TP-River: Monitoring and Quantifying Total River Runoff from the Third Pole

Lei Wang,Zhidan Hu,Chenhao Chai,Yinsheng Zhang,Lan Cuo,Jingshi Liu,Tandong Yao,Fan Zhang,Zhijun Yao,Jia Qi,Yuanwei Wang,Fengge Su,Xiuping Li

doi:10.1175/bams-d-20-0207.1

Abstract

AbstractMonitoring changes in river runoff at the Third Pole (TP) is important because rivers in this region support millions of inhabitants in Asia and are very sensitive to climate change. Under the influence of climate change and intensified cryospheric melt, river runoff has changed markedly at the TP, with significant effects on the spatial and temporal water resource distribution that threaten water supply and food security for people living downstream. Despite some in situ observations and discharge estimates from state-of-the-art remote sensing technology, the total river runoff (TRR) for the TP has never been reliably quantified, and its response to climate change remains unclear. As part of the Chinese Academy of Sciences’ “Pan-Third Pole Environment Study for a Green Silk Road,” the TP-River project aims to construct a comprehensive runoff observation network at mountain outlets (where rivers leave the mountains and enter the plains) for 13 major rivers in the TP region, thereby enabling TRR to be accurately quantified. The project also integrates discharge estimates from remote sensing and cryosphere–hydrology modeling to investigate long-term changes in TRR and the relationship between the TRR variations and westerly/monsoon. Based on recent efforts, the project provides the first estimate (656 ± 23 billion m3) of annual TRR for the 13 TP rivers in 2018. The annual river runoff at the mountain outlets varies widely between the different TP rivers, ranging from 2 to 176 billion m3, with higher values mainly corresponding to rivers in the Indian monsoon domain, rather than in the westerly domain.

Highlights

Monitoring changes in river runoff at the Third Pole (TP) is important because rivers in this region support millions of inhabitants in Asia and are very sensitive to climate change
Changes and uncertainties in the total river runoff (TRR) from the TP, driven by both natural and anthropogenic forces, may threaten water supply and food security for millions of people living locally (57.2 million in 2015, and 59.3 million in 2020 for the mountain-outlet watersheds of the 13 studied rivers; population calculated from the Gridded Population of the World version 4 data collection; CIESIN 2018) and downstream, and may restrict the sustainable regional development of the ecological environment and the economy (e.g., Yao et al 2013a; Biemans et al 2019)
Regarding the eight transboundary rivers, each cross section at the mountain outlet was subdivided into segments and multiple careful measurements were made of velocity and depth, following the so-called “velocity-area method” [see Turnipseed and Sauer (2010) for details]

Summary

Introduction

Monitoring changes in river runoff at the Third Pole (TP) is important because rivers in this region support millions of inhabitants in Asia and are very sensitive to climate change. Monitoring changes in river runoff at mountain outlets is important at the Third Pole (TP) because rivers in this region support millions of people in Asia (CIESIN 2018) and are very sensitive to climate change. Changes and uncertainties in the total river runoff (TRR) from the TP, driven by both natural and anthropogenic forces, may threaten water supply and food security for millions of people living locally (57.2 million in 2015, and 59.3 million in 2020 for the mountain-outlet watersheds of the 13 studied rivers; population calculated from the Gridded Population of the World version 4 data collection; CIESIN 2018) and downstream, and may restrict the sustainable regional development of the ecological environment and the economy (e.g., Yao et al 2013a; Biemans et al 2019).

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Conclusion