Changing Extreme Precipitation Patterns in Nepal Over 1971–2015

IF 2.9 3区地球科学 Q2 ASTRONOMY & ASTROPHYSICS

Earth and Space Science Pub Date : 2024-12-15 DOI:10.1029/2024EA003563

Yinxue Luo, Lang Wang, Chenxi Hu, Lu Hao, Ge Sun

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Abstract

This paper provides a comprehensive and comparative analysis of extreme precipitation patterns from 1971 to 2015 in Nepal, a data scarce, but “hot spot” region in global climate change. We compare in-situ observations and gridded precipitation data from the Asian Precipitation Highly Resolved Observational Data Integration Toward Evaluation of Water Resources (APHRODITE). Using 11 precipitation indices, we show that high-intensity (RX1day, R95pTOT, R99pTOT) and frequency-related indices (R10 mm, R20 mm) have decreased but annual maximum consecutive dry and wet days have increased. Observations affirm these trends found by the APHRODITE, but show smaller magnitudes likely due to differences in measurements at locations made below the 3,000 m elevation line. Spatially, the relatively dry western region has become wetter, and the relatively wet eastern region has become drier post-2003. The weakening of the South Asia Monsoon circulation, particularly assessed by the Webster and Yang Monsoon Index, correlates strongly with extreme precipitation indices. Changes in upper-level jet and associated lower-level monsoon trough are identified as critical factors influencing the extreme precipitation trend post-2003. This study is the first to confirm the efficacy of APHRODITE in providing spatial and temporal precipitation patterns in a data-limited region. We conclude that monsoon weakened circulations and changes in regional wind fields play dominant roles in the long-term temporal and spatial trends of extreme precipitation in Nepal. The reduced precipitation extremes in the wet eastern region may somewhat lessen severe flooding and erosion, but the drier western region may face heightened risks in precipitation-related hazards in Nepal.

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1971-2015 年尼泊尔极端降水模式的变化

本文对尼泊尔1971 - 2015年的极端降水模式进行了综合对比分析，尼泊尔是全球气候变化的一个数据稀缺的“热点”地区。我们比较了亚洲降水高分辨率观测数据整合对水资源评价（APHRODITE）的现场观测和网格降水数据。利用11个降水指数分析，高强度（RX1day、R95pTOT、R99pTOT）和频率相关指数（R10 mm、R20 mm）均有所减少，年最大连续干湿日数增加。观测证实了阿芙罗狄蒂号发现的这些趋势，但显示出较小的震级，可能是由于在海拔3000米以下的地点测量的差异。从空间上看，2003年后相对干燥的西部地区变湿润，相对湿润的东部地区变干燥。南亚季风环流的减弱，特别是由韦伯斯特和杨季风指数评估的减弱，与极端降水指数密切相关。高层急流和低层风槽的变化是影响2003年以后极端降水趋势的关键因素。这项研究首次证实了APHRODITE在数据有限的区域内提供时空降水模式的有效性。季风减弱环流和区域风场变化在尼泊尔极端降水的长期时空变化趋势中起主导作用。在潮湿的东部地区，极端降水的减少可能会在一定程度上减轻严重的洪水和侵蚀，但在尼泊尔，干旱的西部地区可能面临与降水有关的灾害的高风险。

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

Earth and Space Science Earth and Planetary Sciences-General Earth and Planetary Sciences

CiteScore

5.50

自引率

3.20%

发文量

285

审稿时长

19 weeks

期刊介绍： Marking AGU’s second new open access journal in the last 12 months, Earth and Space Science is the only journal that reflects the expansive range of science represented by AGU’s 62,000 members, including all of the Earth, planetary, and space sciences, and related fields in environmental science, geoengineering, space engineering, and biogeochemistry.