Filters: Tags: turbidity (X) > Extensions: Shapefile (X)

Filters Date Range Past year (5) Past month (5) Past week (0) Past day (0) Custom range... To   Search Extensions Project (5) Types Downloadable (5) Map Service (5) OGC WFS Layer (5) OGC WMS Layer (5) Shapefile (5) Contacts New York Water Science Center Cooperative Water Program Michael R McHale Jason Siemion Cornell Cooperative Extension More... Categories Data (5) Project (5) Tag Types Label (4) NYWSC_CMS_L3_Topics (5) Water Science Field Team Keywords (5) NYWSC Water Quality (5) NYWSC CMS Themes (5) Coastal Science (1) Community (5) More... Tag Schemes https://www.sciencebase.gov/vocab/category/WRET/CMS_L3_Topics/NYWSC_CMS_L3_Topics (5) https://www.sciencebase.gov/vocab/category/WRET/CMS_Topics/NYWSC_CMS_Topics (5) https://www.sciencebase.gov/vocab/category/WRET/WRET_L3_Keyword/WRET_L3_NYWSC (4) https://www.sciencebase.gov/vocab/category/WaterScienceFieldTeam/WaterScienceFieldTeam (5) https://www.sciencebase.gov/vocab/category/WRET/WRET_Topic/WRET_Topic_NYWSC (4) https://www.sciencebase.gov/vocab/category/WRET/CMS_Themes/NYWSC_CMS_Themes (5) https://www.sciencebase.gov/vocab/category/NCCWSC/Location (5) More... View Results as: JSON ATOM CSV

Upper Esopus Creek Tributary Bedload Pilot Study Problem Sediment transport is a serious concern in the upper Esopus Creek watershed. The creek is a well-documented source of sediment and turbidity to the Ashokan Reservoir, which is part of the New York City water supply system. During the last 2 decades there has been a series of stream stabilization and sediment reduction projects completed in the upper Esopus Creek watershed intended to reduce the suspended sediment load and turbidity levels delivered to the reservoir. During the last 7 years there has been a concerted effort to measure the effect of these projects on turbidity and suspended sediment. There is currently a large, long-term turbidity and suspended sediment study underway within the upper Esopus... Categories: Data, Project; Types: Downloadable, Map Service, OGC WFS Layer, OGC WMS Layer, Shapefile; Tags: Cooperative Water Program, Environments, Esopus Creek, Ashokan Reservoir, Ulster County, New York, Sediment, All tags... Sediment, Sediment, Surface-Water Quality Monitoring, Surface-Water Quality Monitoring, Surface-Water-Quality Monitoring, Turbidity, Turbidity, Turbidity, USGS New York Water Science Center, WSC, Water Quality, Water Quality, Fewer tags Effects of Stream Restoration and Bank Stabilization on Suspended Sediment in Tributaries to the Upper Esopus Creek Introduction The upper Esopus Creek watershed is located in the eastern Catskill Mountains of New York State and covers 497 km2 from Slide Mountain, the highest peak in the Catskills at 1,274 m, to the Ashokan Reservoir at 193 m elevation (fig. 1). Suspended sediment and turbidity are primary water quality concerns in the Ashokan Reservoir watershed, part of the New York City Catskill-Delaware water supply system that supplies more than 10 million people a day with clean drinking water. Stream corridor assessments of tributaries to the Upper Esopus Creek by Ulster County Soil and Water Conservation District, New York City Department of Environmental Protection, and State University of New York at New Paltz summer... Categories: Data, Project; Types: Downloadable, Map Service, OGC WFS Layer, OGC WMS Layer, Shapefile; Tags: Completed, Cooperative Water Program, Esopus Creek, Groundwater and Streamflow Information, Groundwater and Streamflow Information, All tags... New York, Sediment, Sediment, Sediment, Surface-Water Monitoring, Surface-Water Monitoring, Surface-Water Monitoring, Turbidity, Turbidity, Turbidity, USGS New York Water Science Center, WSC, turbidity, Fewer tags Estuarine Physical Response to Storms—Jamaica Bay Problem Coastal communities are susceptible to damage from coastal storms and associated storm surge, and although tidal wetlands provide a buffer against shoreline erosion and aid in shoreline stabilization, they too are