Development and evaluation of the soil water balance model in an inland arid delta oasis: Implications for sustainable groundwater resource management

Development and evaluation of the soil water balance model in an inland arid delta oasis: Implications for sustainable groundwater resource management

Sampling and testing were conducted on the groundwater level depth, soil water content, and vegetation coverage in the delta oasis of the WeiGan-KuChe River Basin, and a method for analyzing soil water balances for groundwater-dependent vegetation (GDV) was developed using the soil water balance mod...

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Main Authors: Balati Maihemuti, Zibibula Simayi, Yilinuer Alifujiang, Tayierjiang Aishan, Abdulla Abliz, Gulaimubaier Aierken
Format: Article
Language:English
Published: Elsevier 2021-01-01
Series:Global Ecology and Conservation
Subjects:
Soil water balances
WeiGan-KuChe river basin
Groundwater-dependent vegetation
HYDRUS-1D
Online Access:http://www.sciencedirect.com/science/article/pii/S2351989420309495
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spelling doaj-04f06760a66b4d30a6d9e5af56a374a72021-01-28T04:08:33ZengElsevierGlobal Ecology and Conservation2351-98942021-01-0125e01408Development and evaluation of the soil water balance model in an inland arid delta oasis: Implications for sustainable groundwater resource managementBalati Maihemuti0Zibibula Simayi1Yilinuer Alifujiang2Tayierjiang Aishan3Abdulla Abliz4Gulaimubaier Aierken5College of Resource and Environmental Sciences, Xinjiang University, Urumqi, 830046, China; Key Laboratory of Oasis Ecology Xinjiang University, Urumqi, 830046, China; Corresponding author. College of Resource and Environment Sciences Xinjiang University, 14 Shengli Road, Tianshan district, Urumqi, 830046, PR China.College of Resource and Environmental Sciences, Xinjiang University, Urumqi, 830046, China; Key Laboratory of Oasis Ecology Xinjiang University, Urumqi, 830046, ChinaCollege of Resource and Environmental Sciences, Xinjiang University, Urumqi, 830046, China; Key Laboratory of Oasis Ecology Xinjiang University, Urumqi, 830046, ChinaCollege of Resource and Environmental Sciences, Xinjiang University, Urumqi, 830046, China; Key Laboratory of Oasis Ecology Xinjiang University, Urumqi, 830046, ChinaCollege of Tourism, Xinjiang University, Urumqi, 830046, ChinaCollege of Water Conservancy and Civil Engineering, Xinjiang Agricultural University, Urumqi, 830052, ChinaSampling and testing were conducted on the groundwater level depth, soil water content, and vegetation coverage in the delta oasis of the WeiGan-KuChe River Basin, and a method for analyzing soil water balances for groundwater-dependent vegetation (GDV) was developed using the soil water balance model with the Richards equation. Three typical observation points (sites A, B, and C) were selected to understand the relationship between plant transpiration, soil water content changes, and groundwater level depth via HYDRUS-1D model simulations. The model calibration results showed that the simulated water contents at each site and in each soil layer fit well with the measured data and the comparison results of each sites are R2A = 0.81, R2B = 0.89, R2C = 0.78, in respectively. The soil water balance model of the three different sites demonstrated that vegetation transpiration was related to the groundwater level depth, vegetation cover, and plant age (P. euphratica). According to field observations within the WeiGan-KuChe River delta oasis, the groundwater level depth influenced the soil moisture and soil salinity, which are the most important environmental factors determining the distribution and changes in GDV. When the groundwater level depth was below 1 m or above 6 m, the plant species occurrence frequency decreased by 10%, and the degree of land desertification was severe. These simulations and field investigation results showed that the groundwater level threshold for salinity control was approximately 1 m, the ecological warning threshold varied by approximately 5 m, and the preferred groundwater level for GDV growth varied between 2 and 4 m. The findings of this study have important implications for groundwater resource management and ecological preservation in arid and semiarid areas.http://www.sciencedirect.com/science/article/pii/S2351989420309495Soil water balancesWeiGan-KuChe river basinGroundwater-dependent vegetationHYDRUS-1D
