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Long-term streamflow and suspended-sediment database
(2000)
Northwest Watershed Research Center, Agricultural Research Service, U.S. Department of Agriculture, 800 Park Blvd., Suite 105, Boise, ID 83712-7716
Clark (2001)
Intermountain plant community classification using Landsat TM and SPOT HRV dataJ. Range Manage., 54
J. Garbrecht, L. Martz (1997)
Automated channel ordering and node indexing for Raster channel networksComputers & Geosciences, 23
C. Slaughter, D. Marks, G. Flerchinger, S. Vactor, M. Burgess (2001)
Thirty‐five years of research data collection at the Reynolds Creek Experimental Watershed, Idaho, United StatesWater Resources Research, 37
M. Seyfried, B. Wilcox (1995)
Scale and the Nature of Spatial Variability: Field Examples Having Implications for Hydrologic ModelingWater Resources Research, 31
L. Martz, J. Garbrecht (1993)
Automated extraction of drainage network and watershed data from digital elevation modelsJournal of The American Water Resources Association, 29
Martz Martz, Garbrecht Garbrecht (1993)
Automated extraction of drainage network and watershed data from digital elevation modelsWater Resour. Bull., 29
P. Clark, M. Seyfried, B. Harris (2001)
Intermountain plant community classification using Landsat TM and SPOT HRV data.Journal of Range Management, 54
S. Goyal, M. Seyfried, P. O’neill (1999)
Correction of Surface Roughness and Topographic Effects on Airborne SAR in Mountainous Rangeland AreasRemote Sensing of Environment, 67
TOPAZ : An Automated Digital Landscape Analysis Tool for Topographic Evaluation , Drainage Identification , Watershed Segmentation and Subcatchment Parameterization
(2000)
Department of Agriculture, 800 Park Blvd
F. Pierson, C. Slaughter, Zane Cram (2001)
Long‐Term Stream Discharge and Suspended‐Sediment Database, Reynolds Creek Experimental Watershed, Idaho, United StatesWater Resources Research, 37
T. Shiflet (1994)
Rangeland cover types of the United States.
(2000)
A geographic database for watershed research: Reynolds Creek Experimental Watershed
(1972)
Cenozoic geology of the Reynolds Creek Experimental Watershed, Owyhee County, Idaho, Pam
M. Seyfried (1998)
Spatial variability constraints to modeling soil water at different scalesGeoderma, 85
A. Huete (1988)
A soil-adjusted vegetation index (SAVI)Remote Sensing of Environment, 25
The Reynolds Creek Experimental Watershed (RCEW) exhibits spatial variability typical of the intermountain region. We provide a geographic database to provide continuous spatial coverage of landscape properties that may be useful for distributed hydrological modeling or other kinds of spatial analyses and to provide a spatial context for point measurements that have been part of the long‐term monitoring described in companion papers. All data are available as separate geographic information system (GIS) layers which can be selected independently according to need. The base map for all the RCEW GIS layers is a 30 m resolution digital elevation model. Data are available in either vector or raster format where appropriate via the U.S. Department of Agriculture, Agricultural Research Service, Northwest Watershed Research Center anonymous ftp site ftp.nwrc.ars.usda.gov.
Water Resources Research – Wiley
Published: Nov 1, 2001
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