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Water Resources Management

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18-08-2023

A Complementary Streamflow Attribution Framework Coupled Climate, Vegetation and Water Withdrawal

Authors: Shanhu Jiang, Yongwei Zhu, Liliang Ren, Denghua Yan, Ying Liu, Hao Cui, Menghao Wang, Chong-Yu Xu

Published in: Water Resources Management | Issue 12/2023

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Abstract

Quantifying the contributions of climate change (CC) and human activities (HA) to streamflow alteration is significant for effective water resources management. However, numerous studies fail to differentiate the individual impacts of various HA on streamflow. In this study, a comprehensive streamflow attribution framework that incorporates climate, vegetation, and water withdrawal (WW) was proposed. In this framework, traditional streamflow attribution methods such as statistical analysis (Double Mass Curve and Slope Change Ratio of Accumulative Quantity), elasticity (Budyko), and modeling simulation (Variable Infiltration Capacity and Long Short-term Memory) are employed to separate the influence of meteorological factors (MF) on streamflow. Subsequently, the impacts of WW on streamflow are assessed using global WW data. The Residual Analysis method is utilized to quantify the effects of vegetation alteration caused by both CC (Lcc) and HA (Lha) on streamflow alteration. To demonstrate the applicability of our proposed framework, two stations, Xianyang and Huaxian, located within the Weihe River Basin in Northwest China were selected as the case study area. The results demonstrated that compared to the baseline period (1961–1990), the average contributions of MF, Lcc, Lha, and WW to streamflow reduction during the variation periods (1991–2019) were as follows: for the Xianyang station, 26.0%, 13.5%, 30.9%, and 29.6% respectively; and for the Huaxian station, 28.9%, 5.5%, 17.7%, and 47.9% respectively. Additionally, during the variation periods, the contributions of CC and HA to vegetation variation were 30.5% and 69.5% respectively in Xianyang, and 23.7% and 76.3% respectively in Huaxian. The framework developed herein also provides a solution for quantifying the indirect effects of CC on streamflow through vegetation.

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Ahmed N, Wang G, Booij MJ et al (2022) Separation of the impact of landuse/landcover change and climate change on runoff in the upstream area of the Yangtze River, China. Water Resour Manag 36:181–201CrossRef

Alehu BA, Bitana SG (2023) Assessment of climate change impact on water balance of Lake Hawassa Catchment. Environ Process 10:14CrossRef

Bao ZX, Zhang JY, Yan XL et al (2021) Quantitative assessment of the attribution of runoff change caused by four factors in the Haihe River basin. Adv Water Sci 32:171–181

Fan JJ, Huang Q, Liu DF (2017) Identification of impacts of climate change and direct human activities on streamflow in Weihe River Basin in Northwest China. Int J Agric Biol Eng 10:119–129

Grill G, Lehner B, Thieme M et al (2019) Mapping the world’s free-flowing rivers. Nature 569:215–221CrossRef

Gholami V, Khaleghi MR (2021) A simulation of the rainfall-runoff process using artificial neural network and HEC-HMS model in forest lands. J For Sci 67:165–174CrossRef

Gholami V, Sahour H (2022) Simulation of rainfall-runoff process using an artificial neural network (ANN) and field plots data. Theor Appl Climatol 147:87–98CrossRef

Gholami V, Sahour H, Khaleghi MR et al (2023) Evaluating the effects of vegetation and land management on runoff control using field plots and machine learning models. Environ Sci Pollut Res 30:31202–31217CrossRef

Jiang SH, Wang MH, Ren LL et al (2019) A framework for quantifying the impacts of climate change and human activities on hydrological drought in a semiarid basin of Northern China. Hydrol Process 33:1075–1088CrossRef

Jiang SH, Wang MH, Ren LL et al (2022) An integrated approach for identification and quantification of ecological drought in rivers from an ecological streamflow perspective. Ecol Indic 143:109410CrossRef

Jin L, Duan KQ (2019) What is the main driving force of hydrological cycle variations in the semiarid and semi-humid Weihe River Basin, China? Sci Total Environ 684:254–264CrossRef

