Filters: Tags: CO-01 (X) > partyWithName: Joshuah S. Perkin (X)

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Conservation Priorities for Great Plains Fish Communities Based on Riverscape Connectivity and Genetic Integrity of Populations Biodiversity in stream networks is threatened globally by interactions between habitat fragmentation and altered hydrologic regimes. In the Great Plains of North America, stream networks are fragmented by 19,000 anthropogenic barriers, and flow regimes are altered by surface water retention and groundwater extraction. We documented the distribution of anthropogenic barriers and dry stream segments in five basins covering the central Great Plains to assess effects of broad-scale environmental change on stream fish community structure and distribution of reproductive guilds. We used an information theoretic approach to rank competing models in which fragmentation, discharge magnitude, and percentage of time streams... Categories: Data, Project; Types: Map Service, OGC WFS Layer, OGC WMS Layer, OGC WMS Service; Tags: 2012, CATFISHES/MINNOWS, CO-01, CO-02, CO-03, All tags... CO-04, CO-05, CO-06, CO-07, Colorado, Colorado, FISH, FY 2012, FY 2012, Federal resource managers, GPLCC, GPLCC, Gene Flow, Gene Flow, Great Plains, Great Plains, Great Plains Landscape Conservation Cooperative, Habitat Modeling, Habitat Modeling, Informing Conservation Delivery, KS-01, KS-02, KS-04, Kansas, Kansas, LCC, LCC Network Science Catalog, Landscape Genetics, Landscape Genetics, NE-01, NE-03, NM-02, NM-03, Nebraska, Nebraska, New Mexico, New Mexico, OK-03, OK-04, OK-05, Oklahoma, Oklahoma, Plains Fish, Plains Fish, Policy makers & regulators, Population & Habitat Evaluation/Projection, Prairie Rivers and Streams, Prairie Rivers and Streams, Project, Publication, RIVERS/STREAM, SD-00, State agencies, Stream Fragmentation, Stream Fragmentation, TX-11, TX-13, TX-19, TX-23, Texas, Texas, WY-00, Wyoming, Wyoming, biota, completed, environment, inlandWaters, Fewer tags Mapping and Predicting Groundwater-Mediated Hydrologic Connectivity for Great Plains Prairie Rivers and Streams Groundwater pumping for irrigated agriculture has depleted regional aquifers that sustain habitat for native fishes in the western Great Plains of North America. Depleted surface stream flow is implicated in the decline of 69% of endemic Great Plains fishes, including conservation priority species such as the Arkansas River shiner Notropis girardi. Species declines are likely to continue as water demands increase. Knowledge of spatial patterns of hydrologic connectivity and rates and magnitude of fragmentation through time will help prioritize areas for native fish conservation. We propose to use groundwater-surface water models to document and map the spatiotemporal distribution of flowing and intermittent stream... Categories: Data, Project; Types: Map Service, OGC WFS Layer, OGC WMS Layer, OGC WMS Service; Tags: 2013, CO-01, CO-02, CO-03, CO-04, All tags... CO-05, CO-06, CO-07, Datasets/Database, FY 2013, FY 2013, Federal resource managers, GPLCC, GPLCC, Great Plains, Great Plains, Great Plains Landscape Conservation Cooperative, HABITAT CONVERSION/FRAGMENTATION, Habitat Modeling, Habitat Modeling, KS-01, KS-02, KS-04, LCC, LCC Network Science Catalog, NE-01, NE-03, NM-02, NM-03, OK-03, OK-04, OK-05, Plains Fish, Plains Fish, Policy makers & regulators, Population & Habitat Evaluation/Projection, Prairie Rivers and Streams, Prairie Rivers and Streams, Project, RIVERS/STREAM, Report, SD-00, ScienceBase Great Plains LCC, State agencies, TX-11, TX-13, TX-19, TX-23, WY-00, completed, environment, inlandWaters, Fewer tags Implications for Connectivity and Movement of Lotic Great Plains Fishes in the Face of Climate Change. The potential implications of climate change to fishes in Great Plains rivers and streams could range from drastic shifts in distribution to extirpation. Many lotic systems in the Great Plains are not well suited for direct escape routes for fish to move to more suitable habitats at other latitudes due to the west-east direction of flows rather than north-south. Therefore, we might expect additional climate related stress on fish communities in the Great Plains compared to other regions of North America. Therefore, we will 1) simulate potential water temperature and flow changes within the Great Plains based on extant regional climate models, 2) assess stream connectivity to potential refugia, 3) develop a database... Categories: Data, Project; Types: Downloadable, Map Service, OGC WFS Layer, OGC WMS Layer, Shapefile; Tags: 2013, CATFISHES/MINNOWS, CO-01, CO-02, CO-03, All tags... CO-04, CO-05, CO-06, CO-07, Climate Change, Climate Change, Colorado, Colorado, FISH, FY 2013, FY 2013, Federal resource managers, Fragmentation Habitat Management, Fragmentation Habitat Management, GPLCC, GPLCC, Great Plains, Great Plains, Great Plains Landscape Conservation Cooperative, KS-01, KS-02, KS-04, Kansas, Kansas, LCC, LCC Network Science Catalog, NE-01, NE-03, NM-02, NM-03, Nebraska, Nebraska, New Mexico, New Mexico, OK-03, OK-04, OK-05, Oklahoma, Oklahoma, Plains Fish, Plains Fish, Policy makers & regulators, Population & Habitat Evaluation/Projection, Prairie Rivers and Streams, Prairie Rivers and Streams, Project, RIVERS/STREAM, Report, SD-00, ScienceBase Great Plains LCC, State agencies, TX-11, TX-13, TX-19, TX-23, Texas, Texas, WY-00, Wildlife Management, Wildlife Management, Wyoming, Wyoming, biota, completed, environment, inlandWaters, Fewer tags