基于VIC模型的黄河上游冻土水热状态时空演变特征分析
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(1.河海大学水文水资源学院;2.河海大学长江保护与绿色发展研究院;3.西藏自治区水文水资源勘测局;4.河海大学水灾害防御全国重点实验室)

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高永亮(2000—),男,硕士研究生,主要从事水文水资源研究。Email:231301010009@hhu.edu.cn

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科技部重点研发计划项目(2021YFC3201100)


Temporal and spatial evolution characteristic analysis of frozen ground’s hydrothermal state in the upper reaches of the Yellow River based on VIC model
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Affiliation:

(1.Collegeof Hydrology and Water Resources, Hohai University;2.YangtzeInstitute for Conservation and Development, Hohai University;3.TheHydrology and Water Resources Survey Bureau of Xizang Autonomous Region;4.StateKey Laboratory of Water Disaster Prevention, Hohai University)

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    摘要:

    为探究黄河上游高原区冻土水文要素对气候变暖的响应特征,通过建立VIC模型模拟2006—2018年的黄河上游高原区流域水文过程,分析了研究区域内径流过程、活动层厚度(ALT)、土壤含水(冰)量、土壤温度等要素的变化特征。结果表明:多年冻土可依据年均地温划分为高温和低温两种类型,高温多年冻土分布较广,约占70%,低温多年冻土主要分布于海拔4 000 m以上的山地地区,低温多年冻土ALT增厚速率更高,对气候变化的响应也更为敏感;上层(0~10.cm)、下层(10~30.cm)、深层土壤(30~100.cm)的年平均未冻水含量和土壤含冰量呈减少趋势,其中上层土壤变幅最小,鄂陵湖、扎陵湖附近下层土壤的未冻水含量和土壤含冰量减少明显;土壤深处节点的年内增温趋势相对稳定,升温速率约为0.02℃/a,秋冬季节增温趋势更为迅速且显著,该时段升温速率可达0.03℃/a。

    Abstract:

    To investigate the response characteristics of frozen ground’s hydrological elements to climate warming in the plateau region of the upper reaches of the Yellow River, the VIC model was established to simulate the hydrological processes in the plateau watershed of the upper reaches of the Yellow River from 2006 to 2018. The variation characteristics of runoff processes, active layer thickness (ALT), soil moisture (ice) content, and soil temperature in the study area were analyzed. The results show that permafrost can be divided into high-temperature and low-temperature types based on the average annual ground temperature. High-temperature permafrost is more widely distributed, accounting for approximately 70%, while low-temperature permafrost is mainly found in mountainous areas above an altitude of 4 000 meters. The thickening rate of ALT in low-temperature permafrost is higher, indicating a more sensitive response to climate change. The average annual unfrozen moisture content and soil ice content in the upper (0-10 cm), lower (10-30 cm), and deep (30-100 cm) soil layers exhibit a decreasing trend, with the smallest variation observed in the upper soil layer. Significant reductions in unfrozen moisture content and soil ice content are detected in the lower soil layer near Eling Lake and Zhaling Lake. The warming trend at deep soil nodes is relatively stable throughout the year, with a warming rate of approximately 0.02 ℃/a. The warming trend is more rapid and significant during autumn and winter, when the warming rate reaches 0.03 ℃/a.

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高永亮,凌牧午,任玉玲,等.基于VIC模型的黄河上游冻土水热状态时空演变特征分析[J].河海大学学报(自然科学版),2026,54(2):53-62.(Gao Yongliang, Ling Muwu, Ren Yuling, et al. Temporal and spatial evolution characteristic analysis of frozen ground’s hydrothermal state in the upper reaches of the Yellow River based on VIC model[J]. Journal of Hohai University (Natural Sciences),2026,54(2):53-62.(in Chinese))

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  • 收稿日期:2024-11-13
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  • 在线发布日期: 2026-04-04
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