bay system in previous surveys or field work but the mangrove habitat is appropriate, and they could be present in the upper reaches of the mangrove forest. The mangrove rivulus is primarily a saltwater or brackish water species, with limited occurrence in freshwater. Within the Everglades and along Florida's west coast, this fish occurs in stagnant, seasonal ponds, and sloughs as well as in mosquito ditches within mangrove habitats. The mangrove rivulus is able to survive in moist detritus without water for up to 60 days during periods of drought, anaerobic, or high sulfide conditions. This fish can reach a maximum size of 2 inches (5 cm) in length, however it is more commonly observed at lengths between 0.4-1.5 inches (1.0-3.8 cm). The head and body are maroon to dark brown or tan, with small dark spots and speckling on the body, particularly the sides. The dorsal surface is always darker than the creamy ventral surface. The color of the body is reflective of the habitat, with light coloration in areas of light colored sediments and darker coloration in environments with dark leaf litter substrates. A large dark spot surrounded by a band of yellow is located at the upper base of the caudal fin in hermaphroditic individuals. Males lack this dark spot and have a red-orange cast to their flanks and fins. The mangrove rivulus was once listed as a threatened species in the Gulf of Mexico. However, recently additional surveys have revealed the existence of numerous populations. In Florida it has been downlisted to a species of special concern. In 1999, it was submitted by the National Marine Fisheries Service as a candidate for protection under the Endangered Species Act. As of yet, it has not been officially listed as endangered or threatened. The main threat to the survival of the mangrove rivulus is habitat degradation and destruction as well as exposure to pollutants. Disturbances that alter salinity and temperature as well as vegetation cover may also reduce naturally occurring populations. Loggerhead Sea Turtle (Caretta caretta) Loggerhead sea turtles have been documented nesting on beaches within the Clam Bay NRPA. Loggerheads are circumglobal, occurring throughout the temperate and tropical regions of the Atlantic, Pacific and Indian Oceans. They are the most abundant species of sea turtle found in the U.S. coastal waters. In the Atlantic, the loggerhead turtles range extends from Newfoundland to as far south as Argentina. During the summer, nesting occurs primarily in the subtropics. Although the major nesting concentrations in the U.S. are found from North Carolina through southwest Florida, minimal nesting occurs outside of this range westward to Texas and northward to Virginia. Adult loggerheads are known to make extensive migrations between foraging areas and nesting beaches. During non-nesting years, adult females from U.S. beaches are distributed in waters off the eastern U.S. and through the Gulf of Mexico, Bahamas, Greater Antilles, and Yucatan. Loggerheads were named for their relatively large heads,which support powerful jaws and enable them to feed on hard-shelled prey, such as whelks and conch. The top shell (carapace) is slightly heart-shaped and reddish-brown in adults and sub-adults, while the bottom shell (plastron) is generally a pale yellowish color. The neck and flippers are usually dull brown to reddish brown on top and medium to pale yellow on the sides and bottom. In the southeastern U.S., mating occurs in late March to early June and females lay eggs between late April and early September. Females lay three to five nests, and sometimes more, during a single nesting season. The eggs incubate approximately two months before hatching sometime between late June and mid-November. Loggerheads occupy three different ecosystems during their lives: beaches (terrestrial zone), water (oceanic zone), and nearshore coastal areas ("neritic" zone). Because of this,NOAA Fisheries and the U.S. Fish and Wildlife Service (USFWS) have joint jurisdiction for marine turtles, with NOAA having the lead in the marine environment and USFWS having the lead on the nesting beaches. The loggerhead turtle was first listed under the Endangered Species Act as threatened throughout its range on July 28, 1978. In September 2011,National Marine Fisheries Service (NMFS) and USFWS listed 9 Distinct Population Segments of loggerhead sea turtles under the Endangered Species Act(ESA). The population in the Northeast Atlantic Ocean Segment is listed as endangered. The agencies are currently proposing Critical Habitat designations on several areas which contain a combination of nearshore reproductive habitat, winter area, breeding areas, and migratory corridors. The Clam Bay NRPA is contained within the LOGG-N-27 segment of this proposed critical habitat area. Gopher Tortoise (Gopherus polyphemus) Gopher tortoises and their burrows are found along the coastal strand portions of the Clam Bay NRPA. The range of the tortoise includes southern portions of Alabama, South Carolina, Louisiana, Mississippi, and Georgia as well as most of Florida. Gopher tortoises are one of the few species of tortoise that dig burrows. These burrows can be up to ten feet deep and 40 feet long, and are as wide as the length of the tortoise that made it. In addition to providing the tortoise a home, it has been documented that as many as 350 other species also use the burrows including the indigo snake, Florida mouse, gopher frog, and burrowing owl. Gopher tortoises can live 40 to 60 years in the wild and average 9 to 11 inches in length. These tortoises are superb earth-movers, living in long burrows from 5 to 45 feet long and up to 10 feet deep that offer refuge from cold, heat, drought, forest fires, and predators. The burrows maintain a fairly constant temperature and humidity throughout the year and protect the gopher tortoise and other species from temperature extremes, drying out, and predators. The mating season generally runs from April through June and gestation for the eggs is between 80 and 100 days. The shell or "carapace" of the gopher tortoise is mostly brownish gray and the underside of the shell, or "plastron," is yellowish tan. Their front legs are shovel-like which helps them when digging their burrows. The gopher tortoise has been regulated in Florida since 1972 and has been fully protected since 1988. Despite the afforded protection, gopher tortoise populations throughout the state have declined. As a response to the continuing decline of the species, a new management plan was drafted and approved in September 2007 as a precursor to reclassifying the gopher tortoise from a "species of special concern"to a "threatened species." The threatened status was approved and went into effect on November 8, 2007. Piping Plover (Charadrius melodus) Piping plovers have been rarely sighted foraging or resting along the shoreline within the Clam Bay NRPA boundaries. No nesting activities have been documented within the NRPA. Piping plovers are small shorebirds approximately seven inches long with about a 19 inch wingspan. They have sandy/grey colored plumage on their backs and crown and white underparts. Breeding birds develop a single black breast band, a black bar across the forehead, bright orange legs, and bill with a black tip on the bill. During the winter, the birds lose the black bands,the legs fade to pale yellow, and the bill becomes mostly black. Piping plovers breed in three geographic regions of North America: the Atlantic Coast(which is where the Clam Bay NRPA is located), the Northern Great Plains, and the Great Lakes. Nesting in the Atlantic Coast region occurs on coastal beaches, sand flats, and bars associated with barrier islands, gently sloped and sparsely vegetated