vulnerable to the action of storms. Tidal wetland dynamics need to be better understood, as they are also intrinsically valuable as nursery, feeding, and refuge areas for many commercial and recreational fisheries, and significantly contribute to the base of the marine food web. Wetlands trap sediments, reduce turbidity, and absorb nutrients and pollutants thereby improving water quality, and they provide many recreational opportunities. Tidal wetland stability needs to be assessed using a sediment... Categories: Data, Project; Types: Downloadable, Map Service, OGC WFS Layer, OGC WMS Layer, Shapefile; Tags: Beach and Barrier dynamics, Climate and Land-Use Change, Climate and Land-Use Change, Climate and Land-Use Change, Coastal Science, All tags... Coastal Science, Cooperative Water Program, Flood Hazards, Flood Hazards, Flood Hazards, Groundwater and Streamflow Information, Groundwater and Streamflow Information, Jamaica Bay NY, Nearshore Environmental Health, Nearshore Environmental Health, Nearshore Environmental Health, New York, Sediment, Sediment, Sediment, Superstorm Sandy, Surface-Water Monitoring, Surface-Water Monitoring, Surface-Water Monitoring, Tide and Wave Hydrodynamics, Tide and Wave Hydrodynamics, Tide and Wave Hydrodynamics, Turbidity, Turbidity, Turbidity, USGS New York Water Science Center, WSC, Fewer tags Use of telemetry to assess potential effects of Schoharie Reservoir waters on trout populations in the Upper Esopus Creek Background - Turbid waters originating in the Schoharie Reservoir allegedly impair habitat and resident trout populations in Upper Esopus Creek; however, to date no scientific studies have documented adverse affects of altered thermal, suspended sediment (turbidity), and flow regimes on survival, growth, or behavior of trout or the health of their populations. The 424 mi2 Esopus Creek watershed is a tributary to the Hudson River in the south-central Catskill Mountains of New York State and is often considered to be two systems separated by the Ashokan Reservoir. The Upper Esopus Creek is considered the reach between its source, Winisook Lake, and the reservoir. Flows in the Upper Esopus Creek are supplemented by... Categories: Data, Project; Types: Downloadable, Map Service, OGC WFS Layer, OGC WMS Layer, Shapefile; Tags: Completed, Cooperative Water Program, Ecological Assessment of Human and Natural Impacts, Ecological Assessment of Human and Natural Impacts, Ecological Assessment of Human and Natural Impacts, All tags... Ecosystem Health, Ecosystem Health, Esopus Creek, Land Use Effects, Land Use Effects, Land use effects, New York, Sediment, Sediment, Turbidity, Turbidity, USGS New York Water Science Center, WSC, turbidity, trout, Fewer tags Stony Clove Basin Sediment and Turbidity Monitoring Problem Suspended-sediment concentration (SSC) and turbidity are primary water-quality concerns in New York City’s (NYC) water-supply system (U.S. Environmental Protection Agency, 2007). In the NYC water-supply system turbidity is largely caused by clay and silt rather than organic material (Effler et al. 1998, Peng et al. 2002, 2004). Sediment can originate from the watershed land surface and the active stream corridor (the stream bed and its adjacent banks and hillslopes) (Walling 2005). In the upper Esopus Creek watershed, the main source of water to the Ashokan Reservoir, the active stream corridor is the primary source of sediment and turbidity to the stream. Terrestrial sources of sediment and turbidity are... Categories: Data, Project; Types: Downloadable, Map Service, OGC WFS Layer, OGC WMS Layer, Shapefile; Tags: Cooperative Water Program, Environments, Groundwater and Streamflow Information, Groundwater and Streamflow Information, New York, All tags... Sediment, Sediment, Sediment, Stony Clove Basin, Surface-Water Monitoring, Surface-Water Monitoring, Surface-Water Monitoring, Turbidity, Turbidity, Turbidity, USGS New York Water Science Center, WSC, Water Quality, Water Quality, Water quality, suspended-sediment, turbidity, Fewer tags