Results 311 to 320 of about 347,919 (347)
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ATMOSPHERE-OCEAN, 2019
In situ observations of snow water equivalent (SWE) from manual snow surveys and automated sensors are made at approximately 1000 sites across Canada in support of water resource planning for flood control and hydroelectricity production.
Ross D. Brown, B. Fang, L. Mudryk
semanticscholar +1 more source
In situ observations of snow water equivalent (SWE) from manual snow surveys and automated sensors are made at approximately 1000 sites across Canada in support of water resource planning for flood control and hydroelectricity production.
Ross D. Brown, B. Fang, L. Mudryk
semanticscholar +1 more source
Monitoring Snow Water Equivalent in the Indian Himalayas
2021The thesis deals with snow water equivalent (SWE) estimation using Polarimetric SAR (PolSAR) data at C- and X-band. SWE retrieval methodologies are developed using PolSAR, targeting mono-, dual-, and full-polarization SAR data. Field-based measurements have helped in the development and validation of the proposed algorithm.
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Prediction of snow-water equivalents in coniferous forests
Canadian Journal of Forest Research, 1981Less snow accumulates under forest canopies than in small openings. Analysis of relationships between canopy cover and snow-water equivalents (SWE) for coniferous forests indicate substantial differences between areas and years. Many of these differences result from differences in the total amount of snowfall. The difference between SWE values in open
Alton S. Harestad, Fred L. Bunnell
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The Canadian boreal snow water equivalent band
Atmosphere-Ocean, 2006Abstract Satellite and conventional snow water equivalent (SWE) dataseis reveal a well‐defined zone of high winter season SWE (>100 mm) that extends across the northern boreal forest of Canada. SWE coefficient of variation (CV) patterns derived from a monthly averaged (1978–2002) passive microwave derived time series show a high degree of interannual ...
C. Derksen, M. MacKay
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Determining snow water equivalent by acoustic sounding
Hydrological Processes, 2007AbstractThe possibility of determining snow water equivalent (SWE) by the use of an acoustic impulse was assessed at two field locations in Saskatchewan and British Columbia, Canada. These sites represent cold windswept prairie and temperate deep mountain snowcovers.
N. J. Kinar, J. W. Pomeroy
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Geophysical Research Letters, 2019
Snow water equivalent (SWE), particularly in mountains regions, has been an elusive hydrologic measurement. We examine the utility of a data assimilation approach to generate space‐time continuous estimates of SWE from more readily available snow depth ...
S. Margulis +4 more
semanticscholar +1 more source
Snow water equivalent (SWE), particularly in mountains regions, has been an elusive hydrologic measurement. We examine the utility of a data assimilation approach to generate space‐time continuous estimates of SWE from more readily available snow depth ...
S. Margulis +4 more
semanticscholar +1 more source
Evaluating different machine learning algorithms for snow water equivalent prediction
Earth Science Informatics, 2022M. Vafakhah +3 more
semanticscholar +1 more source
Snow water equivalent variability and forecast in Lithuania
2002Atmosphere circulation is the most important modulator of snow cover parameters. This study deals with the relation between the dominant Northern Hemisphere circulation mode, called the Arctic Oscillation (AO), and the spatial distribution of the snow water equivalent (SWE) within the territory of Lithuania.
Rimkus, E., Stankunavichius, G.
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