dunes, and washover areas cut into or between dunes. Plovers from all three breeding populations winter along South Atlantic, Gulf Coast, and Caribbean beaches and barrier islands, primarily on intertidal beaches with sand and/or mud flats with no or very sparse vegetation. Piping plover populations were federally listed as threatened and endangered in 1986. The Northern Great Plains and Atlantic Coast populations are threatened, and the Great Lakes population is endangered. Piping plovers are considered threatened throughout their wintering range. The highest concentration of birds reported in winter censuses are found in Texas, Louisiana, and Florida. In recent decades, piping plover populations have drastically declined as breeding habitat has been replaced with shoreline development and recreation. (USFWS). West Indian Manatee(Rivulus marmoratus) Manatees have been sighted on numerous occasions within the Clam Bay NRPA boundaries. Manatees can be found in shallow, slow moving rivers, estuaries, saltwater bays, canals, and coastal areas particularly where seagrass beds or freshwater vegetation flourish. Manatees are a migratory species. Within the U.S., they are concentrated in Florida in the winter. In summer months, they can be found as far west as Texas and as far north as Massachusetts, but summer sightings in Alabama, Georgia and South Carolina are more common. Manatees are large, gray aquatic mammals with bodies that taper to a flat,paddle-shaped tail. They have two forelimbs, called flippers, with three to four nails on each flipper. The average adult manatee is about 10 feet long and weighs between 800 and 1,200 pounds. They eat a large variety of submerged, emergent, and floating plants and can consume 10-15%of their body weight in vegetation daily. Because they are mammals, they must surface to breathe air. They rest just below the surface of the water, coming up to breathe on an average of every three to five minutes. It is believed that one calf is born every two to five years, and twins are rare. The gestation period is about a year. Mothers nurse their young for one to two years, during which time a calf remains dependent on its mother. Protections for Florida manatees were first enacted in 1893. Today, they are protected by the Florida Manatee Sanctuary Act and are federally protected by both the Marine Mammal Protection Act and the ESA. Other Species Plant Species—List based on FLUCFCS Mapping Table 5: Representative Plant Species found within the NRPA Boundary FLUCFCS Code 181 —Swimming Beach COMMON NAME SCIENTIFIC NAME Seagrape Coccoloba uvifera Sea Oats Uniola paniculata Railroad vine Ipomoea pes-caprae FLUCFCS Code 322—Coastal Scrub COMMON NAME SCIENTIFIC NAME Seagrape Coccoloba uvifera Cabbage Palm Sabal Palmetto Buttonwood Conocarpus erectus Spanish Bayonet Yucca aloifolia Saltbush Baccharis halimifolia Beach Naupaka Scaevola taccada FLUCFCS Code 428—Cabbage Palm Hammock COMMON NAME SCIENTIFIC NAME Cabbage Palm Sabal palmetto Seagrape Coccoloba uvifera Strangler Fig Ficus aurea Saffron Plum Sideroxylon celastrinum Coinvine Dalbergia ecastaphyllum Brazilian Pepper Schinus terebinthifolia Beach Naupaka Scaevola taccada FLUCFCS Code 612— Mangrove Swamps (Forest) COMMON NAME SCIENTIFIC NAME Red Mangrove Rhizophora mangle White Mangrove Laguncularia racemosa Black Mangrove Avicennia germinans Buttonwood Conocarpus erectus Leather Fern Acrostichum danaeifolium Saltwort Batis maritima FLUCFCS Code 642—Salt Marsh COMMON NAME SCIENTIFIC NAME Lance-leaf Arrowhead Sagittaria lancifolia Needlerush Juncus roemerianus Bulrush Scirpus californicus Carolina Willow Salix caroliniana Peruvian Primrosewillow Ludwigia peruviana Animal Species The following list of species has been observed within the Clam Bay NRPA and the adjacent Pelican Bay development areas. These lists are not all inclusive but represent a wide array of the species found within and adjacent to the Clam Bay NRPA habitats. Aquatic Invertebrates From Conservancy Report Table 6:Aquatic Invertebrate species found within the NRPA boundary COMMON NAME SCIENTIFIC NAME American Oyster Crassotrea virginica Brittlestar Ophiophragmus filograneus Florida Crown Conch Melongena corona Grass Cerith Bittiolum varium Heart Urchin Moira atropos Painted Venus Clam Anomalocardia auberiana Shell-encrusted tubes Stout Razor Clam Tagelus plebeius Trumpet worm tubes Pectinaria gouldi Unidentified mud tubes Unidentified worm tubes Fish Table 7: Fish species found within the NRPA boundary COMMON NAME SCIENTIFIC NAME Atlantic needlefish Strongylura marina Barracuda Sphyraena barracuda Bay anchovy Anchoa mitchilli Blacktip Shark Carcharhinus limbatus Blue crab Callinectis sapidus Cowfish Acanthostracion quadricomis Flounder Paratichthys alb!gutta Gray snapper Lutjanus griseus Great barracuda Sphyraena barracuda Gulf killifish Fundulus grandis Inshore Iizardfish Synodus foetens Killifish spp. Fundulus spp. Leatherjacket Oligoplites saurus Longnose killifish Fundulus simitis Mangrove snapper Lutjanus griseus Mullet Mugil cephalus Mutton snapper Lutjanus anatis Needlefish Strongylura marina Permit Trachinotus falcatus Pigfish Orthopristus chrysoptera Pinfish Lagodon rhomboides Pipefish Syngnathus spp. Puffer Sphoeroides parvus Sailfin molly Poecilia latipinna Sand perch Diplectrum bivittatum Scaled sardine Harengula pensacolae Sea robin Prionotus scitulus Sheepshead Archosargus probatocephal Sheepshead minnow Cyprinodon variegatus Silver jenny Eucinostomus gala Smalltooth Sawfish Pristis pectinata Snook Centropomus undecimalis Spot Leiostomus xanthurus Spotfin mojara Eucinostomus argenteus Spotted seatrout Cynoscion nebulosus Tidewater silverside Menidia peninsulae Triggerfish Batistes capriscus White grunt Haemulon plumierii Whiting Menticirrhus tittoratis Reptiles and Amphibians Table 8: Reptile and Amphibian species found within the NRPA Boundary COMMON NAME SCIENTIFIC NAME SNAKES Banded water snake Nerodia faciata faciata Black racer Coluber constrictor Common garter snake Thamnophis sirtalis Eastern coachwhip Masticophis flagellum Mangrove salt marsh water snake Nerodia clarkii Mud snake Farancia abacura Red rat snake Elaphe guttata guttata Ring-necked snake Diadophis punctatus Yellow rat snake Elaphe obsoleta LIZARDS AND CROCODILIANS American alligator Alligator mississippiensis Brown anole Anolis sagrei Brown basilisk lizard Basiliscus vittatus Cuban knight anole Anolis equestris Eastern glass lizard Ophisaurus ventralis Green anole Anolis carolinensis Southeastern five-lined skink Eumeces inexpectatus FROGS AND TOADS Cuban treefrog Osteopilus septentrionalis Eastern narrow-mouthed toad Gastrophryne carolinensis Eastern spadefoot toad Scaphiopus holbrookii Giant marine toad Rhinella marina (fka Bufo marinus) Green treefrog Hyla cinerea Oak toad Anaxyrus quercicus Southern leopard frog Lithobates sphenocephalus Southern toad Bufo terrestris Squirrel treefrog Hyla squirella TURTLES AND TORTOISES Chicken turtle Deirochelys reticularia Florida box turtle Terrapene carolina bauri Florida redbelly cooter Pseudemys nelsoni Florida snapping turtle Chelydra serpentina osceola Florida softshell turtle Apalone ferox Gopher tortoise Gopherus polyphemus Green sea turtle Chelonia mydas Loggerhead sea turtle Caretta caretta Penninsula cooter Pseudemys peninsularis Pond(yellowbelly) slider Trachemys scripta scripta Striped mud turtle Kinosternon baurii Birds Table 9: Bird species found within the NRPA Boundary COMMON NAME SCIENTIFIC NAME American avocet Recurvirostra americana American coot Fulica americana American kestrel Falco sparverius American oystercatcher Haematopus palliatus American Robin Turdus migratorius Anhinga Anhinga anhinga Bald eagle Haliaeetus leucocephalus Barred owl Strix varia Belted