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Everglades

Filter Total Items: 51

Burmese Python Environmental DNA (eDNA) Surveys in the Stormwater Treatment Areas and Corkscrew Regional Ecosystem Watershed

USGS scientists have developed and optimized python-specific eDNA markers to detect Burmese pythons from water samples taken from the Florida Everglades. This development may aid in the identification of possible waterways used as corridors for northward expansion of this invasive species.
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Burmese Python Environmental DNA (eDNA) Surveys in the Stormwater Treatment Areas and Corkscrew Regional Ecosystem Watershed

USGS scientists have developed and optimized python-specific eDNA markers to detect Burmese pythons from water samples taken from the Florida Everglades. This development may aid in the identification of possible waterways used as corridors for northward expansion of this invasive species.
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Multi-year Burmese Python Vital Rate Research Collaborative in the Greater Everglades

USGS researchers will track juvenile Burmese python within Big Cypress National Preserve (BICY) and collect data on snake growth, habitat use, and causes of mortality. Known-fate models will be used to estimate survival and better understand factors that influence survival.
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Multi-year Burmese Python Vital Rate Research Collaborative in the Greater Everglades

USGS researchers will track juvenile Burmese python within Big Cypress National Preserve (BICY) and collect data on snake growth, habitat use, and causes of mortality. Known-fate models will be used to estimate survival and better understand factors that influence survival.
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Ecological Modeling for the Central Everglades Planning Project (CEPP) Operational Plan

The Joint Ecosystem Modeling team will run a suite of 13 ecological models to provide insight into alternative restoration plans' ecological performance, unintended ecological conditions, and potential conflicts with other Comprehensive Everglades Restoration Plan (CERP) goals.
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Ecological Modeling for the Central Everglades Planning Project (CEPP) Operational Plan

The Joint Ecosystem Modeling team will run a suite of 13 ecological models to provide insight into alternative restoration plans' ecological performance, unintended ecological conditions, and potential conflicts with other Comprehensive Everglades Restoration Plan (CERP) goals.
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Adding an Aquatic Prey Fish Module within the Everglades Vulnerability Analysis Modeling Framework

The USGS Joint Ecosystem Modeling team will use Bayesian networks to build a spatially explicit Everglades Vulnerability Analysis module based on current knowledge and existing data on fish density and biomass trends on the landscape.
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Adding an Aquatic Prey Fish Module within the Everglades Vulnerability Analysis Modeling Framework

The USGS Joint Ecosystem Modeling team will use Bayesian networks to build a spatially explicit Everglades Vulnerability Analysis module based on current knowledge and existing data on fish density and biomass trends on the landscape.
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Mangrove Forest Responses to Sea-Level Rise in the Greater Everglades

USGS researchers will utilize long-term soil elevation change data to help advance understanding of soil elevation dynamics and ecological transformations due to climate change within coastal wetlands of the Greater Everglades.
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Mangrove Forest Responses to Sea-Level Rise in the Greater Everglades

USGS researchers will utilize long-term soil elevation change data to help advance understanding of soil elevation dynamics and ecological transformations due to climate change within coastal wetlands of the Greater Everglades.
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Demographic Analysis of the Endangered Cape Sable Seaside Sparrow

USGS researchers will examine how hydrology and landscape vegetation changes impact Cape Sable Seaside Sparrow survival and population growth.
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Demographic Analysis of the Endangered Cape Sable Seaside Sparrow

USGS researchers will examine how hydrology and landscape vegetation changes impact Cape Sable Seaside Sparrow survival and population growth.
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Engaging Indigenous Communities to Co-Design a Real-time Monitoring Application to Protect Everglades Tree Islands

USGS will collaborate with the Miccosukee and Seminole Tribes to co-design a dashboard mock-up for a real-time web application that monitors tree island health in the Everglades.
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Engaging Indigenous Communities to Co-Design a Real-time Monitoring Application to Protect Everglades Tree Islands

USGS will collaborate with the Miccosukee and Seminole Tribes to co-design a dashboard mock-up for a real-time web application that monitors tree island health in the Everglades.
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Comparing EverForecast to the South Florida Water Management District’s Position Analysis

USGS will compare the EverForecast hydrologic forecast, the South Florida Water Management District's Position Analysis, and observed water level recordings from gages located across the Everglades landscape to examine which forecast performs better during the wet and dry seasons; wet, dry, or average years; or in different areas of the Everglades.
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Comparing EverForecast to the South Florida Water Management District’s Position Analysis

USGS will compare the EverForecast hydrologic forecast, the South Florida Water Management District's Position Analysis, and observed water level recordings from gages located across the Everglades landscape to examine which forecast performs better during the wet and dry seasons; wet, dry, or average years; or in different areas of the Everglades.
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Fish Chat and Slam December 2022

Fifty-seven fish biologists from 12 organizations participated in a three-day Fish Chat and Slam event in South Florida.
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Fish Chat and Slam December 2022

Fifty-seven fish biologists from 12 organizations participated in a three-day Fish Chat and Slam event in South Florida.
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Python Vital Rates

Researchers from USGS-FORT and WARC and University of Florida are collaborating on a long-term Burmese python research program in southern Florida to address management needs of partners and stakeholders throughout the Greater Everglades.
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Python Vital Rates

Researchers from USGS-FORT and WARC and University of Florida are collaborating on a long-term Burmese python research program in southern Florida to address management needs of partners and stakeholders throughout the Greater Everglades.
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Ecological Modeling in Support of the Lake Okeechobee Water Management

The Joint Ecosystem Modeling team will be running a suite of ecological models to evaluate scenarios and provide insight into how alternative restorations plans compare, indicate whether alternatives could lead to unintended consequences, and determine effects of alternatives that could conflict with other goals.
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Ecological Modeling in Support of the Lake Okeechobee Water Management

The Joint Ecosystem Modeling team will be running a suite of ecological models to evaluate scenarios and provide insight into how alternative restorations plans compare, indicate whether alternatives could lead to unintended consequences, and determine effects of alternatives that could conflict with other goals.
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USGS Coordinated Burmese Python Research Strategy for South Florida (FY21 – FY27)

Wetland and Aquatic Research Center and Fort Collins Science Center are coordinating a long-term, landscape-scale Burmese python research strategy for South Florida.
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USGS Coordinated Burmese Python Research Strategy for South Florida (FY21 – FY27)

Wetland and Aquatic Research Center and Fort Collins Science Center are coordinating a long-term, landscape-scale Burmese python research strategy for South Florida.
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