Divergent responses of runoff to climate change in the upper basins of the Third Pole dominated by westerlies and monsoon

IF 6 2区 地球科学 Q1 GEOSCIENCES, MULTIDISCIPLINARY
Qikai Sun, Fengge Su, He Sun
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引用次数: 0

Abstract

The diverse climates, distribution of snow and glaciers, and geographic locations directly affect the runoff response to climate change in the upper basins of the Third Pole. At present, a comprehensive analysis of runoff variations and their distinct responses to climate change in the westerlies- and monsoon-dominated upper basins is still lacking. This study comprehensively analyzed annual runoff variations in westerlies-dominated basins (the upper basins of the Aksu (UAKS), Syr Darya (USRD), Yarkant (UYK), Hotan (UHT), Amu Darya (UAMD), and Indus (UI)) and monsoon-dominated basins (the upper basins of the Yangtze (UYA), Yellow (UYE), Lancang (ULC), Nujiang (UNJ), and Yarlung Zangbo (UYZ)) of the Third Pole from 1961 to 2015. Using multi-source meteorological data and large-scale circulation factors, this study investigated the divergent responses of runoff in the upper basins to climate change, and explored the large-scale circulation mechanisms underlying runoff variations in these upper basins. The results showed that: (1) The annual runoff in the majority of upper basins (except for the UYE and UYZ) exhibited an increasing trend, and the annual runoff in the UAKS, UYK, and UI showed a significant increasing trend from 1961 to 2015. The annual runoff in the upper basins of the Third Pole changed abruptly from decreasing to increasing between the 1980s and 2000s, with the exception of the UYE. (2) The runoff in the monsoon-dominated upper basins has been controlled primarily by changes in precipitation over the past 55 years. In contrast, the runoff in the westerlies-dominated upper basins exhibited three distinct long-term responses to climate change: temperature-dominated (UYK and UHT), precipitation-dominated (USRD and UAMD), and the combined influence of precipitation and temperature (UAKS and UI). Since the 1960s, the sensitivity of runoff to warm season temperature changes in the most westerlies-dominated upper basins has decreased, while the response of runoff to precipitation changes has intensified. (3) The study revealed the connection between large-scale circulation, climate, and runoff in the upper basins of the Third Pole. The Atlantic Multidecadal Oscillation, the Westerly Index, and the El Niño-Southern Oscillation predominantly impact the precipitation or temperature in the upper basins of the Third Pole, which in turn affect the runoff variations in the upper basins dominated by either the westerlies or the monsoon. This study will be a valuable scientific reference for water resource management and climate change adaptation for both the westerlies- and monsoon-dominated upper basins in the Third Pole.

西风和季风主导的第三极上游盆地径流对气候变化的不同反应
不同的气候、积雪和冰川分布以及地理位置直接影响着第三极上游流域的径流对气候变化的响应。目前,尚缺乏对西风带和季风带上游流域径流变化及其对气候变化的不同响应的全面分析。本研究全面分析了西风主导流域(阿克苏河(UAKS)、锡尔河(USRD)、叶尔羌河(UYK)、和田河(UHT)、阿姆河(UAMD)和印度河(UI)上游流域)的年径流变化、从 1961 年到 2015 年,我们利用多源气象数据分析了第三极的季风主导流域(长江上游流域(UYA)、黄河上 游流域(UYE)、澜沧江上游流域(ULC)、怒江上游流域(UNJ)和雅鲁藏布江上游流域 (UYZ))和季风主导流域(长江上游流域(UYA)、黄河上游流域(UYE)、澜沧江上游流域 (ULC)、怒江上游流域(UNJ)和雅鲁藏布江上游流域(UYZ))。本研究利用多源气象资料和大尺度环流因子,研究了上游流域径流对气候变化的不同响应,并探讨了上游流域径流变化的大尺度环流机制。研究结果表明(1)大部分上游流域(除 UYE 和 UYZ 外)的年径流量呈上升趋势,其中 UAKS、UYK 和 UI 的年径流量从 1961 年到 2015 年呈显著上升趋势。除 UYE 外,第三极上游流域的年径流量在 20 世纪 80 年代至 2000 年代期间突然由减少转为增加。(2) 以季风为主的上游流域的径流主要受过去 55 年降水变化的控制。相比之下,西风主导型上游流域的径流对气候变化表现出三种不同的长期响应:温度主导型(UYK 和 UHT)、降水主导型(USRD 和 UAMD)以及降水和温度共同影响型(UAKS 和 UI)。自 20 世纪 60 年代以来,在以西风为主的上游流域,径流对暖季温 度变化的敏感性有所下降,而径流对降水变化的响应则有所加强。(3)该研究揭示了第三极上游流域大尺度环流、气候和径流之间的联系。大西洋多年涛动、西风指数和厄尔尼诺-南方涛动主要影响第三极上游流域的降水或气温,进而影响以西风或季风为主的上游流域的径流变化。这项研究将为第三极以西风和季风为主的上游盆地的水资源管理和气候变化适应提供有价值的科学参考。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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来源期刊
Science China Earth Sciences
Science China Earth Sciences GEOSCIENCES, MULTIDISCIPLINARY-
CiteScore
9.60
自引率
5.30%
发文量
135
审稿时长
3-8 weeks
期刊介绍: Science China Earth Sciences, an academic journal cosponsored by the Chinese Academy of Sciences and the National Natural Science Foundation of China, and published by Science China Press, is committed to publishing high-quality, original results in both basic and applied research.
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