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South Florida Water Management District
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Our mission: To safeguard and restore South Florida's water resources and ecosystems, protect our communities from flooding, and meet the region's water needs while connecting with the public and stakeholders.
The South Florida Water Management District is a regional governmental agency that manages the water resources in the southern half of the state, covering 16 counties from Orlando to the Florida Keys and serving a population of 9 million residents. It is the oldest and largest of the state's five water management districts. Created in 1949, the agency is responsible for managing and protecting water resources of South Florida by balancing and improving flood control, water supply, water quality and natural systems.
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OpenET: Evapotranspiration Data Explorer
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OpenET uses best available science to provide easily accessible satellite-based estimates of evapotranspiration (ET) for improved water management across the western United States. Using the Data Explorer, users can explore ET data at the field scale for millions of individual fields or at the original quarter-acre resolution of the satellite data.
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Apps, Maps, & Data
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The Clean Water Act Owner's Manual is coming soon!
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The Clean Water Act became law 50 years ago. To commemorate the milestone of this landmark legislation and mark our continued resolve to protect waterways across our country, River Network is updating our transformational Clean Water Act Owner’s Manual!
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No-Till Intensive Trainings
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8-part webinar series with farmers, researchers, or other expert practitioners. The classes will discuss common obstacles to implementing a successful no-till program, address these issues through field proven technical knowledge, and follow a training plan that will best enable the TSP (technical service provider) to support the farmers in the no-till practice transition. This course is open to any service provider working with farmers in the Northeast! Upon course completion participants will receive a No-Till Intensive Training Certificate of Completion, as well as be eligible for 8 CCA credits and 1 Pesticide credit.
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Training Resources Exchange
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Southeast Aquatic Barrier Prioritization Tool
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The Southeast Aquatic Barrier Prioritization Tool aims to build aquatic connectivity in rivers and streams. The Tool provides inventory data on aquatic barriers (like dams and road-related culverts) and helps practitioners to describe, understand, and prioritize these barriers for removal, restoration, and mitigation.
Aquatic connectivity in rivers and streams is essential for fish and other aquatic organisms.
The Southeast Aquatic Resources Partnership (SARP) developed the tool with support from partners and funders.
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Apps, Maps, & Data
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Landscape Partnership Spatial Datasets
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Aquatic and Freshwater Spatial Data
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Floodplain Prioritization Tool
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The Floodplain Prioritization Tool helps decision-makers identify critical opportunities for floodplain protection and restoration in the Mississippi River Basin. It is an interactive, web-based mapping tool.
Users can prioritize different criteria (e.g., water quality, wildlife habitat, and human exposure to flooding) on the map to see where floodplain restoration and conservation is likely to have the greatest impact. Developed by The Nature Conservancy and partners.
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Apps, Maps, & Data
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Landscape Partnership Spatial Datasets
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Aquatic and Freshwater Spatial Data
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Northern Bobwhite in Working Grasslands
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The northern bobwhite is often referred to and "edge" species, seeking habitat where crop fields intersect with woodlands, pastures, and old fields. The desired outcomes of project practices is 1) improved cattle production for grazing operations, 2) restore native grasses to the agricultural landscape, and 3) improve soil health, water quality, and wildlife habitat on farms.
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NRCS Conservation Practices & Materials
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Conservation Practices
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Appalachian LCC Coordinator is Panelist at National Conference on Science, Policy and the Environment
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Appalachian LCC Coordinator and Chief Scientist, Dr. Jean Brennan, participated as an invited speaker at the 16th National Conference and Global Forum on Science, Policy and the Environment in Washington DC.
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News & Events
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Water Rights & Wetland Restoration Webinar
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Will share key terminology and the principles behind the Prior Appropriations Doctrine, as well as variations in the laws and water administration in the Western United States.
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News & Events
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Events
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Seeing the landscape for the trees: Metrics to guide riparian shade management in river catchments
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Rising water temperature (Tw) due to anthropogenic climate change may have serious conse- quences for river ecosystems. Conservation and/or expansion of riparian shade could counter warming and buy time for ecosystems to adapt. However, sensitivity of river reaches to direct solar radiation is highly het- erogeneous in space and time, so benefits of shading are also expected to be site specific. We use a network of high-resolution temperature measurements from two upland rivers in the UK, in conjunction with topo- graphic shade modeling, to assess the relative significance of landscape and riparian shade to the thermal behavior of river reaches. Trees occupy 7% of the study catchments (comparable with the UK national aver- age) yet shade covers 52% of the area and is concentrated along river corridors. Riparian shade is most ben- eficial for managing Tw at distances 5–20 km downstream from the source of the rivers where discharge is modest, flow is dominated by near-surface hydrological pathways, there is a wide floodplain with little land- scape shade, and where cumulative solar exposure times are sufficient to affect Tw. For the rivers studied, we find that approximately 0.5 km of complete shade is necessary to off-set Tw by 18C during July (the month with peak Tw) at a headwater site; whereas 1.1 km of shade is required 25 km downstream. Further research is needed to assess the integrated effect of future changes in air temperature, sunshine duration, direct solar radiation, and downward diffuse radiation on Tw to help tree planting schemes achieve
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