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St. Johns River Water Management District Special Publication SJ97-SP8 Water Management Alternatives: Effects on Lake Levels and Wetlands in the Orange.

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Presentation on theme: "St. Johns River Water Management District Special Publication SJ97-SP8 Water Management Alternatives: Effects on Lake Levels and Wetlands in the Orange."— Presentation transcript:

1 St. Johns River Water Management District Special Publication SJ97-SP8 Water Management Alternatives: Effects on Lake Levels and Wetlands in the Orange Creek Basin Special Publication SJ97-SP8 Water Management Alternatives: Effects on Lake Levels and Wetlands in the Orange Creek Basin G. B. “Sonny” Hall, Ph.D. Bureau of Environmental Sciences

2 St. Johns River Water Management District The Problem Man-made alterations within Orange Creek Basin (OCB) changed natural hydrology (flows and water levels) Resulted in ecological degradation: Stabilization of water levels through construction of weirs Excessive growth of nuisance aquatic plants Water quality degradation Increased accumulation of sediments Declines in recreational fishing Man-made alterations within Orange Creek Basin (OCB) changed natural hydrology (flows and water levels) Resulted in ecological degradation: Stabilization of water levels through construction of weirs Excessive growth of nuisance aquatic plants Water quality degradation Increased accumulation of sediments Declines in recreational fishing 2

3 St. Johns River Water Management District The Study In response to these issues, SJRWMD completed a mid-1990s study to evaluate ecological value of alternative surface water management strategies Study objectives: Develop alternative water management strategies Develop biohydrologic criteria to assess restoration and conservation potential of strategies Identify which strategies require more specialized study (e.g., geologic, ecologic, or economic studies) In response to these issues, SJRWMD completed a mid-1990s study to evaluate ecological value of alternative surface water management strategies Study objectives: Develop alternative water management strategies Develop biohydrologic criteria to assess restoration and conservation potential of strategies Identify which strategies require more specialized study (e.g., geologic, ecologic, or economic studies) 3

4 St. Johns River Water Management District Lake and wetland ecosystems require a range of surface water fluctuations for conservation This range of water levels constitutes a fluctuation regime that consists of: o High water levels due to temporary and seasonal floods o Average (middle) water level o Low water levels that coincide with mild droughts and infrequent extensive droughts Water management options can increase or decrease range of lake water level fluctuations Lake and wetland ecosystems require a range of surface water fluctuations for conservation This range of water levels constitutes a fluctuation regime that consists of: o High water levels due to temporary and seasonal floods o Average (middle) water level o Low water levels that coincide with mild droughts and infrequent extensive droughts Water management options can increase or decrease range of lake water level fluctuations 4 Biohydrologic Criteria Development

5 St. Johns River Water Management District 5 Five biohydrologic criteria were created to accommodate a range of surface water fluctuations Criteria : o Infrequent High o Frequent High o Middle o Frequent Low o Infrequent Low water levels Criteria define hydrologic conditions required to preserve lake & floodplain wetland ecological processes Five biohydrologic criteria were created to accommodate a range of surface water fluctuations Criteria : o Infrequent High o Frequent High o Middle o Frequent Low o Infrequent Low water levels Criteria define hydrologic conditions required to preserve lake & floodplain wetland ecological processes Biohydrologic Criteria Development

6 St. Johns River Water Management District 6 Infrequent High Water Level A high water condition - occurs on average once every 5 years for a duration of 30 consecutive days (1:5 years, 30 days). Objectives: Inundate the entire floodplain wetlands - prevent encroachment of upland species Facilitate seed dispersal Transport organic matter between floodplain wetlands and lake To provide spawning, refugia, and foraging habitat for fish Infrequent High Water Level A high water condition - occurs on average once every 5 years for a duration of 30 consecutive days (1:5 years, 30 days). Objectives: Inundate the entire floodplain wetlands - prevent encroachment of upland species Facilitate seed dispersal Transport organic matter between floodplain wetlands and lake To provide spawning, refugia, and foraging habitat for fish Biohydrologic Criteria Development

7 St. Johns River Water Management District 7 Frequent High Water Level A high water condition - occurs on average once every 2 years for a duration of 60 consecutive days (1:2 years, 60 days). Objectives: Maintain lower swamp and shallow marsh habitats Transport organic matter between floodplain wetlands and lake Provide spawning areas and refugia for small forage fish Provide foraging areas for other aquatic organisms, e.g., gamefish Facilitate seed dispersal Frequent High Water Level A high water condition - occurs on average once every 2 years for a duration of 60 consecutive days (1:2 years, 60 days). Objectives: Maintain lower swamp and shallow marsh habitats Transport organic matter between floodplain wetlands and lake Provide spawning areas and refugia for small forage fish Provide foraging areas for other aquatic organisms, e.g., gamefish Facilitate seed dispersal Biohydrologic Criteria Development