kingfisher Megaceryle alcyon Black skimmer Rynchops niger Black vulture Rynchops niger Black-and-white warbler Mniotilta varia Black-bellied plover Pluvialis squatarola Black-crowned night heron Nycticorax nycticorax Black-necked stilt Hiinantopus mexicanus Blue jay Cyanocitta cristata Blue-gray gnatcatcher Polioptila caerulea Boat-tailed grackle Quiscalus major Brown pelican Pelecanus occidentalis Brown thrasher Toxostoma rufum Budgerigar Melopsittacus undulatus Caspian tern Hydroprogne caspia Cattle egret Bubulcus ibis Chuck-will's-widow Caprimulgus carolinensis Common grackle Quiscalus quiscula Common ground-dove Columbina passerina Common moorhen Gallinula chloropus Common nighthawk Chordeiles minor Common snipe Gallinago gallinago Common tern Sterna hirundo Common yellowthroat Geothlypis trichas Double-crested cormorant Phalacrocorax auritus Dowitcher long-billed Limnodromus scolopaceus Dowitcher short-billed Limnodromus griseus Downy woodpecker Picoides pubescens Dunlin Calidris alpina Eastern screech owl Megascops asio Eurasian collared dove Streptopelia decaocto European starling Sturnus vulgaris Fish crow Corvus ossifragus Forster's tern Sterna forsteri Glossy ibis Plegadis falcinellus Gray catbird Dumetella carolinensis Great blue heron Ardea herodias Great crested flycatcher Myiarchus crinitus Great egret Ardea alba Great horned owl Bubo virginianus Greater yellowlegs Tringa melanoleuca Green heron Butorides virescens Green-winged teal Anas crecca Herring gull Larus argentatus Hooded merganser Lophodytes cucullatus House sparrow Passer domesticus Killdeer Charadrius vociferus Laughing gull Leucophaeus atricilla Least sandpiper Calidris minutilla Limpkin Aramus guarauna Little blue heron Egretta caerulea Loggerhead shrike Lanius ludovicianus Magnificent frigate bird Fregata maga f ceps Mangrove cuckoo Coccyzus minor Merlin Falco columbarius Mocking bird Mimus polyglottos Mottled duck Anas fi lvigula Mourning dove Zenaida macroura Muscovy duck Cairina moschata Northern cardinal Cardinalis cardinalis Northern gannet Monts bassanus Northern parula Parula americana Northern waterthrush Seiurus noveboracensis Osprey Pandion haliaetus Painted bunting Passerina ciris Palm warbler Dendroica palmarum Peregrine falcon Falco peregrinus Pied-billed grebe Podilymbus podiceps Pilleated woodpecker Dryocopus pileatus Piping plover Charadrius melodus Prairie warbler Dendroica discolor Purple gallinule Porphyrula martinica Red knot Calidris canutus Red-bellied woodpecker Melanerpes carolinus Red-breasted merganser Mergus serrator Reddish egret Egretta rifescens Red-shouldered hawk Buteo lineatus Red-tailed hawk Buteo jamaicensis Red-winged blackbird Agelaius phoeniceus Ring-billed gull Larus delawarensis Roseate spoonbill Platalea ajaja Royal tern Sterna maxima Ruby-throated hummingbird Archilochus colubris Ruddy turnstone Arenaria interpres Sanderling Calidris alba Sandwich tern Sterna sandvicensis Semipalmated plover Charadrius semipalmatus Snowy egret Egretta thula Spotted sandpiper Actitis macularia Swallow-tailed kite Elanoides forficatus Tri-colored heron Egretta tricolor Turkey vulture Cathartes aura Western sandpiper Calidris mauri White ibis Eudocimus albus White pelican Pelecanus erythrorhynchos Willet Catoptrophorus semipalmatus Wood stork Scolopax minor Yellow-bellied sapsucker Sphyrapicus varius Yellow-crowned night heron Nyctanassa violacea Yellow-rumped warbler Dendroica coronata Yellow-throated warbler Dendroica dominica Mammals Table 10: Mammal species found within the NRPA Boundary COMMON NAME SCIENTIFIC NAME Big brown bat Eptesicus fuscus Bobcat Lynx rzfus Bottle-nosed dolphin Turciops truncatus Brazilian free-tailed bat Tadarida braziliensis Coyote Canis latrans Eastern gray squirrel Sciurus carolinensis Eastern mole Scalopus aquaticus Feral domestic cat Felis catus Florida Black bear Ursus americanus foridanus Gray fox Urocyon cinereoargenteus House mouse Mus musculus Marsh rabbit Sylvilagus palustris Nine-banded armadillo Dasypus novemcinctus Raccoon Procyon lotor River otter Lutra canadensis Roof rat Rattus rattus Virginia opossum Didelphis Virginia West Indian manatee Trichechus manatus CLAM BAY NRPA MANAGEMENT PLAN(DRAFT) Pelican Bay Services Division May 30, 2014 Ver. 6.1 APPENDIX 3 RECENT HISTORY OF MANGROVE MANAGEMENT IN CLAM BAY Appendix 2 Recent History of Mangrove Management in Clam Bay According to detailed field surveys performed in the early 1970's mangrove tree densities within the Clam Bay NRPA ranged from 726 to 7,580 per acre and maximum canopy height was 39 feet. Within the black mangrove dominated basin forest west of Upper Clam Bay, 16% of the black mangrove trees were reported as dead and others as severely stressed; evidenced by a high incidence of dead limbs on trees of all sizes (Tropical Biolndustries and Gee and Jenson, 1978). Dead and stressed mangroves were again reported for Clam Bay in 1989 when David W. Crewz, a biologist with the Florida Marine Research Institute, was asked to inspect Clam Pass Park by Mary Ellen Hawkins,then a Collier County representative to the legislature (letter to Don Duden dated April 3, 1989). Mr. Crewz concluded that the "dead and stressed mangroves were caused by lack of adequate water circulation resulting from the closure of Clam Pass.... allowing toxin and salt buildup." Westinghouse Communities, Inc., employees in February 1992 noted additional mangrove die-offs, north of Clam Pass Park on the west side of Upper Clam Bay. This area was inspected by Dr. Eric Heald, a consultant to WCI, and reported to WCI in April 1992, as probably due to hypersalinity, although 1991 was an above average rainfall year. The same conclusion was reached by Robin Lewis of Lewis Environmental Services, Inc., after an inspection in May 1994. At this time the die- off area was approximately 6 acres. A widespread mortality of mangroves in Florida Bay was also reported in the summer of 1991 (Yarboro et al. 1994) and it was attributed, in part, to natural drought conditions and unusual tidal inundation patterns. After above average rainfall in the summer of 1995, The Conservancy of Southwest Florida, Inc.'s staff and residents in Pelican Bay reported additional mangrove deaths which continued through 1995 and 1996. The total area of the die-off through July 1999 was around 50 acres. The death of trees occurred around hyper saline ponds and is consistent with conditions caused by periods of excessive inundation of freshwater followed by periods of continuous dry down, particularly where the mechanism for flushing is impaired. (Lugo, et. al. 1976). During the period immediately preceding the observed die off, and during the periods following, Clam Bay received record amounts of rainfall. This rainfall, when combined with an admittedly impaired circulation system, encroaching development of the Strand community to the west, and intermittent pass closure, resulted in water levels that were high enough for a long enough period of time to adversely impact the mangroves (CBRMP 1998). Page 1 of 14 The Clam Bay Restoration and Management Plan was finalized in 1998 to address the mangrove die-off. In assessing a variety of alternatives to the restoration of Clam Bay, the original need was not so much to restore the system to a mangrove forest (although that remained the primary goal) as it was to stabilize and restore the system as a thriving natural resource. This was accomplished through the dredging of Clam Pass and portions of the interior channels within the system, as well as construction of a network of hand- dug flushing channels throughout the original die-off area and a few other areas that were exhibiting stress. It was recognized that with changes to naturally induced flushing rates and hydrological regimes the mangroves would likely adjust by altering zonation patterns, species compositions, rates of growth and mortality, etc. (CBRMP 1998). Summary of annual monitoring since the implementation of the CBRMP Provided below is a brief, annual summary of the overall health of the Clam Bay mangrove system. This recent history of the mangrove management spans from 1999 to 2013. These summaries include key events, such as major weather occurrences, flushing channel construction and maintenance, as well as documentation of areas of improvement and calculations of die-off acreages. 