edu.uidaho.nkn:
eng
UTF8
dataset
service
Dennis L. Lettenmaier
University of Washington
dennisl@uw.edu
http://www.hydro.washington.edu
WWW:LINK
web browser
information
pointOfContact
2024-03-29
ISO 19115-2 Geographic Information - Metadata Part 2 Extensions for imagery and gridded data
ISO 19115-2:2009(E)
2
column
346
0.0625
row
382
0.0625
area
VIC hydrologic simulations using MACAV2-LIVNEH CMIP5 forcings over the western U.S.
creation
2015-01-30
issued
2015-01-30
revision
edu.uidaho.nkn
vic_Evaporation_HadGEM2-ES365_r1i1p1_historical_1950_2005_WUSA_daily_aggregated
Dennis L. Lettenmaier
University of Washington
dennisl@uw.edu
http://www.hydro.washington.edu
WWW:LINK
web browser
information
originator
Matt R. Stumbaugh
Research Scientist
Daily output for historical scenario, r1i1p1 ensemble, HadGEM2-ES365 GCM (from Met Office Hadley Centre, where 360-day outputs were interpolated to 365-day outputs before the downscaling.), VIC 4.1.2.(k,l).
This archive contains daily timestep and 1/16-deg resolution hydrologic fluxes and state variables for the western United States produced by Variable Infiltration Capacity (VIC) model simulations. The simulations were forced by Multivariate Adaptive Constructed Analogs (MACA, Abatzoglou, 2012) statistical downscaling of Global Climate Models and trained to Livneh et al (2013) gridded surface observations. Four downscaled meteorological variables were used at a daily timestep: (1) maximum temperature, (2) minimum temperature, (3) precipitation, and (4) average wind speed. The downscaled forcings were constructed using 365-day global climate model (GCM) outputs from Phase 5 of the Coupled Model Inter-comparison Project (CMIP5). For each GCM, the simulation time extent included one historical period (1950-2005) and a future period (2006-2099/2100). For the future period, two emission scenarios were used (RCP 4.5/8.5). Leap days have been added to the forcing dataset by averaging Feb-28 and Mar-1 daily forcings.
Dennis L. Lettenmaier
University of Washington
dennisl@uw.edu
http://www.hydro.washington.edu
WWW:LINK
web browser
information
pointOfContact
Hydrology
VIC
Variable Infiltration Capacity Model
CMIP5
MACA statistical downscaling
Evaporation
water_evaporation_flux
total net evaporation from surface and vegetation
theme
None
Integrated Scenarios Project of the Northwest Climate Sciences Center
project
Northwest Knowledge Network
dataCenter
water_evaporation_flux
theme
CF-1.6
No restrictions
Integrated Scenarios Project of the Northwest Climate Sciences Center
largerWorkCitation
project
Unidata Common Data Model
GRID
largerWorkCitation
project
eng
climatologyMeteorologyAtmosphere
1
-124.59375
-103.03125
29.03125
52.84375
seconds
1950-01-01T00:00:00Z
2005-12-31T00:00:00Z
0.0
0.0
VIC hydrologic simulations using MACAV2-LIVNEH CMIP5 forcings over the western U.S.
creation
2015-01-30
issued
2015-01-30
revision
Dennis L. Lettenmaier
University of Washington
dennisl@uw.edu
http://www.hydro.washington.edu
WWW:LINK
web browser
information
originator
Matt R. Stumbaugh
Research Scientist
This archive contains daily timestep and 1/16-deg resolution hydrologic fluxes and state variables for the western United States produced by Variable Infiltration Capacity (VIC) model simulations. The simulations were forced by Multivariate Adaptive Constructed Analogs (MACA, Abatzoglou, 2012) statistical downscaling of Global Climate Models and trained to Livneh et al (2013) gridded surface observations. Four downscaled meteorological variables were used at a daily timestep: (1) maximum temperature, (2) minimum temperature, (3) precipitation, and (4) average wind speed. The downscaled forcings were constructed using 365-day global climate model (GCM) outputs from Phase 5 of the Coupled Model Inter-comparison Project (CMIP5). For each GCM, the simulation time extent included one historical period (1950-2005) and a future period (2006-2099/2100). For the future period, two emission scenarios were used (RCP 4.5/8.5). Leap days have been added to the forcing dataset by averaging Feb-28 and Mar-1 daily forcings.
