Spatial simulation of snow processes [snow accumulation and melt, watershed information, topography, vegetation, soils, classification of snow, snowcover, Colorado, Williams Fork Watershed, Central Rocky Mountains]

A spatially distributed model for the simulation of snow accumulation and melt is presented. Watershed information on topography, vegetation and soils in digital terrain models (overlays) serve as the data base for watershed analysis, classification of snow in Landsat imagery and automatic generatio...

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Bibliographic Details
Published in:Hydrology Research 1980-01, Vol.11 (5), p.273-284
Main Author: Thomsen, A.G. (Dansk Hydraulisk Inst., Hoersholm)
Format: Article
Language:English
Subjects:
Cell size
Computer simulation
Data processing
Decks
Forest effects
Forest management
Image classification
Imagery
Landsat
Landsat satellites
Rain
Rainfall simulators
Remote sensing
Satellite imagery
Simulation
Snow
Snow accumulation
Snow cover
Snowmelt
Soil
Stream discharge
Stream flow
Terrain
Topography (geology)
Watersheds
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Summary:A spatially distributed model for the simulation of snow accumulation and melt is presented. Watershed information on topography, vegetation and soils in digital terrain models (overlays) serve as the data base for watershed analysis, classification of snow in Landsat imagery and automatic generation of parameter decks for operating distributed simulation models of snowcover dynamics and streamflow generation. Snow processes are simulated within variable size grid-cell elements. The hydrograph resulting from spring snow-melt is simulated by a lateral flow model of streamflow generation driven by simulated snowmelt and rain inputs. Options are avilable for simulating the effects of forest management alternatives on selected areas. Snow course measurements and classified Landsat imagery are used for updating simulated parameters.
ISSN:0029-1277
1998-9563
2224-7955
DOI:10.2166/nh.1980.0014