1999 A total estimate of 42.67 acres dead or stressed mangroves was provided by Turrell, Hall & Associates, Inc. consisting of the main basin area adjacent to The Strand and several, smaller, discrete areas possibly attributed to lightning strikes or where slight depressional areas allow ponding and salinity/oxygen stress. Little change was noted later in the summer at the time-zero survey although most mangrove plots showed significant standing water which could be a function of the dredging work as well as tides and rains around the survey time. a . .;:t7...;-7-,i`,7„"-.?:' ! tniy x?: , .. win-'''' ',,V,ii w2l'.' V '' A < p , PV j ''' 'f Z4' � 'ti. ' 7 .4,,',.,,r 91'•, ,y.l• • . iy } .�„ „4",114.41=,,,„....., Kj .:-..gte, 4e34r4 � } J "AN-t,k.• F' Rt AyyTam� ; `fif ,i, * tt * SS , 4 ,1 �4k� f.. +T1,..1---?4, iii41i41 ',/ -10 r G " *4; / 4 ,-, , s 1. The main die-off area(NW Clam Bay, adjacent to The Strand) 1999 Page 2 of 14 2000 A full year after the dredging work, no dramatic changes were apparent, some mangrove plots had declined; others appeared in slightly better health. Seedling recruitment was good throughout. Heavy rains in late 1999 were thought to have contributed to a dieback in groundcover noted by Lewis Environmental Services. No new mangrove die-offs or expansion of stressed areas were noted. Work planned for 2001 included the experimental Riley encasement method for mangrove propagules. x` xj 3' � Fri id { �'i � _, Main die-off area 2000 ;, t 1 ,1'�/1� t,4. a= 1 ,‘ �l {y(, +� 1('''';‘';" �„tr4 1{ ; "' *-.711 i • i 4. 5y�. L•�c`l,1.• .� 4 4 T'i `f�1'3 ` y,:i .1 t .'�f,..t'„ ° w ` 1' }>`` i " ) ., `� �I his#*�C. , 1. t' �r . ! Y ' }}' 1 l k! s i'"' VI;1/11/. 't } ; tt ,1 t).1 i ir1 t , - a ."qtr s � i 7 r lgio,t ( ;'yh et. 'P14 �~hr i�M S*! }.�'S'� �.t1, `d t r'rY ^,r *" *1 '.V'V _. it:4"1` ,.find. I. i t �, +� + F � a Riley encasements and flushing cut Page 3 of 14 2001 Mapping of the die-off area was repeated and estimated to have increased in size, spreading to the north, to encompass just under 50 acres. Additionally a few new stressed areas were identified through aerial photographs. Individual plots showed some additional tree losses but consistent seedling recruitment. Channel construction in the main die-off area and close to Plot 7 is thought to have contributed to the recovery process underway, illustrated by extensive Batis and dramatic seedling recruitment. The observations generated sufficient concern amongst project managers in 2001 that a suggestion for additional flushing channel construction in the die off area was made. ' a y�'gtir" $$ �P , V.15-,314?-1.,‘11.1 . # �. 'iC' ? a :3rr-a' ifie -- .4.'`r'44,'::' ,,.4".,-5,.' !` ; . 74 °r ` "1: l'or _ � __ I. " u' . -: .''' -113, '-'?..:*-4,°,'Ir47;it, .,,,'f.k._,I,,,:ir.. ._-„,... ,...„2., ro-4';',..',...14W:-- � 5.f'xj t �� V 9�� F a 'i-f.-.1.:;:',7„1,,,I.,1.._,,,,,4‘..1. W d a F t g� i'5 F >•':'. a t 'y$'.¢ .F.f i i j` cy .sem X . F• ., a a, $a' .... ; Vri:! ! Yµ i' ... :•est;` " i` 3'*" ,11 a ,; ,s,2, :» g• .,,A7t�43 at, ',..k-t.,,.;sF,,tit "f 4E/,iet*' 4¢3 ,-irt4'� 3' i, ' `f ;1=1;14!'4 � Ft Y. r i ala` , I kp'" e+ '''". �r rt�...."&74,-'k' .Y, .1;44''� �^'z; S1" A X S;' c i t�,e Main die-off area 2001 Page 4 of 14 2002 Additional flushing channels were constructed in the die-off area during late 2001 and results from the 2002 surveys show that these efforts appeared to have been successful with a reduction of 12 acres made in the die-off area. Batis growth and seedling recruitment was good. The problem of exotic vegetation growth in many areas was highlighted, and two new diffuse areas of stressed trees were identified. The presence of standing water and bacterial mats suggested lack of flushing was responsible. The one- way culverts installed at Seagate, thought to have reduced tidal exchange in Outer Clam Bay, were removed in October to determine whether tidal exchange between Venetian Lagoon and Outer Clam Bay could be achieved without affecting Clam Pass. at, „moor ael Main die-off area 2002 with notable re-growth Page 5of14 2003 Stressed areas identified in 2002 were revisited, and no changes were noted in 2003. One of the aerially depicted mangrove stress locations was found, upon groundtruthing, to actually be an infestation of exotic plant species. Of significance is a reduction in calculated die-off area to just over 17 acres total with 14 acres in this main die-off region, now classified as recovering. Main die-off area 2003 Page 6 of 14 2004 Die-off acreage was estimated at 18 acres total in 2004, with the addition of a new area adjacent to the Contessa condominium building in Bay Colony and several new small lightning strike areas throughout the system. Plot 7 continues to show the most dramatic change of mangrove plots where most exhibit slow change in existing tree number, some losses, some growth and size-class change, but consistent seedling recruitment. Storm events in 2004 (Charlie, Frances, Ivan, and Jeanne) had minimal effects with some leaf loss and limb breakage. Additional flushing channels were constructed during dry season of this year. Water level monitors put in place last year were removed due to repeated equipment failures. ,- '''l 4 y 'f. iwe; J.J0 N.y�am,,� ,J „t♦� q�+- } , d • _ 4X! �5 wee 6_u • tu. ./ %4 4- / x 'r'''' it r, c... HsesY om�3, l . , .,,k4i)... YY 1 Cf ' I ��7 t� ft • /. sty r� b tu ! `.� ;'...„4.*,-. -+ si � 1r.5 --'.T -�. ;Apt ` il�•F ..�f�]. it i -..f.''---.• a � 1F r ie. 1 if "le . • rt{ t �t yr " w' �' iN-4t. ' , -- :. ' � rf ( 1 .5.4,!,/ i,; j .: r1. '+P '..f 74t::' �,(}((}a``` ryl p ' r}r' �' ilip.4 .,�F'2.1 r ,,,4l' 6 {1•'. +y-. 54.' 1l !.4',!'.4-t, . l..'' ,tea , irt ' f t"..`. ' "'£ . +.rS�•. ,, Main die-off area 2004 Page 7 of 14 2005 Several stressed areas were noted as recovering this year including that adjacent to the Contessa building where a drainage channel was in need of maintenance and clearing, work which alleviated the problems. A new die-off area was identified near the County boardwalk and it is suggested that clogging of channels due to Hurricane Charley may be responsible. Total die-off acreage in 2005 is estimated at 24.7 acres. Plot 7 and Plot 8 continue to show significant re-growth. Hurricane Wilma in October of 2005 caused considerable leaf loss, limb breakage and leaf browning throughout Clam Bay although the constructed flushing channels alleviated extensive ponding that could have occurred, and the system weathered the storm well. Work completed in 2005 included the last component in flushing channel construction. In total, approximately 13 miles worth of had-dug channels has been installed since 1999. „Il :4 • ,` Main die-off area 2005 Page 8 of 14 2006 Stress damage from the 2005 hurricane season necessitated the need for a division of the classification system currently used to define the status of the mangroves in the system. Stressed mangrove zones are now classified as "die-off area" for mangroves stressed by some factor other than storm events or"area of concern"for mangroves stressed by storm events. It was estimated in 2006 there were 23 acres of recovery, 12.3 acres of stressed areas of concern and 23.4 acres of die-off area present, bringing the total area of stressed mangroves to 74.7 acres. Since the last mangrove channels were dug in 2004 and dredging work continues when needed, most of the monitoring plots have shown improvements and there has been a significant reduction of die-off in the original locale. k � z� � � '�, x.4" -- -V. .