A distributed modeling approach to water balance implications from changing land cover dynamics in permafrost environments

IF 8 1区 环境科学与生态学 Q1 GEOGRAPHY, PHYSICAL
Naveed Ahmed , Haishen Lu , Zhongbo Yu , Oluwafemi E. Adeyeri , Muhammad Shahid Iqbal , Jinbin Su
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Abstract

There is 78 % permafrost and seasonal frozen soil in the Yangtze River’s Source Region (SRYR), which is situated in the middle of the Qinghai-Xizang Plateau. Three distinct scenarios were developed in the Soil and Water Assessment Tool (SWAT) to model the effects of land cover change (LCC) on various water balance components. Discharge and percolation of groundwater have decreased by mid-December. This demonstrates the seasonal contributions of subsurface water, which diminish when soil freezes. During winter, when surface water inputs are low, groundwater storage becomes even more critical to ensure water supply due to this periodic trend. An impermeable layer underneath the active layer thickness decreases GWQ and PERC in LCC + permafrost scenario. The water transport and storage phase reached a critical point in August when precipitation, permafrost thawing, and snowmelt caused LATQ to surge. To prevent waterlogging and save water for dry periods, it is necessary to control this peak flow phase. Hydrological processes, permafrost dynamics, and land cover changes in the SRYR are difficult, according to the data. These interactions enhance water circulation throughout the year, recharge of groundwater supplies, surface runoff, and lateral flow. For the region’s water resource management to be effective in sustaining ecohydrology, ensuring appropriate water storage, and alleviating freshwater scarcity, these dynamics must be considered.

Abstract Image

采用分布式建模方法研究永冻土环境中土地覆盖动态变化对水平衡的影响
位于青藏高原中部的长江源地区(SRYR)有 78% 的永久冻土和季节性冻土。水土评估工具(SWAT)开发了三种不同的情景,以模拟土地覆被变化(LCC)对水量平衡各组成部分的影响。到 12 月中旬,地下水的排泄量和渗透量都有所下降。这表明地下水的季节性贡献在土壤冻结时会减少。在地表水输入量较低的冬季,由于这种周期性趋势,地下水储存对确保供水变得更加重要。在 LCC + 永冻土方案中,活动层下的不透水层会降低 GWQ 和 PERC。8 月份,降水、冻土融化和融雪导致 LATQ 激增,水的输送和储存阶段达到临界点。为防止内涝并为干旱期蓄水,有必要控制这一流量高峰阶段。数据显示,SRYR 地区的水文过程、冻土动态和土地覆盖变化都很困难。这些相互作用加强了全年的水循环、地下水补给、地表径流和横向流动。该地区的水资源管理要想有效地维持生态水文、确保适当的蓄水和缓解淡水匮乏,就必须考虑到这些动态变化。
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来源期刊
Geography and Sustainability
Geography and Sustainability Social Sciences-Geography, Planning and Development
CiteScore
16.70
自引率
3.10%
发文量
32
审稿时长
41 days
期刊介绍: Geography and Sustainability serves as a central hub for interdisciplinary research and education aimed at promoting sustainable development from an integrated geography perspective. By bridging natural and human sciences, the journal fosters broader analysis and innovative thinking on global and regional sustainability issues. Geography and Sustainability welcomes original, high-quality research articles, review articles, short communications, technical comments, perspective articles and editorials on the following themes: Geographical Processes: Interactions with and between water, soil, atmosphere and the biosphere and their spatio-temporal variations; Human-Environmental Systems: Interactions between humans and the environment, resilience of socio-ecological systems and vulnerability; Ecosystem Services and Human Wellbeing: Ecosystem structure, processes, services and their linkages with human wellbeing; Sustainable Development: Theory, practice and critical challenges in sustainable development.
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