Synergistic effect of vegetation and air temperature changes on soil water content in alpine frost meadow soil in the permafrost region of Qinghai-Tibet

Seasonal changes over 2 years (2004-2006) in soil moisture content (0,,) of frozen alpine frost meadow soils of the Qinghai-Tibet plateau permafrost region under three different levels of vegetation cover were investigated. Vegetation cover and air temperature changes had significant effect (synergi...

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Published in:Hydrological Processes
Main Authors: Wang, Genxu, Li, Yuanshou, Hu, Hongchang, Wang, Yibo
Format: Article in Journal/Newspaper
Language:English
Published: 2008
Subjects:
Permafrost
Soil Water Content
Alpine Frost Meadow
Vegetation Cover
Temperature Change
Science & Technology
Physical Sciences
Water Resources
PLATEAU
HYDROLOGY
ECOSYSTEM
ALASKA
permafrost
Alaska
Online Access:http://ir.imde.ac.cn/handle/131551/10530
https://doi.org/10.1002/hyp.6913
id ftchinacadscimhe:oai:ir.imde.ac.cn:131551/10530
record_format openpolar
spelling ftchinacadscimhe:oai:ir.imde.ac.cn:131551/10530 2023-05-15T17:57:09+02:00 Synergistic effect of vegetation and air temperature changes on soil water content in alpine frost meadow soil in the permafrost region of Qinghai-Tibet Wang, Genxu Li, Yuanshou Hu, Hongchang Wang, Yibo 2008 http://ir.imde.ac.cn/handle/131551/10530 https://doi.org/10.1002/hyp.6913 英语 eng HYDROLOGICAL PROCESSES Wang, Genxu,Li, Yuanshou,Hu, Hongchang,et al. Synergistic effect of vegetation and air temperature changes on soil water content in alpine frost meadow soil in the permafrost region of Qinghai-Tibet[J]. HYDROLOGICAL PROCESSES,2008,22(17):3310-3320. http://ir.imde.ac.cn/handle/131551/10530 doi:10.1002/hyp.6913 Permafrost Soil Water Content Alpine Frost Meadow Vegetation Cover Temperature Change Science & Technology Physical Sciences Water Resources PLATEAU HYDROLOGY ECOSYSTEM ALASKA Article 期刊论文 2008 ftchinacadscimhe https://doi.org/10.1002/hyp.6913 2022-12-19T18:19:15Z Seasonal changes over 2 years (2004-2006) in soil moisture content (0,,) of frozen alpine frost meadow soils of the Qinghai-Tibet plateau permafrost region under three different levels of vegetation cover were investigated. Vegetation cover and air temperature changes had significant effect (synergistic effect) on theta(v) and its distribution in the soil profile. During periods of soil freezing or thawing, the less the vegetation cover, the quicker the temperature drop or rise of soil water, and the shorter the duration of the soil water freeze-thaw response in the active soil layer. Under 30% and 65% vegetation cover the amplitude of variation in theta(v) during the freezing period was 20-26% greater than that under 93% cover, while during the thawing period, it was 1.5- to 40-5-fold greater. The freezing temperature of the Surface soil layer, (f)T(s), was 1.6 degrees C lower under 30% vegetation cover than under 93% vegetation cover. Changes in vegetation cover of the alpine frost meadow affected theta(v) and its distribution, as well as the relationship between theta(v) and soil temperature (T(s)). As vegetation cover decreased, soil water circulation in the active layer increased, and the response to temperature of the water distribution across the soil profile was heightened. The quantity of transitional soil phase water at different depths significantly increased as vegetation cover decreased. The influence of vegetation cover and soil temperature distribution led to a relatively dry soil layer in the middle of the profile (0.70-0.80 m) under high vegetation cover. Alpine meadow theta(v) and its pattern of distribution in the permafrost region were the result of the synergistic effect of air temperature and vegetation cover. Copyright (C) 2007 John Wiley & Soils, Ltd. Article in Journal/Newspaper permafrost Alaska IMHE OpenIR (Institute of Mountain Hazards and Environment, Chinese Academy of Sciences) Hydrological Processes 22 17 3310 3320
institution Open Polar
collection IMHE OpenIR (Institute of Mountain Hazards and Environment, Chinese Academy of Sciences)
op_collection_id ftchinacadscimhe
language English
topic Permafrost
Soil Water Content
Alpine Frost Meadow
Vegetation Cover
Temperature Change
Science & Technology
Physical Sciences
Water Resources