THREDDS OPeNDAP
1
-124.59375
-103.03125
29.03125
52.84375
1950-01-01T00:00:00Z
2005-12-31T00:00:00Z
0.0
0.0
tight
OPeNDAP Client Access
http://thredds.northwestknowledge.net:8080/thredds/dodsC/vic_Evaporation_HadGEM2-ES365_r1i1p1_historical_1950_2005_WUSA_daily_aggregated.nc
OPeNDAP:OPeNDAP
OPeNDAP
THREDDS OPeNDAP
download
VIC hydrologic simulations using MACAV2-LIVNEH CMIP5 forcings over the western U.S.
creation
2015-01-30
issued
2015-01-30
revision
Dennis L. Lettenmaier
University of Washington
dennisl@uw.edu
http://www.hydro.washington.edu
WWW:LINK
web browser
information
originator
Matt R. Stumbaugh
Research Scientist
This archive contains daily timestep and 1/16-deg resolution hydrologic fluxes and state variables for the western United States produced by Variable Infiltration Capacity (VIC) model simulations. The simulations were forced by Multivariate Adaptive Constructed Analogs (MACA, Abatzoglou, 2012) statistical downscaling of Global Climate Models and trained to Livneh et al (2013) gridded surface observations. Four downscaled meteorological variables were used at a daily timestep: (1) maximum temperature, (2) minimum temperature, (3) precipitation, and (4) average wind speed. The downscaled forcings were constructed using 365-day global climate model (GCM) outputs from Phase 5 of the Coupled Model Inter-comparison Project (CMIP5). For each GCM, the simulation time extent included one historical period (1950-2005) and a future period (2006-2099/2100). For the future period, two emission scenarios were used (RCP 4.5/8.5). Leap days have been added to the forcing dataset by averaging Feb-28 and Mar-1 daily forcings.
Open Geospatial Consortium Web Coverage Service (WCS)
1
-124.59375
-103.03125
29.03125
52.84375
1950-01-01T00:00:00Z
2005-12-31T00:00:00Z
0.0
0.0
tight
GetCapabilities
http://thredds.northwestknowledge.net:8080/thredds/wcs/vic_Evaporation_HadGEM2-ES365_r1i1p1_historical_1950_2005_WUSA_daily_aggregated.nc?service=WCS&version=1.0.0&request=GetCapabilities
OGC:WCS
OGC-WCS
Open Geospatial Consortium Web Coverage Service (WCS)
download
VIC hydrologic simulations using MACAV2-LIVNEH CMIP5 forcings over the western U.S.
creation
2015-01-30
issued
2015-01-30
revision
Dennis L. Lettenmaier
University of Washington
dennisl@uw.edu
http://www.hydro.washington.edu
WWW:LINK
web browser
information
originator
Matt R. Stumbaugh
Research Scientist
This archive contains daily timestep and 1/16-deg resolution hydrologic fluxes and state variables for the western United States produced by Variable Infiltration Capacity (VIC) model simulations. The simulations were forced by Multivariate Adaptive Constructed Analogs (MACA, Abatzoglou, 2012) statistical downscaling of Global Climate Models and trained to Livneh et al (2013) gridded surface observations. Four downscaled meteorological variables were used at a daily timestep: (1) maximum temperature, (2) minimum temperature, (3) precipitation, and (4) average wind speed. The downscaled forcings were constructed using 365-day global climate model (GCM) outputs from Phase 5 of the Coupled Model Inter-comparison Project (CMIP5). For each GCM, the simulation time extent included one historical period (1950-2005) and a future period (2006-2099/2100). For the future period, two emission scenarios were used (RCP 4.5/8.5). Leap days have been added to the forcing dataset by averaging Feb-28 and Mar-1 daily forcings.
Open Geospatial Consortium Web Map Service (WMS)
1
-124.59375
-103.03125
29.03125
52.84375
1950-01-01T00:00:00Z
2005-12-31T00:00:00Z
0.0
0.0
tight
GetCapabilities
http://thredds.northwestknowledge.net:8080/thredds/wms/vic_Evaporation_HadGEM2-ES365_r1i1p1_historical_1950_2005_WUSA_daily_aggregated.nc?service=WMS&version=1.3.0&request=GetCapabilities
OGC:WMS
OGC-WMS
Open Geospatial Consortium Web Map Service (WMS)
download
VIC hydrologic simulations using MACAV2-LIVNEH CMIP5 forcings over the western U.S.
creation
2015-01-30
issued
2015-01-30
revision
Dennis L. Lettenmaier
University of Washington
dennisl@uw.edu
http://www.hydro.washington.edu
WWW:LINK
web browser
information
originator
Matt R. Stumbaugh
Research Scientist
This archive contains daily timestep and 1/16-deg resolution hydrologic fluxes and state variables for the western United States produced by Variable Infiltration Capacity (VIC) model simulations. The simulations were forced by Multivariate Adaptive Constructed Analogs (MACA, Abatzoglou, 2012) statistical downscaling of Global Climate Models and trained to Livneh et al (2013) gridded surface observations. Four downscaled meteorological variables were used at a daily timestep: (1) maximum temperature, (2) minimum temperature, (3) precipitation, and (4) average wind speed. The downscaled forcings were constructed using 365-day global climate model (GCM) outputs from Phase 5 of the Coupled Model Inter-comparison Project (CMIP5). For each GCM, the simulation time extent included one historical period (1950-2005) and a future period (2006-2099/2100). For the future period, two emission scenarios were used (RCP 4.5/8.5). Leap days have been added to the forcing dataset by averaging Feb-28 and Mar-1 daily forcings.