-. a—« e 1 4 r ,-'z' ,, i `y V. max' ` C14"'-':;') d`Me`E 3 $ 4 ' +_ y r y. �.• b efr " L Pz v '?}�# �5 Sq A �n. yrx;.:�.. 4 , 1 F - mow, .Iry.t t oar, -C* Yt r k Main die-off area 2006 Page 9 of 14 2007 The storm damage of 2005 added a level of difficulty to subsequent classification of areas within the system. Extensive defoliation and falling of individual trees meant that areas that could be termed stressed by the flow issues thought to have been responsible for the original die-off in Clam Bay were in fact affected by the high winds and storm surge. Approximately 4.9 acres of formerly classified `die off' area have been reclassified to `recovered' this year. Stressed areas of concern that are likely not related to storm damage total about 15 acres while areas of concern that we suspect are due to the storm events have been estimated at about 25 acres. An additional 20 acres within the original die off area has not yet fully recovered and so is also included in this category. A total of 10.6 acres of mangroves are still considered dead, a significant reduction from the original die-off of over 50 acres in the late 1990's. This brings the total aerial estimate of mangroves that are not at optimum health to about 70 acres. t : tow, : v u Main die-off area 2007 Page 10 of 14 2008 The 2008 monitoring report was the final report associated with the original 1998 restoration permits. Effects of the storms form 2005 still added a level of difficulty to the classification of areas within the system. While the defoliation associated with the storms had mostly recovered, falling debris affected several of the monitoring plots throughout the system. Approximately 35.4 acres of forest area have been removed from the die-off classification since the implementation of the project. Stressed areas of concern that may still be related to storm damage total or may be due to other factors (such as ponding or drying) add up to about 7.1 acres. Areas throughout the system that have not yet fully recovered but that have flushing channels and have shown marked increases in mangrove recruitment and new growth have been removed from this category(approx. 20 acres). A total of 7.3 acres of mangroves are still considered dead. This includes three main areas, the initial die-off area east of the strand where there are about 5.5 acres still dead, the damage from a tornado in the extreme north of the system accounts for about 0.8 acres, and the Hurricane Charley damage that resulted in a tidal restriction just south of the Pass accounts for about 0.75 acres. Several lightening strikes and small discrete die- offs spread throughout the estuary make up the remainder of the die-off acreage. , �_�, � -. Y {nl F I P v YY I Ill 7`'. € a••� 'R: .,, ,i,.0,,±.,,-1...1,,,,-,4...01? xt r ti 7 *'.',' s ,...,-,...-k, 6a r 4', t:9, $'t gars.. a r� kik ri, `* 'Ti sl''.1':14, r s Vel. t 0 t ' "*- 7'a r$;q r P 1-` ri, r s 4 �d' *fit r :,-C ' t '�S. S'ar d.zaeR '6-46 s ,�, •A rti'&E East of the Strand Die-off area,2008 Page 11 of 14 2010 Even though the permit requirement for monitoring reports ended with the expiration of the 1998 permits, the PBS continued to monitor the mangrove health within Clam Bay and document the positive results within the mangrove forest. Exotic eradication activities were also continued to allow for natural regeneration of mangroves observed elsewhere in the system. Construction of the last component of the flushing channels was completed inl the 2005- 06 season. Inspection of these flushing cuts this year showed that they are still operating as designed and are contributing to the continued growth of new mangroves within the system. Stress in mangrove forest areas is still apparent, although in several areas this may still ble attributable to storm damage or to frost damage brought about by a couple of very cold temperature nights. The spectacular recruitment of white mangrove seedlings, now 8 to 10 feet tall saplings, throughout the original die-off area is testament to the efforts undertaken with the initial dredging and that work can be considered a success. s-74"*„. . : a.;. 7{ .t v £, c r s +1.11e'KK} !,,:t1111.,':i.7a"3h e P x y a � s '- ir " , fi , p�w .,,to *� .': A; e' r • Y La% ,t; Main die-off area 2010 Page 12 of 14 2011 -2012 An infestation of boring beetles was discovered in the early months of 2011. Observations within the system and research into the life habits of many boring beetles led to the conclusion that white mangroves stressed by the sustained cold temperatures in December 2010 and January 2011 were most susceptible to the beetle attack. Cold stress reduced the abilities of these trees to fight off the boring activities and many trees succumbed to them. Yellowing leaves, leaf drop, and eventual death of the tree was the result. The dead trees were easily visible in the rooftop photos taken periodically from the Grosvenor and Montenero condominiums. Efforts to hatch beetle larva led to the identification of at least two species, around-headed (Longhorned beetles) and aflat-headed borer (Metallic beetles). No further loss of trees was documented after 2012 as a result of the borers.+' 1;,1 ',�s t ri a 7. yrs '. , 3ig,-�"�4>< it r .,d ', wi '''.1-''' x '�Fs ? r ;'Arf)W45yryT y1' I L R 5, ,y� > '' } '' x6. ': 3 !i >` ✓ At:' White Mangroves affected by cold and borers ,., k1 t s fit,, ; tJ # k43 IV rsx4 Y..y�. .a �� 4 fo, # ". • li., °S ,~ t4f $ 4 % ,. <c - , . ' e tt~ . t t 1, .., , rr, , ..., , - :.\ ;:i..,. .,.:,.:‘,.04...„.t.41, ,,,,, , ...t.,.. , Borer damage to stressed tree Page 13 of 14 2013 The lack of harsh weather occurrences, hurricanes or freezing temperatures over the past year seems to have allowed the areas impacted by the boring beetles to begin to recover. A total of 4.02 acres of mangroves are still considered dead or stressed, a significant reduction from the original die-off of over 50 acres in the late 1990's. Typical flushing channel maintenance was conducted to ensure that the channels were operating as designed and continue contributing to the growth of new mangroves within the system. lY i' ry '''';t 3 S.n Y — ..# ;. d., '`.alt .- 4 ',.,. .1.„ N t 111. ,,",V:V;ItIr '''..''''' e.',41,; 10`'.q.! ;4 ' g'''' w tj ic g1 ; t' r _TF r J °y {titYi4 � - 44,, cv7 J�. ;I.. ' :' "'+13( - t. ' i , f`," ° S.".t� !`�s:-'0 = fC .�X 47'.4:0 .' ' it'', y: y� 1y k-e". r :3. 