Decreased river runoff on the Mongolian Plateau since around 2000

IF 4 2区环境科学与生态学 Q1 ECOLOGY

Landscape Ecology Pub Date : 2024-03-22 DOI:10.1007/s10980-024-01877-1

Wenhua Qi, Xiaomei Hu, Hao Bai, Asadilla Yusup, Qinwei Ran, Hui Yang, Haijun Wang, Zurui Ao, Shengli Tao

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引用次数: 0

Abstract

Context

Mongolian Plateau is one of the largest contingent arid and semi-arid regions of the world. Rivers on the plateau provide vital water for millions of indigenous Mongolian people and numerous endangered wildlife, but are increasingly disturbed by climate change and human activities. Yet, long-term changes in river runoff across the plateau remain poorly studied due to data unavailability.

Objectives

This study aimed to analyze the temporal trends in gauged river runoff on the Mongolian Plateau, identify drivers of the observed changes, and evaluate CMIP6 models' performance in simulating historical runoff changes across the plateau.

Methods

We compiled possibly the largest database of long-term (20 - 71 years) river runoff for the plateau comprising measurements over 30 major rivers. Statistical analyses were conducted to assess trends in river runoff and correlations between runoff and climatic variables. Additionally, we applied the Budyko curve framework to identify the influence of human activities on river runoff in specific basins. Furthermore, we compared ground-measured runoff data with simulations from CMIP6 models to evaluate the ability of CMIP6 models to replicate runoff dynamics in typical arid and semi-arid regions.

Results

We observed pervasive and abrupt reduction in runoff in 21 out of the 30 rivers within 5 years before or after the year of 2000. Variations in river runoff were most significantly caused by changes in total precipitation (TP). In particular, 27 rivers experienced abrupt TP changes around 2000, and there was a significant positive correlation between annual fluctuations in TP and river runoff for 18 rivers. In addition to climate factors, the influence of human activities was identified in certain basins. The CMIP6 simulations failed to capture the abrupt changes in runoff occurred pervasively across the plateau around 2000.

Conclusions

Around 2000, major rivers on the Mongolian Plateau, especially in Inner Mongolia, experienced runoff declines, primarily due to TP changes. Human activities like dam construction and water diversion further influenced local runoff. CMIP6 historical runoff simulations were inaccurate across the plateau, highlighting the difficulty of simulating river runoff in this critical region. Our study could contribute to a more comprehensive understanding of the water resource changes on the Mongolian Plateau, with direct implications for enhancing ecological conservation and management practice.

Abstract Image

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2000 年左右以来蒙古高原河流径流量减少

背景蒙古高原是世界上最大的或有干旱和半干旱地区之一。高原上的河流为数百万蒙古土著居民和众多濒危野生动物提供了重要的水源，但气候变化和人类活动对河流的干扰却日益严重。本研究旨在分析蒙古高原测量到的河流径流量的时间变化趋势，确定观测到的变化的驱动因素，并评估 CMIP6 模型模拟高原历史径流变化的性能。方法我们汇编了可能是最大的高原长期（20 - 71 年）河流径流数据库，其中包括 30 条主要河流的测量数据。我们进行了统计分析，以评估河流径流的变化趋势以及径流与气候变量之间的相关性。此外，我们还应用布迪科曲线框架来确定人类活动对特定流域河流径流的影响。此外，我们还将地面测量的径流数据与 CMIP6 模型的模拟数据进行了比较，以评估 CMIP6 模型复制典型干旱和半干旱地区径流动态的能力。河流径流量的变化主要是由总降水量（TP）的变化引起的。其中，27 条河流的总降水量在 2000 年前后发生了突变，18 条河流的总降水量年波动与河流径流量之间存在显著的正相关关系。除气候因素外，在某些流域还发现了人类活动的影响。CMIP6模拟未能捕捉到2000年前后高原上普遍发生的径流突变。大坝建设和引水等人类活动进一步影响了当地的径流。CMIP6 对整个高原的历史径流模拟并不准确，这凸显了在这一关键地区模拟河流径流的难度。我们的研究有助于更全面地了解蒙古高原的水资源变化，对加强生态保护和管理实践具有直接影响。

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来源期刊

Landscape Ecology 环境科学-地球科学综合

CiteScore

8.30

自引率

7.70%

发文量

164

审稿时长

8-16 weeks

期刊介绍： Landscape Ecology is the flagship journal of a well-established and rapidly developing interdisciplinary science that focuses explicitly on the ecological understanding of spatial heterogeneity. Landscape Ecology draws together expertise from both biophysical and socioeconomic sciences to explore basic and applied research questions concerning the ecology, conservation, management, design/planning, and sustainability of landscapes as coupled human-environment systems. Landscape ecology studies are characterized by spatially explicit methods in which spatial attributes and arrangements of landscape elements are directly analyzed and related to ecological processes.