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Evaluating the Use of Models for Projecting Future Water Flow in the Southeast Assessing the impact of flow alteration on aquatic ecosystems has been identified as a critical area of research nationally and in the Southeast U.S. This project aimed to address the Ecohydrology Priority Science Need of the SE CSC FY2012 Annual Science Work Plan by developing an inventory and evaluation of current efforts and knowledge gaps in hydrological modeling for flow-­‐ecology science in global change impact studies across the Southeast. To accomplish this goal, we completed a thorough synthesis and evaluation of hydrologic modeling efforts in the Southeast region (including all states of the Southeastern Association of Fish and Wildlife Agencies (SEAFWA) including Alabama, Arkansas, Florida, Georgia, Kentucky,... Categories: Project; Types: Map Service, OGC WFS Layer, OGC WMS Layer, OGC WMS Service; Tags: 2012, CASC, Climate Change, Completed, FY 2012, All tags... Landscapes, Landscapes, Other Landscapes, Other Landscapes, Projects by Region, Rivers, Streams and Lakes, Rivers, Streams and Lakes, Science Tools For Managers, Science Tools for Managers, Science Tools for Managers, Southeast, Southeast CASC, Southeast Climate Science Center, State of the Science, State of the Science, Water, Coasts and Ice, Water, Coasts and Ice, aquatic ecology, hydrological modeling, stream flow, Fewer tags Hydrologic modeling for flow-ecology science in the Southeastern United States and Puerto Rico Abstract (from U.S. Department of Agriculture Forest Service): An understanding of the applicability and utility of hydrologic models is critical to support the effective management of water resources throughout the Southeastern United States (SEUS) and Puerto Rico (PR). Hydrologic models have the capacity to provide an estimate of the quantity of available water at ungauged locations (i.e., areas of the country where a U.S. Geological Survey [USGS] continuous record gauge is not installed) and provide the baseline flow information necessary to develop the linkages between water availability and characteristics of streamflow that support ecological communities (i.e., support the development of flow-ecology response... Categories: Publication; Types: Citation; Tags: Landscapes, Other Landscapes, Rivers, Streams and Lakes, Science Tools for Managers, Southeast CASC, All tags... State of the Science, Water, Coasts and Ice, Fewer tags Geographic patterns and time trends in surface-water quality, modeled streamflow, fish population characteristics, and ecological flows in the Canadian River Basin from Northeast New Mexico to Lake Eufaula, Oklahoma Geographic patterns and time trends of water-quality, modeled streamflow, and ecological data were compared along the Canadian River and selected tributaries in northeastern New Mexico to Lake Eufaula in Oklahoma to determine effects of climate change on water quality, streamflows, fish populations and ecological flows in this watershed from 1939 to 2013. Project participants included staff from the Oklahoma Cooperative Fish and Wildlife Research Unit, Vieux and Associates, USGS New Jersey Water Science Center and the USGS Oklahoma Water Science Center. Principal project funding was by the South Central Climate Science Center, with in-kind matching from the project participant organizations. Tags: Ecology, Instream Flows, Precipitation Variability, Rivers, Streams and Lakes, South Central CASC, All tags... USGS Science Data Catalog (SDC), Water, Coasts and Ice, Fewer tags Using regional scale flow–ecology modeling to identify catchments where fish assemblages are most vulnerable to changes in water availability Streamflow is essential for maintaining healthy aquatic ecosystems and for supporting human water supply needs. Changes in climate, land use and water use practices may alter water availability. Understanding the potential effect of these changes on aquatic ecosystems is critical for long-term water management to maintain a balance between water for human consumption and ecosystem needs. Fish species data and streamflow estimates from a rainfall-runoff and flow routing model were used to develop boosted regression tree models to predict the relationship between streamflow and fish species richness (FSR) under plausible scenarios of (1) water withdrawal, (2) climate change and (3) increases in impervious surfaces... Categories: Publication; Types: Citation; Tags: Aquatic, Fish, Landscapes, Modeling, Other Landscapes, All tags... Rivers, Streams and Lakes, Science Tools For Managers, Southeast CASC, State of the Science, Streamflow, Water, Coasts and Ice, Fewer tags