THREDDS NetCDF Subset Service
1
-124.59375
-103.03125
29.03125
52.84375
1950-01-01T00:00:00Z
2005-12-31T00:00:00Z
0.0
0.0
tight
NetCDFSubsetService
http://thredds.northwestknowledge.net:8080/thredds/ncss/grid/vic_Evaporation_HadGEM2-ES365_r1i1p1_historical_1950_2005_WUSA_daily_aggregated.nc/dataset.html
UNIDATA:NCSS
THREDDS_NetCDF_Subset
THREDDS NetCDF Subset Service
download
Evaporation
float
total net evaporation from surface and vegetation (water_evaporation_flux)
Latitude
double
latitude
Longitude
double
longitude
crs
float
Time
int
time
Northwest Knowledge Network
info@northwestknowledge.net
http://www.northwestknowledge.net
WWW:LINK
web browser
URL for the data publisher
This URL provides contact information for the publisher of this dataset
information
publisher
OPeNDAP
http://thredds.northwestknowledge.net:8080/thredds/dodsC/vic_Evaporation_HadGEM2-ES365_r1i1p1_historical_1950_2005_WUSA_daily_aggregated.nc.html
WWW:LINK
File Information
This URL provides a standard OPeNDAP html interface for selecting data from this dataset. Change the extension to .info for a description of the dataset.
download
http://www.ncdc.noaa.gov/oa/wct/wct-jnlp-beta.php?singlefile=http://thredds.northwestknowledge.net:8080/thredds/dodsC/vic_Evaporation_HadGEM2-ES365_r1i1p1_historical_1950_2005_WUSA_daily_aggregated.nc
WWW:LINK
Viewer Information
This URL provides an NCDC climate and weather toolkit view of an OPeNDAP resource.
mapDigital
dataset
Sat May 14 05:16:46 2016: ncatted -O -a calendar,Time,m,c,gregorian vic_Evaporation_HadGEM2-ES365_r1i1p1_historical_1990_1999_WUSA_daily.nc
Sat May 14 05:16:46 2016: ncatted -O -a standard_name,Time,m,c,time vic_Evaporation_HadGEM2-ES365_r1i1p1_historical_1990_1999_WUSA_daily.nc
Sat May 14 05:16:46 2016: ncatted -O -a long_name,Time,m,c,time vic_Evaporation_HadGEM2-ES365_r1i1p1_historical_1990_1999_WUSA_daily.nc
Sat May 14 05:16:46 2016: ncatted -O -a origin,Time,m,c,1900-01-01 vic_Evaporation_HadGEM2-ES365_r1i1p1_historical_1990_1999_WUSA_daily.nc
Sat May 14 05:16:46 2016: ncatted -O -a units,Time,m,c,days since 1900-01-01 vic_Evaporation_HadGEM2-ES365_r1i1p1_historical_1990_1999_WUSA_daily.nc
Sat May 14 05:14:31 2016: ncap2 -O -s Time=Time+32872 vic_Evaporation_HadGEM2-ES365_r1i1p1_historical_1990_1999_WUSA_daily.nc vic_Evaporation_HadGEM2-ES365_r1i1p1_historical_1990_1999_WUSA_daily.nc
Fri Jan 30 19:30:00 2015: /sw/contrib/hydro/icc_14.0.2/bin/ncks -O -L 1 /scr/hydro/mrstu/HadGEM2-ES365_r1i1p1_historical_daily/vic_Evaporation_HadGEM2-ES365_r1i1p1_historical_1990_1999_WUSA_daily/vic_Evaporation_HadGEM2-ES365_r1i1p1_historical_1990_1999_WUSA_daily.nc /civil/hydro/mrstu/IS/sim-ulm/projects/prj3/simdata-vic-catted-final/HadGEM2-ES365_r1i1p1_historical_daily/vic_Evaporation_HadGEM2-ES365_r1i1p1_historical_1990_1999_WUSA_daily.nc
Created by Matt Stumbaugh, University of Washington, Civil and Environmental Engineering, Land Surface Hydrology Group
This record was translated from NcML using UnidataDD2MI.xsl Version 2.3.4. (2024-03-29T08:55:16.733-07:00)