Krajewski A, Sikorska-Senoner AE, Hejduk L et al (2021) An attempt to decompose the impact of land use and climate change on annual runoff in a small agricultural catchment. Water Resour Manag 35:881–896CrossRef

Li ZH, Wang YM, Zhang HB et al (2022) Runoff response to changing environment in Loess Plateau, China: Implications of the influence of climate, land use/land cover, and water withdrawal changes. J Hydrol 613:128458CrossRef

Liu Q, Li S, Zhou GF et al (2022) Attribution of nonstationary changes in the annual streamflow of the Weihe River using the de-nonstationarity method. Hydrol Res 53:407–418CrossRef

Luo YY, Yang YT, Yang DW et al (2020) Quantifying the impact of vegetation ch anges on global terrestrial streamflow using the Budyko framework. J Hydrol 590:125389CrossRef

Luan JK, Zhang YQ, Ma N et al (2021) Evaluating the uncertainty of eight approaches for separating the impacts of climate change and human activities on streamflow. J Hydrol 601:126605CrossRef

Melo LS, Costa VAF, Fernandes WS (2023) Assessing the anthropogenic and climatic components in runoff changes of the São Francisco River Catchment. Water Resour Manag 37:3615–3629CrossRef

Rani S, Sreekesh S (2019) Evaluating the responses of streamflow under future climate change scenarios in a Western Indian Himalaya Watershed. Environ Process 6:155–174CrossRef

Sharifi A, Mirabbasi R, Nasr EMA et al (2021) Quantifying the impacts of anthropogenic changes and climate variability on streamflow changes in central plateau of Iran using nine methods. J Hydrol 603:127045CrossRef

Swain SS, Mishra A, Chatterjee C et al (2021) Climate-changed versus land-use altered streamflow: A relative contribution assessment using three complementary approaches at a decadal time-spell. J Hydrol 596:126064CrossRef

Sahour H, Gholami V, Torkaman J et al (2021) Random forest and extreme gradient boosting algorithms for streamflow modeling using vessel features and tree-rings. Environ Earth Sci 80:747CrossRef

Wang SJ, Yan YX, Yan M et al (2012) Quantitative estimation of the impact of precipitation and human activities on streamflow change of the Huangfuchuan River Basin. J Geogr Sci 22:906–918CrossRef

Wang MH, Jiang SH, Ren LL et al (2022) The development of a nonstationary standardised streamflow index using climate and reservoir indices as covariates. Water Resour Manag 36:1377–1392CrossRef

Wang M, Zhang Y, Lu Y et al (2023) Attribution analysis of streamflow changes based on large-scale hydrological modeling with uncertainties. Water Resour Manag 37:713–730CrossRef

Yan DH, Zhang X, Qin TL et al (2022) A data set of distributed global population and water withdrawal from 1960 to 2020. Sci Data 9:640CrossRef

Yang XN, Sun WY, Li PF et al (2018) Reduced sediment transport in the Chinese Loess Plateau due to climate change and human activities. Sci Total Environ 642:591–600CrossRef

Zhang LQ, Liu Y, Ren LL et al (2022) Analysis of flash droughts in China using machine learning. Hydrol Earth Syst Sci 26:3241–3261CrossRef

Zhou ZH, Jin JX, Yong B et al (2022) Quantifying the influences of climate change and human activities on the grassland in the Southwest Transboundary Basin. China J Environ Manag 319:115612

Zhu YW, Wang HX, Guo WX (2021) The impacts of water level fluctuations of East Dongting Lake on habitat suitability of migratory birds. Ecol Indic 132:108277CrossRef

Title: A Complementary Streamflow Attribution Framework Coupled Climate, Vegetation and Water Withdrawal
Authors: Shanhu Jiang
Yongwei Zhu
Liliang Ren
Denghua Yan
Ying Liu
Hao Cui
Menghao Wang
Chong-Yu Xu
Publication date: 18-08-2023
Publisher: Springer Netherlands
Published in: Water Resources Management / Issue 12/2023
Print ISSN: 0920-4741
Electronic ISSN: 1573-1650
DOI: https://doi.org/10.1007/s11269-023-03582-1

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