1.1 f\ s 32A+13 Main die-off area 2013 Page 14 of 14 CLAM BAY NRPA MANAGEMENT PLAN(DRAFT) Pelican Bay Services Division May 30, 2014 Ver. 6.1 APPENDIX 4 RECENT HISTORY OF SEAGRASS PRESENCE IN CLAM BAY Appendix 3 Recent History of Seagrass presence in Clam Bay Reports of field surveys from the early to mid 1970's document the presence of seagrasses within the Clam Bay NRPA but do not give any estimation of coverage or densities within the system. It is noted that seagrasses are present only in Outer Clam Bay, and there is some hypothesizing that the lack of seagrasses in Inner and Upper Clam Bays is the result of lower salinity levels and lack of water exchange with the Gulf. (Heald, 1972, Tropical BioIndustries and Gee and Jenson, 1978). The Collier County Department of Natural Resources produced an analysis of the seagrasses and benthic infauna in Clam Bay in 1987. In this report it is stated that a 15m x 15m plot encompassed most of the grass beds in Clam Bay. The report exhibits show the plot location on the east side of the waterway between the Pass and Outer Clam Bay, much in the same location of seagrass beds which exist today. A DNR memorandum produced by David Crews in 1989 also mentions "some seagrass and algal beds" being present in Outer Clam Bay but again offers no information on location, aerial extent, or densities. The 1991 Collier County Seagrass Protection Plan states that "Outer Clam Bay contains one of the densest and most extensive seagrass beds in Collier County," though it does not quantify aerial extent or density within the report. An exhibit associated with the report shows the entirety of Outer Clam Bay from the Pass to the Seagate culverts as seagrasses (almost 60 acres). A 1994 report documenting conditions in the proposed Clam Bay Natural Resources Protection Area by the Collier County Environmental Services Division documented that seagrass coverage in Outer Clam Bay was approximately 10 acres. Based on anecdotal information and on comparisons with other seagrass areas in the County during the same time frame, it is not presumed probable that there was an 80% decline in seagrass coverage during those two years but instead the 1992 report may have over-estimated the coverage. In 2007, PBS&J conducted a seagrass assessment in Outer Clam Bay for the Collier County Coastal Zone Management Department. Of the 30 randomly selected sampling sites observed, seagrasses were found in 13 of them. No conversion to an acreage estimate was made in this report. At the locations where seagrasses were observed,the estimated density relative to bottom coverage was between 5 and 25 percent. Page 1 of 7 Annual Estimates of Seagrass Coverage since implementation of CBRMP The following annual summaries provide general observations of the presence of seagrasses within Outer Clam Bay since the implementation of the Clam Bay Restoration and Management Plan. .„,,,,:i.,,,-;-L.. YV Cn I a xS i J 1 i'h `£ Y i ; • ' .,‘ r 'X s z' t. fi , n, , S.t. .� 7.._-a4 s.�1 , ti ,tet,, ..14,.,,....t...,‘v i - , 3, •{ -i t, + yr �� .4iY.i7 sYa�y, yasa s 'F'T ''4w ,.. { �`$iwv2 �' ° . `;,r z', :44. .�+yam q `.'1K - $• ly "v{# L..� " �r▪P S i [-` ,44r �'' 1LL@ `f �S c t '� s ,,�, *q'i i ''' " r''''N: ', 1 id',, ,• Al: '.!-A 1;kt,1 t o v+ �+i r 3 y x s e .- ' � i �. '�"jT Cert x.:�e�i'S:.a.w��' ,�a •.( `'.I Approximation of 1994 Seagrass Coverage Page 2 of 7 1999 Prior to the initial dredging associated with the 1998 restoration and Management Plan, seagrass acreage is estimated at 5.13 acres, restricted to Outer Clam Bay and the channel leading to Clam Pass. SEAGRASSESAPPROX.513 .e , A-- r ror rt.": , gy p„ Alt! 11* ? 4t L � yhye .°.. 4( ' `� ‘)L1:;1 L1,• ,A 7 t::r 4. .e._ Y. _Ott :..[ _' s:.\°Rc. ,ala.. .::G 1,--z 14::S s_... 1999 Seagrass Coverage 2000—2004 Seagrasses show a slow decline during this time frame. Water quality testing within the system does not indicate chronic degradation. The decline is attributed to the increased tidal range caused by the dredging work, which results in longer exposure at low tides of the shallow areas where seagrasses were present. The one-way culverts installed at Seagate, thought to have reduced tidal exchange in Outer Clam Bay, were removed in October 2002 to determine whether tidal exchange between Venetian Lagoon and Outer Clam Bay could be achieved without affecting Clam Pass. Seagrass bed in southernmost portion of Outer Clam Bay begins to expand in 2003 after removal of flap gates. Page 3 of 7 2005 An increase in the seagrass coverage within the channel transects was documented. Increased density of the beds within the bay area east of Clam Pass is also noted. 2006 Shoal grass patches are still present in ecologically significant densities within the channel north of the County boardwalk and just inside Clam Pass mouth. Sea grass beds in Outer Clam Bay are still reduced compared to the 1999 pre-dredge conditions, but their steady improvement since 2004 seems to have continued into 2006. Approximately 3.6 acres of seagrasses are noted along the transects. SEAGRASSESAPPROX 362,AC t y fi I J/ k - ,,yv �•...C c '.:,,,,:iti plc ' -, 1,-;!-A , c � ..,z0-1 "� r, Vt.:- ,, Iii.. �s`�.-*k .. _<�'' ,--.,„,4":".. t LA r y ,-',...}t°, ! A 0, : , ' _yea ..%, Z 4 ' 4"4 .. c.„4,-,,i- R ..)f---'t:„l-r.y sig v 'k t,►r i ,,r,,.:R! :.,4 a. k a .`''-`71,-F, ?.r7'�•?zi `CS F... M `rf } yNi °,. ''''''`' 2006 Seagrass Coverage Page 4 of 7 2007 Concerns related to the seagrass coverage within the bay were raised by adjacent property owners this year, and Collier County contracted an additional study by Post, Buckley, Schuh, & Jernigan Inc. (PBS&J) to investigate seagrasses and nutrient inputs within not only the Clam Bay System but also Venetian Bay, Moorings Bay and the entire Doctors Pass area. Some of the results of the PBS&J study relevant to the Clam Bay System were; • That seagrasses were present within Outer Clam Bay. Paddle Grass (Halophila engelmannii) was observed at 13 of the 30 randomly generated points within Outer Clam Bay. • That residents' concerns that seagrass coverage had declined from 60+ acres to present were unfounded as early estimates of 60+acres were likely erroneous. • That nutrient and chlorophyll-a levels within Outer Clam Bay had increased over the past 20 years but were still below median values for Florida estuaries. Also as a result of these increased concerns regarding seagrasses, Turrell, Hall & Associates expanded the annual seagrass survey to cover the entire bay and not just the defined transects. Additional seagrass beds and macroalgae were observed in areas where they had not previously been documented. Though all of THA observations were of shoal grass, it was noted that all of the PBS&J observations were of paddle grass. It has been observed in the past that paddle grass is very ephemeral in this system and it is likely that the 2 months between the PBS&J and the THA surveys was enough time for the paddle grass to disappear. 2008 This was the final monitoring event of the seagrasses associated with the 1998 Restoration and Management Plan permits. Increases in seagrass coverage that were noted in 2007 continued through this year. A small area of paddle grass was observed along Transect #2 which had been devoid of grasses in the past. Other transect areas that have been devoid of grasses until this year include the western shoreline of the channel between Clam Pass and Outer Clam Bay (Transect 5). Seagrasses had been present along this area prior to the dredging but were replaced by black mangrove propagules when the increased tidal range led to extended drying times of the shoals where the grasses had been located. New grasses this year have been observed along the edges of the channel in areas that do not dry out so much during low tides. In addition to the seagrasses, other observation made along transects indicate that the biological diversity of the macro-invertebrate fauna within the system has increased. Page 5 of 7 Several mollusk species, including Florida horse conchs, southern hard clams, stiff pen shells,tulip snails, cockles, oysters, and several others were all observed. 2012 Seagrass coverage within Outer Clam Bay has continued to increase. The initial decline noted immediately following the initial (1999) dredging activities appears to have been reversed over the past 8 years. The decrease stabilized around 2004 and has reversed in the past few years to where the grass beds are re-establishing previous areas and new areas appropriate for the grasses (in terms of water depths and light penetration)are being colonized. Approximately 4.27 acres of seagrasses were noted within the system this year. Most of the seagrass observed was shoal grass though small patches of paddle grass and turtle grass were also observed. Future monitoring of the seagrasses will be conducted to see if this trend continues. .