8 St. Johns River Water Management District 8 Middle Water Level Biohydrologic Criteria Development A low water condition - occurs on average once every 2 years for a duration of 180 consecutive days (1:2 years, 180 days). Objectives: Maintain wetland soils by preventing oxidation and subsidence Exclude colonization by terrestrial plants Maintain sufficient water depth in lake littoral zone for aquatic wildlife

9 St. Johns River Water Management District 9 Frequent Low Water Level A low water condition - occurs on average once every 5 years for a duration of 180 consecutive days (1:5 years, 180 days). Objectives: Rejuvenate lake floodplain and littoral zone by allowing seed germination and growth of wetland plant species Increase rate of decomposition of organic sediments, allowing aerobic microbial breakdown Frequent Low Water Level A low water condition - occurs on average once every 5 years for a duration of 180 consecutive days (1:5 years, 180 days). Objectives: Rejuvenate lake floodplain and littoral zone by allowing seed germination and growth of wetland plant species Increase rate of decomposition of organic sediments, allowing aerobic microbial breakdown Biohydrologic Criteria Development

10 St. Johns River Water Management District 10 Infrequent Low Water Level A low water condition - occurs on average once every 50 years for a duration of 360 consecutive days (1:50 years, 360 days). Objectives: Consolidate and compact organic sediments in fish spawning habitat Rejuvenate lake floodplain wetlands and upper littoral zone by allowing seed germination and growth Infrequent Low Water Level A low water condition - occurs on average once every 50 years for a duration of 360 consecutive days (1:50 years, 360 days). Objectives: Consolidate and compact organic sediments in fish spawning habitat Rejuvenate lake floodplain wetlands and upper littoral zone by allowing seed germination and growth Biohydrologic Criteria Development

11 St. Johns River Water Management District 11 Surface water levels generated by the SSARR model for water management alternatives plotted against the elevations of major plant community ecotones at Newnans Lake Biohydrologic Criteria Development wetter

12 St. Johns River Water Management District 12 Other criteria were assessed: Range of surface water fluctuation Wetland extent Change in boater access at 56 ft Other criteria were assessed: Range of surface water fluctuation Wetland extent Change in boater access at 56 ft Biohydrologic Criteria Development

13 St. Johns River Water Management District Twenty-three alternative surface water management strategies were evaluated Ecological Evaluation of Water Management Scenarios 13

14 St. Johns River Water Management District 14 Ecological Evaluation of Water Management Scenarios

15 St. Johns River Water Management District 15 Ecological Evaluation of Water Management Scenarios

16 St. Johns River Water Management District Ecological Evaluation of Water Management Scenarios

17 St. Johns River Water Management District Ecological Evaluation of Water Management Scenarios

18 St. Johns River Water Management District Ecological Evaluation of Water Management Scenarios

19 St. Johns River Water Management District 19 Ecological Evaluation of Water Management Scenarios

20 St. Johns River Water Management District 20 Ecological Evaluation of Water Management Scenarios

21 St. Johns River Water Management District 21 Ecological Evaluation of Water Management Scenarios

22 St. Johns River Water Management District Effects of different water management alternatives on the Orange Lake fluctuation regime (ft NGVD) 22 Ecological Evaluation of Water Management Scenarios

23 St. Johns River Water Management District 23 Results of Biohydrologic Criteria Assessment at Orange Lake Ecological Evaluation of Water Management Scenarios

24 St. Johns River Water Management District Surface water levels generated by the SSARR model for water management alternatives plotted against the elevations of major plant community ecotones at Orange Lake 24

25 St. Johns River Water Management District Assessed effects of management strategies on wetland extent Utilized stage-duration and stage-area curves Assessed effects of management strategies on wetland extent Utilized stage-duration and stage-area curves 25 Ecological Evaluation of Water Management Scenarios

26 St. Johns River Water Management District 26 Ecological Evaluation of Water Management Scenarios 58.6 54.8 Extent of wetlands

27 St. Johns River Water Management District Ecological Evaluation of Water Management Scenarios 58.6 54.8

28 St. Johns River Water Management District Change in acreage for Orange and Lochloosa lakes wetlands for various water management alternatives 28 Ecological Evaluation of Water Management Scenarios

29 St. Johns River Water Management District Summary of wetland and hydrologic effects of surface water management alternatives for Orange and Lochloosa lakes 29 Ecological Evaluation of Water Management Scenarios

30 St. Johns River Water Management District QuestionsQuestions 30

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