Battle Creek Restoration

This project is an ongoing cooperative project to restore 6,300 feet of Battle Creek and replace two irrigation structures which currently block seasonal fish migration. This joint project will improve native Colorado Cutthroat fish habitat, improve thermal and low flow habitat, and reduce bank erosion. Restoration will include narrowing the channel to accommodate for 590 cfs bankfull flows; excavating pools and installing fish-hook vane structures to improve low flow trout habitat; and re-establishing riparian vegetation to prevent further erosion. At a minimum, the project will include the following: installing 10 fish-hook vanes, excavating 12 pools, installing bank full benches to narrow the channel, installing...

Categories: Project; Types: Map Service, OGC WFS Layer, OGC WMS Layer, OGC WMS Service, ScienceBase Project; Tags: Habitat, aquatic, colorado river cutthroat, habitat conservation project, macroinvertebrate communities, All tags... riparian, Fewer tags

Savery Creek Restoration

This is an ongoing cooperative project to restore 6,100 ft of Savery creek. This joint project will improve native Colorado Cutthroat fish habitat, improve thermal and low flow habitat, and reduce bank erosion by approximately 1,000 cubic yards per year. Restoration will include narrowing the channel to accommodate for 220 cfs flows; excavating pools and installing fish-hook vane structures to improve low flow trout habitat; and re-establishing riparian vegetation to prevent further erosion. At a minimum, the project will include the following: moving three mid-channel bars, installing 14 fish-hook vanes, excavating 18 pools, installing 27 bank full benches to narrow the channel, installing 226 willow clumps...

Categories: Project; Types: ScienceBase Project; Tags: Habitat, aquatic, colorado river cutthroat, habitat conservation project, macroinvertebrate communities, All tags... riparian, Fewer tags

Adirondack Long-Term Stream and Soil Monitoring

The current Adirondack Long-Term Monitoring Program combines monitoring of streams and soils based on a watershed design. Not only are headwater streams an important component of Adirondack ecosystems, they are closely tied to the terrestrial environment through runoff that is strongly influenced by soil and vegetation processes. This linkage makes headwater streams a useful tool for monitoring the overall condition of the watershed, and by combining stream and soil monitoring within watersheds, the response of Adirondack ecosystems to environmental disturbances such as acid rain and climate change can be better understood. For example, the unexpectedly slow reversal of stream acidification from decreased atmospheric...

Categories: Data, Project; Types: Downloadable, Map Service, OGC WFS Layer, OGC WMS Layer, Shapefile; Tags: Acid Rain, Adirondack Park and vicinity, New York, Aquatic Community Health, Aquatic Community Health, Biogeochemical and Hydrologic Assessment, All tags... BiogeochemicalandHydrologicAssessment, Cooperative Water Program, Ecosystem Health, Ecosystem Health, Ecosystem health, GW or SW, GW or SW, GW or SW, Groundwater and Streamflow Information, Macroinvertebrates, NY, New York, Soils, Status and Trends Program, Surface-Water Monitoring, Surface-Water Monitoring, USGS New York Water Science Center, WSC, Water Quality, Water Quality, Water quality, acid rain, acid rain,soils,sugar maple,watershed, macroinvertebrate communities, sugar maple, watershed, watershed impacts, Fewer tags