- 's SEAGRASSES APPROX.4.27 AC. • �� u. ''''.4-- tY'F e r'' '114 #:'': •_ L�•� +r'+ „ �i � "•�' • � f;lp4. 41 .it • Ic f .:, 4 ,11 f 4 `' 4 ' •0. � � r sr $► iY+ g 2012 Seagrass Coverage Page 6 of 7 2013 Seagrass coverage overall totaled approximately 2.85 acres along the monitored transects within the Clam Bay system. What has been shown by the past thirteen years monitoring is that there was a decrease in the monitored seagrass beds immediately following the initial (1999) dredging activities. This decrease appears to have stabilized around 2004 or 2005 and has reversed in the past few years to where the grass beds are re-establishing previous areas and new areas appropriate for the grasses (in terms of water depths and light penetration) are being colonized. Future monitoring of the seagrasses will be conducted to see if this trend continues. a., _ate 0/0110000 .. i ;in, -` -111:-"•-• '. a' i4 t 1.J' A >, 1 t y ryf A ilit*4: '�1r � ..� „Iti T � � i' r., i i e�$. mh .. -, 1:-:its.: ,..-*„..'i ,--,,-:;4.1.;--_i. -; „.-'1 .,?,t 1 '4 ,',4,izit•ge4ilit,411.r. 'N/f4.4;,1 141 -J 2013 Seagrass Coverage Page 7 of 7 CLAM BAY NRPA MANAGEMENT PLAN(DRAFT) Pelican Bay Services Division May 30, 2014 Ver. 6.1 APPENDIX 5 LIST OF PERMITS FOR WORK UNDERTAKEN IN AND AROUND THE CLAM BAY NRPA Appendix 5 — List of Permits for Work Undertaken in and around the Clam Bay NRPA Permit Details South Florida Water Management District Surface Water Permit No.: 11-00065-S Date of Issue: August 10, 1978 Expiration Date: Operational phase doesn't expire Project Description: To construct and operate water management systems l and 2 serving 539 acres of residential lands discharging by westerly sheet flow to Inner, Outer, and Upper Clam Bays. Department of Environmental Regulation Construction Permit/Certification No.: 11-50-3769 Date of Issue: May 23, 1979 Expiration Date: May 15, 1984 Project Description: To provide construction sites for residential development in a planned community by: placing approximately 700,000 cy of clean upland fill material onto approximately 94 plus acres of submerged lands of waters of the state landward of the line of mean high water. Department of the Army Corps of Engineers Permit No.: 00754929 Date of Issue: November 18, 1981 Expiration Date:November 18, 1984 Project Description: This permitted the filling of 75±acres of mangrove wetlands north,east,and west of Upper Clam Bay and south of Vanderbilt Beach Road. Department of Environmental Regulation Modification Permit No.: 11-50-3769 Date of Issue: December 23, 1981 Expiration Date:November 18, 1986 Project Description: This modification extended the expiration date of the permit to November 18, 1986. Department of the Army Corps of Engineers Permit No.: 79K-0282 Date of Issue: August 2, 1983 Expiration Date: November 18, 1986 Project Description: This was an extension of the permit authorizing the filling of 75±acres of mangrove wetlands north, east, and west of Upper Clam Bay and south of Vanderbilt Beach Road, plus approximately 2 acres of mangroves at the existing Collier County beach access at Vanderbilt Beach Road. The request was reviewed, and no objections were raised to the proposed work schedule;therefore, the completion date of the permit was extended for 2 years until November 18, 1986. South Florida Water Management Plan Modification of Surface Water Management Permit No.: 11- 00065-S Date of Issue: December 15, 1983 Expiration Date: Operational phase doesn't expire Project Description: Approved modifications to 1.)Revise system V, drainage area 3; 2.) Construction and operation of water management system number VI. Department of Environmental Regulation Permit/Certification No.: 110974055 Date of Issue: September 12, 1985 Expiration Date: September 11, 1987 Project Description: To construct approximately 2900 linear feet of 10' wide public access elevated boardwalk and pier with a 6' wide navigation access lift gate in Outer Clam Bay. Department of the Army Corps of Engineers Permit No.: 861PT-20328 Date of Issue: December 18, 1986 Expiration Date: December 18, 1991 Project Description: Discharge+2.3 acres of clean fill to construct an access road. Department of Environmental Regulation Modification Permit.: 11-50-3769 Date of Issue: January 7, 1987 Expiration Date: December 18, 1991 Project Description: This permit modification extended the expiration date and reduced the amount of fill in the area extending south along the coastal edge from approximately 13 acres,as permitted,to 2.43 acres in order to construct a linear access road(for The Strand in Bay Colony). Department of Environmental Protection Permit/Certification No.: 112659015 Date of Issue: March 14, 1995 Expiration Date: March 14, 2000 Project Description: Re-establish the connection between the Gulf of Mexico to the Clam Bay system, by dredging from the mouth of Clam Pass and spoiling the sand over an upland beach site. Collier County Ordinance No.: 96-16 Date of Issue: April 9, 1996 Expiration Date: n/a Project Description: To impose idle speed/no wake zones in the Clam Bay system. Department of Environmental Protection Permit/Authorization No.: 0128463-001-JC Date of Issue: July 6, 1998 Expiration Date: July 6,2008 Project Description: This Permit authorized activities to improve the hydrodynamics of,and thus restore and manage,the Clam Bay ecosystem. Department of the Army Corps of Engineers Permit No.: 199602789(IP-CC) Date of Issue: August 11, 1998 Expiration Date: July 8, 2008 Project Description: This Permit authorized the following works: 1.)Replacement of Seagate Drive Culverts and installation of one-way check valves on the culverts(pages 45-50 of the CBRMP); 2.)Clam Pass main channel dredging for Cuts 1, 2, 3 and 4(pages 49-65 of the CBRMP); 3.) Excavation and maintenance of Interior Tidal Creeks(pages 65-71 of CBRMP). Department of Environmental Protection Permit Modification for Permit No.: 0128463-001-JC Date of Issue: February 16, 1999 Expiration Date: July 6, 2008 Project Description: Authorize minor revisions to the mangrove trimming procedures pursuant to site verification. Department of the Army Corps of Engineers Modification for Permit No.: 199602789(IP-CC) Date of Issue: February 26, 1999 Expiration Date: July 8, 2008 Project Description: This application requested modification to: 1.)discharge dredge material from Cut#1 to new disposal area identified as an upland parking area; 2.)increase the width of channel cut#4; 3.) remove native vegetation and excavate a portion of upland Disposal Site#2;4.)remove native vegetation and excavate a portion of upland Disposal Site#3. The proposed modification to widen channel Cut#4 is to be done without any additional seagrass impacts. Based on the review and coordination with FWS,the permit was modified in accordance with these requests. Department of Environmental Protection Permit Modification for Permit No.: 0128463-001-JC Date of Issue: May 19, 1999 Expiration Date: May 28, 1999 Project Description: Re-grade beach fill material during the marine turtle nesting season to remove pockets of fine silty material and to remove an escarpment which may interfere with nesting marine turtles. Florida Fish and Wildlife Conservation Commission File No.: 2003-0511-016BS for Permit No.: CO-016 Date of Issue: March 24, 2000 Expiration Date:n/a Project Description: This Permit granted approval for placement of canoe trail markers in Clam Bay. Department of the Army Corps of Engineers for Permit No.: 200001076 (NW-EF) Date of Issue: April 13, 2000 Expiration Date:February 1 1, 2002 Project Description: Approved the installation of 32 waterway markers for a canoe trail in the