Multispecies Operational Forecasting in the Florida Everglades Active
A USGS forecasting tool helps Everglades natural resource managers identify management actions that can benefit one or more species while quantifying the potential costs to others.
The Science Issue and Relevance: Water flow, depth, distribution, and quality drive the ecological integrity of Florida’s Greater Everglades. We developed the Everglades Forecasting (EverForecast) application that produces simulations of forecasted water levels to determine optimal outcomes for a suite of ecological responses from species of interest (e.g., wood stork, apple snail). This application allows decision-makers to identify management actions that can benefit a species or suite of species, while explicitly quantifying the potential costs to others. Forecasting water stage values can assist water managers in making decisions according to their management priorities and enables managers to plan for, rather than react to, environmental change.
Methodology for Addressing the Issue: EverForecast creates a set of near-term (up to 6-months) simulated water levels at 200+ gages in South Florida by comparing real-time stage values to a set of historic stage values from the Everglades Depth Estimation Network (EDEN) and adjusting for forecasted precipitation. Each of these forecasts is then run through distribution models of Everglades species (e.g., Cape Sable Seaside Sparrow, American Alligator) to determine spatially-explicit species outcomes. Using the predicted species responses, the water level simulations are ranked and scored.
Future Steps: Historically, natural resource management actions in the Everglades have focused on one species at a time. Given the often-conflicting hydrologic preferences of species of concern, EverForecast allows managers to examine optimal allocations of water across the Everglades while considering species with conflicting needs. This tool can aid water managers in developing regional water management targets to maximize landscape-scale benefits by providing the flexibility to define objectives by weighing the importance of multiple species. In light of growing concern over the frequency and severity of episodic weather events, near-term forecasts of hydrologic conditions and an integrated evaluation of ecological responses can help guide real-time decision-making and long-term restoration planning.
Below are other science projects associated with this project.
Joint Ecosystem Modeling: Cape Sable Seaside Sparrow Helper
Joint Ecosystem Modeling: Wader Distribution & Evaluation Modeling (WADEM)
Joint Ecosystem Modeling: Cape Sable Seaside Sparrow Marl Prairie Indicator
Joint Ecosystem Modeling: EverSnail
Joint Ecosystem Modeling: Alligator Production Probability Model
Joint Ecosystem Modeling: Greater Everglades Modeling Decision Support Tools
Advanced Technological Solutions in Support of Greater Everglades Priority Ecosystem Science: Joint Ecosystem Modeling (JEM)
Below are data or web applications associated with this project.
Joint Ecosystem Modeling (JEM) Support
The JEM community of practice is focused on ecological modeling and monitoring across the Greater Everglades, with particular interest in habitats, how various factors affect habitat change, and how the organisms dependent on those habitats respond today and into the future.
- Overview
A USGS forecasting tool helps Everglades natural resource managers identify management actions that can benefit one or more species while quantifying the potential costs to others.
The Science Issue and Relevance: Water flow, depth, distribution, and quality drive the ecological integrity of Florida’s Greater Everglades. We developed the Everglades Forecasting (EverForecast) application that produces simulations of forecasted water levels to determine optimal outcomes for a suite of ecological responses from species of interest (e.g., wood stork, apple snail). This application allows decision-makers to identify management actions that can benefit a species or suite of species, while explicitly quantifying the potential costs to others. Forecasting water stage values can assist water managers in making decisions according to their management priorities and enables managers to plan for, rather than react to, environmental change.
Methodology for Addressing the Issue: EverForecast creates a set of near-term (up to 6-months) simulated water levels at 200+ gages in South Florida by comparing real-time stage values to a set of historic stage values from the Everglades Depth Estimation Network (EDEN) and adjusting for forecasted precipitation. Each of these forecasts is then run through distribution models of Everglades species (e.g., Cape Sable Seaside Sparrow, American Alligator) to determine spatially-explicit species outcomes. Using the predicted species responses, the water level simulations are ranked and scored.
Future Steps: Historically, natural resource management actions in the Everglades have focused on one species at a time. Given the often-conflicting hydrologic preferences of species of concern, EverForecast allows managers to examine optimal allocations of water across the Everglades while considering species with conflicting needs. This tool can aid water managers in developing regional water management targets to maximize landscape-scale benefits by providing the flexibility to define objectives by weighing the importance of multiple species. In light of growing concern over the frequency and severity of episodic weather events, near-term forecasts of hydrologic conditions and an integrated evaluation of ecological responses can help guide real-time decision-making and long-term restoration planning.
- Science
Below are other science projects associated with this project.
Joint Ecosystem Modeling: Cape Sable Seaside Sparrow Helper
The Sparrow Helper tool allows for the evaluation of water management scenarios by generating, plotting, and mapping hydrologic metrics across a range of time scales to predict impacts of proposed water depth changes to sparrow subpopulations.Joint Ecosystem Modeling: Wader Distribution & Evaluation Modeling (WADEM)
WADEM (Wader Distribution Evaluation Modeling) is a JEM model that estimates species-specific habitat suitability across the landscape for Great Egret ( Ardea alba ), White Ibis ( Eudocimus albus ), and Wood Stork ( Mycteria americana ).Joint Ecosystem Modeling: Cape Sable Seaside Sparrow Marl Prairie Indicator
Marl prairie is the most diverse freshwater vegetation community in the Greater Everglades and provides the only suitable habitat for the federally endangered Cape Sable seaside sparrow (CSSS; Ammodramus maritimus mirabilis ).Joint Ecosystem Modeling: EverSnail
EverSnail, developed in collaboration with the University of West Florida, is an age- and size-structured spatially-explicit landscape model of native apple snails ( Pomacea paludosa ).Joint Ecosystem Modeling: Alligator Production Probability Model
Because the American alligator ( Alligator mississippiensis ) is a keystone species of the Everglades ecosystem, managers need a way to quantitatively assess the effects of alternative restoration scenarios on alligators.Joint Ecosystem Modeling: Greater Everglades Modeling Decision Support Tools
The Joint Ecosystem Modeling team is developing and applying ecological models and other decision support tools for Greater Everglades restoration project planning.Advanced Technological Solutions in Support of Greater Everglades Priority Ecosystem Science: Joint Ecosystem Modeling (JEM)
The JEM Biological Database offers secure data storage in relational databases, as well as web applications to manage, search, analyze, and report on captured data. - Web Tools
Below are data or web applications associated with this project.
Joint Ecosystem Modeling (JEM) Support
The JEM community of practice is focused on ecological modeling and monitoring across the Greater Everglades, with particular interest in habitats, how various factors affect habitat change, and how the organisms dependent on those habitats respond today and into the future.