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Map Name: WO_OSC_StreamTemperatures_2040_01

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• Stream Temperatures: 2040s (1)

Description: This layer represents modeled stream temperatures for historical (1993-2011), mide-century (2030-2059), and end-of-century (2070-2099) scenarios, derived from the NorWeST point feature class (NorWest_TemperaturePoints). NorWeST summer stream temperature scenarios were developed for all rivers and streams in the western U.S. from the > 20,000 stream sites in the NorWeST database where mean August stream temperatures were recorded. The resulting dataset includes stream lines (NorWeST_PredictedStreams) and associated mid-points NorWest_TemperaturePoints) representing 1 kilometer intervals along the stream network. Stream lines were derived from the 1:100,000 scale NHDPlus dataset (USEPA and USGS 2010; McKay et al. 2012). Shapefile extents correspond to NorWeST processing units, which generally relate to 6 digit (3rd code) hydrologic unit codes (HUCs) or in some instances closely correspond to state borders. The line and point shapefiles contain identical modeled stream temperature results. The two feature classes are meant to complement one another for use in different applications. In addition, spatial and temporal covariates used to generate the modeled temperatures are included in the attribute tables at https://www.fs.fed.us/rm/boise/AWAE/projects/NorWeST/ModeledStreamTemperatureScenarioMaps.shtml. The NorWeST NHDPlusV1 processing units include: Salmon, Clearwater, Spokoot, Missouri Headwaters, Snake-Bear, MidSnake, MidColumbia, Oregon Coast, South-Central Oregon, Upper Columbia-Yakima, Washington Coast, Upper Yellowstone-Bighorn, Upper Missouri-Marias, and Upper Green-North Platte. The NorWeST NHDPlusV2 processing units include: Lahontan Basin, Northern California-Coastal Klamath, Utah, Coastal California, Central California, Colorado, New Mexico, Arizona, and Black Hills.

Copyright Text: Funding for this project was provided by USDA Forest Service, Rocky Mountain Research Station. Funding was also provided by the Great Northern Landscape Conservation Cooperative (GNLCC) and North Pacific Landscape Conservation Cooperative (NPLCC) with additional funds and in-kind support from the USDA Forest Service (USFS), US Geological Survey (USGS), US Fish and Wildlife Service (USFWS), California Fish Passage Forum, and National Aeronautics and Space Administration (NASA).

Spatial Reference: 102100  (3857)


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• Spatial Reference: 102100  (3857)
  

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Spatial Reference: 102100

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Document Info:

Title: Stream Temperatures: 2040s
Author:
Comments: This layer represents modeled stream temperatures for historical (1993-2011), mide-century (2030-2059), and end-of-century (2070-2099) scenarios, derived from the NorWeST point feature class (NorWest_TemperaturePoints). NorWeST summer stream temperature scenarios were developed for all rivers and streams in the western U.S. from the > 20,000 stream sites in the NorWeST database where mean August stream temperatures were recorded. The resulting dataset includes stream lines (NorWeST_PredictedStreams) and associated mid-points NorWest_TemperaturePoints) representing 1 kilometer intervals along the stream network. Stream lines were derived from the 1:100,000 scale NHDPlus dataset (USEPA and USGS 2010; McKay et al. 2012). Shapefile extents correspond to NorWeST processing units, which generally relate to 6 digit (3rd code) hydrologic unit codes (HUCs) or in some instances closely correspond to state borders. The line and point shapefiles contain identical modeled stream temperature results. The two feature classes are meant to complement one another for use in different applications. In addition, spatial and temporal covariates used to generate the modeled temperatures are included in the attribute tables at https://www.fs.fed.us/rm/boise/AWAE/projects/NorWeST/ModeledStreamTemperatureScenarioMaps.shtml. The NorWeST NHDPlusV1 processing units include: Salmon, Clearwater, Spokoot, Missouri Headwaters, Snake-Bear, MidSnake, MidColumbia, Oregon Coast, South-Central Oregon, Upper Columbia-Yakima, Washington Coast, Upper Yellowstone-Bighorn, Upper Missouri-Marias, and Upper Green-North Platte. The NorWeST NHDPlusV2 processing units include: Lahontan Basin, Northern California-Coastal Klamath, Utah, Coastal California, Central California, Colorado, New Mexico, Arizona, and Black Hills.
Subject: The NorWeST webpage (https://www.fs.fed.us/rm/boise/AWAE/projects/NorWeST.html) hosts stream temperature data and climate scenarios in a variety of user-friendly digital formats for streams and rivers across the western U.S. The temperature database was compiled from hundreds of biologists and hydrologists working for >100 resource agencies and contains >200,000,000 hourly temperature recordings at >20,000 unique stream sites. Those temperature data were used with spatial statistical network models to develop 36 historical and future climate scenarios at 1-kilometer resolution for >1,000,000 kilometers of stream. Temperature data and model outputs, registered to NHDPlus stream lines, are posted to the website after QA/QC procedures and development of the final temperature model within a river basin (example interactive temperature map). It is hoped that open access to the data and the availability of accurate stream temperature scenarios will foster new research and collaborative relationships that enhance management and conservation of aquatic resources.
Category:
Keywords: NorWeST,inlandWaters,river network,river temperature model,Ecosystems,stream temperatures,citizen science,stream temperature model,topoclimate,Monitoring,big data,modeling,Ecology,temperature model,stream temperature database,observed temperature,watersheds,aquatic vulnerability assessments,& Environment,river temperatures,Spatial Stream Network,decision support,climate change,stream temperature records,Forest & Plant Health,climate scenarios,Wildlife (or Fauna),Invasive species,water,stream network,Inventory,covariate predictors,& Analysis,Fish,Landscape management,environment,Climate effects,global warming,biota,GIS,Natural Resource Management & Use,data loggers,temperature sensor,Hydrology,microclimate,hobo,modeled temperature,Climate change,Habitat management,climatologyMeteorologyAtmosphere,sedimentation,thermographs,crowd sourcing,biota,environment,inlandWaters,health,climatologyMeteorologyAtmosphere
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