Clam Bay System. Department of the Army Corps of Engineers modification for Permit no.: 199602789 (IP-CC) Date of Issue: May 5, 2000 Expiration Date:July 8, 2008 Project Description: This application requested modifications to the monitoring and reporting schedule reference on page 93 (Biological Monitoring)of DA Permit(CBRMP). The request was to submit annual reports instead of semi-annual reports. The permit was modified as requested. Department of Environmental Protection Permit No.: CO-732 Date of Issue: October 25,2002 Expiration Date: October 25,2003 Project Description: Perform dune and beach restoration, and plant salt-tolerant native dune vegetation in association with interim maintenance dredging event. Department of the Army Corps of Engineers Permit No.: 199602789(IP-CC)Extension Date of Issue: May 8, 2008 Expiration Date:July 8, 2009 Project Description: This Permit authorized the extension of the expiration date for a period of one year. Department of Environmental Protection Permit/Extension No.: 0128463-001-JC Date of Issue: June 5, 2008 Expiration Date:July 6, 2009 Project Description: This modification extends the expiration date for a period of one year. Department of Environmental Protection Permit No.: 11-0128463-005 Date of Issue: December 17,2010 Expiration Date: December 17, 2015 Project Description: Continue maintenance activities to the hand-dug channels and mangrove trimming in the Clam Bay system originally permitted under Permit No. 0128463-001-JC. Department of the Army Corps of Engineers Permit No.: SAJ-1996-02789 (IP-LAE) Date of Issue: February 8, 2011 Expiration Date:February 8, 2021 Project Description: Continue maintenance activities to the hand-dug channels and mangrove trimming in the Clam Bay system originally permitted under Permit No. 1996-02789 (IP-CC) Department of Environmental Protection Permit No.: 11-0295193-004 Date of Issue: November 2, 2011 Expiration Date:November 2, 2016 Project Description: Install 32 canoe trail markers and informational signage. Department of Environmental Protection Permit No.: 0296087-001-JC Date of Issue: August 14,2012 Expiration Date: August 14, 2022 Project Description: Restore the alignment of Clam Pass to the previously approved location and conduct periodic maintenance dredging of a portion of Clam Pass in order to maintain tidal exchange between Clam Bay and the Gulf of Mexico. United States Fish and Wildlife Service Biological Opinion Activity Code No: 41420-2010-CPA-0395 Date of Issue: February 22, 2013 Expiration Date: n/a Project Description:FWS analysis of the potential effects of the dredging of the Pass on the threatened piping plover(Charadrias melodus),threatened loggerhead sea turtle(Caretta caretta),endangered hawksbill(Eretmochelys imbricate), leatherback(Dermochelys coriacea), green(Chelonia mydas),and Kemp's ridley(Lepidochelys kempii)sea turtles, and the endangered West Indian Manatee Trichechus manatus). Department of the Army Corps of Engineers Permit No.: SAJ-1996-02789 (NWP-WDD) Date of Issue: February 28, 2013 Expiration Date: March 18, 2017 Project Description: Dredging of Clam Pass and tidal creek to restore tidal exchange into Clam Bay. Department of Environmental Protection Permit Modification to Permit No.: 0296087-002-JN Date of Issue: March 1, 2013 Expiration Date: August 14, 2022 Project Description: Modification of August 2012 permit to re-open Clam Pass by mechanical dredging of the Pass and flood shoal areas. CLAM BAY NRPA MANAGEMENT PLAN(DRAFT) Pelican Bay Services Division May 30, 2014 Ver. 6.1 EXHIBITS CLAM BAY NRPA MANAGEMENT PLAN(DRAFT) Pelican Bay Services Division May 30, 2014 Ver. 6.1 Clam Bay NRPA Management Plan Bibliography l. Collier County Natural Resources Department. Clam Bay Natural Resources Protection Area Management Plan Draft,technical paper-4th rev.Nov 21, 1994. 2. Collier County. Executive Summary—Approval of Clam Bay Natural Resources Protection Area(NRPA). 21 Feb 1995. 3. Crewz, David W., 1989, Clam Pass Park mangrove damage, Department of Natural Resources Interoffice Memorandum. 4. Crewz, David W. Florida. Department of Natural Resources. Clam Pass Mangrove Damage. Interoffice Memo, May 1989. 5. Gee & Jensen Engineers, Architects and Planners, Inc., 1978, Hydrographic Study Clam Bay System Collier County, Florida for Coral Ridge- Collier Properties Inc., report. 6. Hartwell, Richard W., Hatcher, James M., Grabe, Stephen,August 1994, Clam Bay Natural Resources Protection Area (NRPA), Collier County Environmental Services Division, Publication Series NR-SP-94-01, technical paper. 7. Hawkins, Mary Ellen, Obley, Ross P., "Pelican Bay-Visit and Revisit." Urban Land Vol. 40, No 11. (December 1981) 21-27. 8. Heald, Eric J., Tabb, Durbin C., Roessler, Martin A., Beardsley, Gary L., Ward, Gerlad M., Durrance, Dallas H., Yeend, John S., 1978, Carbon Flows in Portions of the Clam Pass Estuarine System, Collier County, Florida, Tropical Biolndustries Company and Gee and Jenson, Engineers-Architects-Planners, Inc., technical paper. 9. Heald, Eric J., Roessler, Martin A., December 1979, Invertebrate Population Studies in the Vicinity of Upper Clam Bay, Collier County, Florida, Tropical Biolndustries, technical paper. 10. Heald, Eric J., July 1983, Populations of Melampus coffeus and Cerithidea scalariformis West of Upper Clam Bay, Collier County, Florida, Tropical Biolndustries, Inc., technical paper. 11. Heald, Eric J., July 1983, Fish Populations of Tidal Ponds West of Upper Clam Bay Collier County, Florida, Tropical Biolndustries,technical report. 12. Humiston and Moore Engineers. 2007. Clam Pass Restoration and Management Plan Bathymetric Monitoring Report No. 8. 13. Humiston and Moore Engineers. 2010. Clam Pass Restoration and Management Plan Bathymetric Monitoring Report No. 12. CLAM BAY NRPA MANAGEMENT PLAN(DRAFT) Pelican Bay Services Division May 30, 2014 Ver. 6.1 14. Humm, H.J. and Rehm, A.E. 1972. Ecological Appraisal an Ecological Study of the Clam Pass Complex. Study for the Collier Company at Clam Pass Properties. Tri-County Engineering, Inc. TCE Project No. 1516. 15. Lewis, Roy R., and Marshall, Michael J. Lewis Environmental Services. First Annual Report, #2; One year after flushing channel construction. 1997. 16.Natural Resources Conservation Service. United States Department of Agriculture. Soil Survey of Collier County Area, Florida. 1998. 17. Tackney &Associates, Inc., Preliminary Hydrographic Assessment Clam Bay Systems. August 1996. 18. Tri-County Engineering, Inc., 1971, Tidal Datum Plane Determination for the Collier Company. 19. Tri-County Engineering, Inc., Sarkar, Chiranjib K. Hydrographic Investigation of the Clam Bay System, Technical paper. October 1972. 20. Tropical BioIndustries and Missimer and Associates, Inc., A Comparative Study of the Water and Carbon Flows of Upper Clam Bay, technical paper. June 1979. 21. Turrell & Associates, Inc. Environmental Assessment Northwest Fill Area for Pelican Bay, technical paper. February 1979. 22. Turrell and Associates, Inc. and Humiston & Moore. "Clam Pass Inlet Management Plan Interim Report No. 1". July 1995. 23. Turrell, Hall& Associates, Inc. 2009. Clam Bay Restoration and Management. Biological Monitoring Report. Eighth Annual Report No. 11. 24. Wilson, Miller, Barton &Peek, Inc. Pelican Bay Mangrove Investigation, Pelican Bay Water Management System-Stormwater Detention Volume and Water Budget Analyses. April 1996. 25. Worley, Kathy and Jeffrey R. Schmid. "Clam Bay Natural Resource Protection Area(NRPA) Benthic Habitat Assessment- Report for the Contract Agreement Between Pelican Bay Property Owners Association (PBPOA), Pelican Bay Foundation, Inc. (PBF), and the Mangrove Action Group (MAG), and the Conservancy of Southwest Florida (CSWF). Dec 2010.