Irrigation, damming, and streamflow fluctuations of the Yellow River

The streamflow of the Yellow River (YR) is strongly affected by human activities like irrigation and dam operation. Many attribution studies have focused on the long-term trends of streamflows, yet the contributions of these anthropogenic factors to streamflow fluctuations have not been well quantif...

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Bibliographic Details
Published in:Hydrology and earth system sciences 2021-03, Vol.25 (3), p.1133-1150
Main Authors: Yin, Zun, Ottlé, Catherine, Ciais, Philippe, Zhou, Feng, Wang, Xuhui, Jan, Polcher, Dumas, Patrice, Peng, Shushi, Li, Laurent, Zhou, Xudong, Bo, Yan, Xi, Yi, Piao, Shilong
Format: Article
Language:English
Subjects:
Analysis
Anthropogenic factors
Aquatic resources
Climate change
Climate models
Climatic changes
Correlation coefficient
Correlation coefficients
Creeks & streams
Dams
Environmental Sciences
Floods
Fluctuations
Human influences
Hydrology
Irrigation
Irrigation districts
Land surface models
Outlets
Parameterization
Phenology
Regions
Reservoirs
Rivers
Seasonal variation
Seasonal variations
Seasonality
Simulation
Stream discharge
Stream flow
Streamflow
Trends
Water resources
Water shortages
Water storage
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Summary:The streamflow of the Yellow River (YR) is strongly affected by human activities like irrigation and dam operation. Many attribution studies have focused on the long-term trends of streamflows, yet the contributions of these anthropogenic factors to streamflow fluctuations have not been well quantified with fully mechanistic models. This study aims to (1) demonstrate whether the mechanistic global land surface model ORCHIDEE (ORganizing Carbon and Hydrology in Dynamic EcosystEms) is able to simulate the streamflows of this complex rivers with human activities using a generic parameterization for human activities and (2) preliminarily quantify the roles of irrigation and dam operation in monthly streamflow fluctuations of the YR from 1982 to 2014 with a newly developed irrigation module and an offline dam operation model. Validations with observed streamflows near the outlet of the YR demonstrated that model performances improved notably with incrementally considering irrigation (mean square error (MSE) decreased by 56.9 %) and dam operation (MSE decreased by another 30.5 %). Irrigation withdrawals were found to substantially reduce the river streamflows by approximately 242.8±27.8×108 m3 yr−1 in line with independent census data (231.4±31.6×108 m3 yr−1). Dam operation does not change the mean streamflows in our model, but it impacts streamflow seasonality, more than the seasonal change of precipitation. By only considering generic operation schemes, our dam model is able to reproduce the water storage changes of the two large reservoirs, LongYangXia and LiuJiaXia (correlation coefficient of ∼ 0.9). