Attributing historical streamflow changes in the Jhelum River basin to climate change

Javed, Mustafa; Didovets, Iulii; Böhner, Jürgen; Hasson, Shabeh ul

Attributing historical streamflow changes in the Jhelum River basin to climate change

Mustafa Javed (), Iulii Didovets, Jürgen Böhner and Shabeh ul Hasson
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Mustafa Javed: Center for Earth System Research and Sustainability (CEN), Universität Hamburg
Iulii Didovets: Potsdam Institute for Climate Impact Research
Jürgen Böhner: Center for Earth System Research and Sustainability (CEN), Universität Hamburg
Shabeh ul Hasson: Center for Earth System Research and Sustainability (CEN), Universität Hamburg

Climatic Change, 2023, vol. 176, issue 11, No 5, 20 pages

Abstract: Abstract Amid a heated debate on what are possible and what are plausible climate futures, ascertaining evident changes that are attributable to historical climate change can provide a clear understanding of how warmer climates will shape our future habitability. Hence, we detect changes in the streamflow simulated using three different datasets for the historical period (1901–2019) and analyze whether these changes can be attributed to observed climate change. For this, we first calibrate and validate the Soil and Water Integrated Model and then force it with factual (observed) and counterfactual (baseline) climates presented in the Inter-Sectoral Impact Model Intercomparison Project Phase 3a protocol. We assessed the differences in simulated streamflow driven by the factual and counterfactual climates by comparing their trend changes ascertained using the Modified Mann–Kendall test on monthly, seasonal, and annual timescales. In contrast to no trend for counterfactual climate, our results suggest that mean annual streamflow under factual climate features statistically significant decreasing trends, which are − 5.6, − 3.9, and − 1.9 m3s−1 for the 20CRv3-w5e5, 20CRv3, and GSWP3-w5e5 datasets, respectively. Such trends, which are more pronounced after the 1960s, for summer, and for high flows can be attributed to the weakening of the monsoonal precipitation regime in the factual climate. Further, discharge volumes in the recent factual climate dropped compared to the early twentieth-century climate, especially prominently during summer and mainly for high flows whereas earlier shifts found in the center of volume timings are due to early shifts in the nival regime. These findings clearly suggest a critical role of monsoonal precipitation in disrupting the hydrological regime of the Jhelum River basin in the future.

Keywords: Impact attribution; Streamflow; Jhelum Basin; Climatic change; SWIM; ISIMIP (search for similar items in EconPapers)
Date: 2023
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DOI: 10.1007/s10584-023-03628-8

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