collection DOAJ
language English
format Article
sources DOAJ
author Balati Maihemuti
Zibibula Simayi
Yilinuer Alifujiang
Tayierjiang Aishan
Abdulla Abliz
Gulaimubaier Aierken
spellingShingle Balati Maihemuti
Zibibula Simayi
Yilinuer Alifujiang
Tayierjiang Aishan
Abdulla Abliz
Gulaimubaier Aierken
Development and evaluation of the soil water balance model in an inland arid delta oasis: Implications for sustainable groundwater resource management
Global Ecology and Conservation
Soil water balances
WeiGan-KuChe river basin
Groundwater-dependent vegetation
HYDRUS-1D
author_facet Balati Maihemuti
Zibibula Simayi
Yilinuer Alifujiang
Tayierjiang Aishan
Abdulla Abliz
Gulaimubaier Aierken
author_sort Balati Maihemuti
title Development and evaluation of the soil water balance model in an inland arid delta oasis: Implications for sustainable groundwater resource management
title_short Development and evaluation of the soil water balance model in an inland arid delta oasis: Implications for sustainable groundwater resource management
title_full Development and evaluation of the soil water balance model in an inland arid delta oasis: Implications for sustainable groundwater resource management
title_fullStr Development and evaluation of the soil water balance model in an inland arid delta oasis: Implications for sustainable groundwater resource management
title_full_unstemmed Development and evaluation of the soil water balance model in an inland arid delta oasis: Implications for sustainable groundwater resource management
title_sort development and evaluation of the soil water balance model in an inland arid delta oasis: implications for sustainable groundwater resource management
publisher Elsevier
series Global Ecology and Conservation
issn 2351-9894
publishDate 2021-01-01
description Sampling and testing were conducted on the groundwater level depth, soil water content, and vegetation coverage in the delta oasis of the WeiGan-KuChe River Basin, and a method for analyzing soil water balances for groundwater-dependent vegetation (GDV) was developed using the soil water balance model with the Richards equation. Three typical observation points (sites A, B, and C) were selected to understand the relationship between plant transpiration, soil water content changes, and groundwater level depth via HYDRUS-1D model simulations. The model calibration results showed that the simulated water contents at each site and in each soil layer fit well with the measured data and the comparison results of each sites are R2A = 0.81, R2B = 0.89, R2C = 0.78, in respectively. The soil water balance model of the three different sites demonstrated that vegetation transpiration was related to the groundwater level depth, vegetation cover, and plant age (P. euphratica). According to field observations within the WeiGan-KuChe River delta oasis, the groundwater level depth influenced the soil moisture and soil salinity, which are the most important environmental factors determining the distribution and changes in GDV. When the groundwater level depth was below 1 m or above 6 m, the plant species occurrence frequency decreased by 10%, and the degree of land desertification was severe. These simulations and field investigation results showed that the groundwater level threshold for salinity control was approximately 1 m, the ecological warning threshold varied by approximately 5 m, and the preferred groundwater level for GDV growth varied between 2 and 4 m. The findings of this study have important implications for groundwater resource management and ecological preservation in arid and semiarid areas.
topic Soil water balances
WeiGan-KuChe river basin
Groundwater-dependent vegetation
HYDRUS-1D
url http://www.sciencedirect.com/science/article/pii/S2351989420309495
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AT zibibulasimayi developmentandevaluationofthesoilwaterbalancemodelinaninlandariddeltaoasisimplicationsforsustainablegroundwaterresourcemanagement
AT yilinueralifujiang developmentandevaluationofthesoilwaterbalancemodelinaninlandariddeltaoasisimplicationsforsustainablegroundwaterresourcemanagement
AT tayierjiangaishan developmentandevaluationofthesoilwaterbalancemodelinaninlandariddeltaoasisimplicationsforsustainablegroundwaterresourcemanagement
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