Streamflow abrupt change and the driving factors in glacierized basins of Tarim Basin, Northwest China

IF 6.4 1区地球科学 Q1 ENVIRONMENTAL SCIENCES

Advances in Climate Change Research Pub Date : 2024-02-01 DOI:10.1016/j.accre.2024.01.009

Cheng-De Yang , Min Xu , Shi-Chang Kang , Cong-Sheng Fu , Wei Zhang , Di-Di Hu

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引用次数: 0

Abstract

A climate transition towards warm–wet conditions in Northwest China has drawn much attention. With continuous climate change and universal glacier degradation, increasing water-related hazards and vulnerability have become one of the important problems facing the Tarim Basin. However, the impacts of the climate transition on streamflow abrupt change and extreme hydrological events were less discussed, especially in glacial basins. In the present study, the discharge datasets in four glacial basins of Tarim Basin from 1979 to 2018 were constructed using the GRU-GSWAT+ model first. The differences in streamflow characteristics, the shift of hydrological extreme pattern, and potential changes of the controlling factors before and after the abrupt changes were investigated. The results indicated that the abrupt change point (ACP) in streamflow occurred in 2000 in the Qarqan River Basin, 2002 in the Weigan River Basin, and 1994 in the Aksu River Basin and the Yarkant River Basin. A general decrease in streamflow before the ACP has shifted to a notable upward trend in the Qarqan River Basin and the Aksu River Basin, while minor upward fluctuations were observed in other basins. Moreover, the hydrological characteristics in extreme events vary dramatically before and after the ACPs, characterized by a pronouncing shift from drought-dominant pattern to wet events dominated pattern. The driven climate factors have been altered after the ACPs with notable spatial heterogeneity, in which temperature remained as the dominant role in meltwater-dominated basins while the influence of precipitation has increased after the ACPs, whereas the sensitivity of temperature on streamflow change has been enhanced in basins dominated by precipitation such as the Qarqan River Basin. Owing to the evident warming–wetting trend and glacier compensation effect, both the inter-annual and intra-annual streamflow fluctuations can be efficiently smoothed in basins with a high glacier area ratio (GAR). These findings provide a further understanding of the abrupt change in streamflow under the exacerbated climate and glacier change in mountainous arid regions.

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中国西北塔里木盆地冰川化盆地的水流突变及其驱动因素

中国西北地区向暖湿气候过渡的趋势备受关注。随着气候变化的持续和冰川的普遍退化，与水有关的灾害和脆弱性日益增加，这已成为塔里木盆地面临的重要问题之一。然而，气候转变对溪流突变和极端水文事件影响的讨论较少，尤其是在冰川盆地。本研究首先利用 GRU-GSWAT+ 模型构建了塔里木盆地四个冰川流域 1979 年至 2018 年的排泄数据集。研究了突变前后河川流量特征的差异、水文极端模式的转变以及控制因子的潜在变化。结果表明，2000 年在喀尔干河流域、2002 年在渭干河流域、1994 年在阿克苏河流域和叶尔羌河流域出现了流量突变点 (ACP)。在喀尔干河流域和阿克苏河流域，ACP 之前的河水流量普遍下降，现在已转为明显的上升趋势，而在其他流域则观察到轻微的上升波动。此外，极端事件的水文特征在 ACPs 前后也有很大不同，其特点是从干旱主导模式明显转变为湿事件主导模式。在 ACPs 之后，气候驱动因素发生了明显的空间异质性变化，在以融水为主的流域，温度仍然起着主导作用，而在以降水为主的流域（如卡尔坎河流域），降水的影响则有所增大，温度对河水流量变化的敏感性有所增强。由于明显的暖湿化趋势和冰川补偿效应，在冰川面积比（GAR）较高的流域，年际和年内的溪流波动都能得到有效平滑。这些发现为进一步理解山区干旱地区气候和冰川变化加剧下的河川流量突变提供了依据。

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来源期刊

Advances in Climate Change Research Earth and Planetary Sciences-Atmospheric Science

CiteScore

9.80

自引率

4.10%

发文量

424

审稿时长

107 days

期刊介绍： Advances in Climate Change Research publishes scientific research and analyses on climate change and the interactions of climate change with society. This journal encompasses basic science and economic, social, and policy research, including studies on mitigation and adaptation to climate change. Advances in Climate Change Research attempts to promote research in climate change and provide an impetus for the application of research achievements in numerous aspects, such as socioeconomic sustainable development, responses to the adaptation and mitigation of climate change, diplomatic negotiations of climate and environment policies, and the protection and exploitation of natural resources.