Variation of surface albedo and soil thermal parameters with soil moisture content at a semi-desert site on the western Tibetan Plateau
Variation of surface albedo and soil thermal parameters with soil moisture content at a semi-desert site on the western Tibetan Plateau
Almost three years of continuous measurements taken between January 2001 and May 2003 at the Gaize (or Gerze) automatic weather station (32.30N, 84.06E, 4420 m), a cold semi-desert site on the western Tibetan Plateau, have been used to study seasonal and annual variations of surface albedo and soil thermal parameters, such as thermal conductivity, thermal capacity and thermal diffusivity, and their relationship to soil moisture content. Most of these parameters undergo dramatic seasonal and annual variations. Surface albedo decreases with increasing soil moisture content, showing the typical exponential relation between surface albedo and soil moisture. Soil thermal conductivity increases as a power function of soil moisture content. The diffusivity first increases with increasing soil moisture, reaching its maximum at about 0.25 (volume per volume), then slowly decreases. Soil thermal capacity is rather stable for a wide range of soil moisture content.
albedo, energy and water cycle, soil moisture, soil thermal capacity, soil thermal conductivity, soil thermal diffusivity
117-129
Wang, K.
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Wang, P.
df957848-e6e4-45f0-ba01-2d966a30aa67
Liu, J.
516e902e-000e-4f9c-b9bc-bac18b1f5ade
Sparrow, M.
0a312725-a227-4199-8852-baf7a0869768
Haginoya, S.
a17c56d8-7026-469c-8323-c9a683e70bf7
Zhou, X.
bee0e911-42d5-4854-8520-cf87faecb3a9
2005
Wang, K.
2b399d1b-c3f1-4863-b78b-dd9135ef7532
Wang, P.
df957848-e6e4-45f0-ba01-2d966a30aa67
Liu, J.
516e902e-000e-4f9c-b9bc-bac18b1f5ade
Sparrow, M.
0a312725-a227-4199-8852-baf7a0869768
Haginoya, S.
a17c56d8-7026-469c-8323-c9a683e70bf7
Zhou, X.
bee0e911-42d5-4854-8520-cf87faecb3a9
Wang, K., Wang, P., Liu, J., Sparrow, M., Haginoya, S. and Zhou, X.
(2005)
Variation of surface albedo and soil thermal parameters with soil moisture content at a semi-desert site on the western Tibetan Plateau.
Boundary-Layer Meteorology, 116 (1), .
Abstract
Almost three years of continuous measurements taken between January 2001 and May 2003 at the Gaize (or Gerze) automatic weather station (32.30N, 84.06E, 4420 m), a cold semi-desert site on the western Tibetan Plateau, have been used to study seasonal and annual variations of surface albedo and soil thermal parameters, such as thermal conductivity, thermal capacity and thermal diffusivity, and their relationship to soil moisture content. Most of these parameters undergo dramatic seasonal and annual variations. Surface albedo decreases with increasing soil moisture content, showing the typical exponential relation between surface albedo and soil moisture. Soil thermal conductivity increases as a power function of soil moisture content. The diffusivity first increases with increasing soil moisture, reaching its maximum at about 0.25 (volume per volume), then slowly decreases. Soil thermal capacity is rather stable for a wide range of soil moisture content.
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Published date: 2005
Keywords:
albedo, energy and water cycle, soil moisture, soil thermal capacity, soil thermal conductivity, soil thermal diffusivity
Identifiers
Local EPrints ID: 24593
URI: http://eprints.soton.ac.uk/id/eprint/24593
ISSN: 0006-8314
PURE UUID: 20dbbcc4-53a9-477b-9be6-fda888d440b2
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Date deposited: 30 Mar 2006
Last modified: 26 Apr 2022 20:41
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Contributors
Author:
K. Wang
Author:
P. Wang
Author:
J. Liu
Author:
M. Sparrow
Author:
S. Haginoya
Author:
X. Zhou
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