PLATEAU
HYDROLOGY
ECOSYSTEM
ALASKA
spellingShingle Permafrost
Soil Water Content
Alpine Frost Meadow
Vegetation Cover
Temperature Change
Science & Technology
Physical Sciences
Water Resources
PLATEAU
HYDROLOGY
ECOSYSTEM
ALASKA
Wang, Genxu
Li, Yuanshou
Hu, Hongchang
Wang, Yibo
Synergistic effect of vegetation and air temperature changes on soil water content in alpine frost meadow soil in the permafrost region of Qinghai-Tibet
topic_facet Permafrost
Soil Water Content
Alpine Frost Meadow
Vegetation Cover
Temperature Change
Science & Technology
Physical Sciences
Water Resources
PLATEAU
HYDROLOGY
ECOSYSTEM
ALASKA
description Seasonal changes over 2 years (2004-2006) in soil moisture content (0,,) of frozen alpine frost meadow soils of the Qinghai-Tibet plateau permafrost region under three different levels of vegetation cover were investigated. Vegetation cover and air temperature changes had significant effect (synergistic effect) on theta(v) and its distribution in the soil profile. During periods of soil freezing or thawing, the less the vegetation cover, the quicker the temperature drop or rise of soil water, and the shorter the duration of the soil water freeze-thaw response in the active soil layer. Under 30% and 65% vegetation cover the amplitude of variation in theta(v) during the freezing period was 20-26% greater than that under 93% cover, while during the thawing period, it was 1.5- to 40-5-fold greater. The freezing temperature of the Surface soil layer, (f)T(s), was 1.6 degrees C lower under 30% vegetation cover than under 93% vegetation cover. Changes in vegetation cover of the alpine frost meadow affected theta(v) and its distribution, as well as the relationship between theta(v) and soil temperature (T(s)). As vegetation cover decreased, soil water circulation in the active layer increased, and the response to temperature of the water distribution across the soil profile was heightened. The quantity of transitional soil phase water at different depths significantly increased as vegetation cover decreased. The influence of vegetation cover and soil temperature distribution led to a relatively dry soil layer in the middle of the profile (0.70-0.80 m) under high vegetation cover. Alpine meadow theta(v) and its pattern of distribution in the permafrost region were the result of the synergistic effect of air temperature and vegetation cover. Copyright (C) 2007 John Wiley & Soils, Ltd.
format Article in Journal/Newspaper
author Wang, Genxu
Li, Yuanshou
Hu, Hongchang
Wang, Yibo
author_facet Wang, Genxu
Li, Yuanshou
Hu, Hongchang
Wang, Yibo
author_sort Wang, Genxu
title Synergistic effect of vegetation and air temperature changes on soil water content in alpine frost meadow soil in the permafrost region of Qinghai-Tibet
title_short Synergistic effect of vegetation and air temperature changes on soil water content in alpine frost meadow soil in the permafrost region of Qinghai-Tibet
title_full Synergistic effect of vegetation and air temperature changes on soil water content in alpine frost meadow soil in the permafrost region of Qinghai-Tibet
title_fullStr Synergistic effect of vegetation and air temperature changes on soil water content in alpine frost meadow soil in the permafrost region of Qinghai-Tibet
title_full_unstemmed Synergistic effect of vegetation and air temperature changes on soil water content in alpine frost meadow soil in the permafrost region of Qinghai-Tibet
title_sort synergistic effect of vegetation and air temperature changes on soil water content in alpine frost meadow soil in the permafrost region of qinghai-tibet
publishDate 2008
url http://ir.imde.ac.cn/handle/131551/10530
https://doi.org/10.1002/hyp.6913
genre permafrost
Alaska
genre_facet permafrost
Alaska
op_relation HYDROLOGICAL PROCESSES
Wang, Genxu,Li, Yuanshou,Hu, Hongchang,et al. Synergistic effect of vegetation and air temperature changes on soil water content in alpine frost meadow soil in the permafrost region of Qinghai-Tibet[J]. HYDROLOGICAL PROCESSES,2008,22(17):3310-3320.
http://ir.imde.ac.cn/handle/131551/10530
doi:10.1002/hyp.6913
op_doi https://doi.org/10.1002/hyp.6913
container_title Hydrological Processes
container_volume 22
container_issue 17
container_start_page 3310
op_container_end_page 3320
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