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- Title
A deterministic method to characterize canopy radiative transfer properties.
- Authors
Timothy E. Link; Danny Marks; Janet P. Hardy
- Abstract
Investigations of snowcover dynamics beneath vegetation canopies require either measured or estimated solar and thermal radiation values at the snow surface. A deterministic method is presented that uses portable arrays of pyranometers and pyrgeometers to quantify the amount of incoming radiation at the snow surface. Example solar and thermal radiation datasets are presented from boreal deciduous, boreal coniferous and temperate coniferous forest stands. The data indicate that the canopies transmitted 33% (48 March), 15% (610 February), and 3% (2224 September) of the above-canopy radiation. In the boreal deciduous and temperate conifer stands, thermal radiation is increased by 25% and 34% respectively. Thermal gains partially offset solar reduction, such that incoming all-wave radiation is decreased by 22% and 25% respectively for each of these stands. When recorded at a high temporal resolution, array data can estimate below-canopy diffuse solar radiation values for estimation techniques that treat direct and diffuse transmission independently. We provide examples of how radiometer array data are used to derive simple canopy radiation transmissivity parameters for global, beam and diffuse radiation. Radiometer arrays also provide data for detailed investigations to assess within-stand radiation variability, or to investigate radiation variations across land cover discontinuities, to advance our understanding of snowcover energetics in complex environments. Copyright 2004 John Wiley & Sons, Ltd.
- Subjects
HEAT radiation &; absorption; RADIOMETERS; ELECTROMAGNETIC waves; SOLAR radiation
- Publication
Hydrological Processes, 2004, Vol 18, Issue 18, p3583
- ISSN
0885-6087
- Publication type
Article
- DOI
10.1002/hyp.5793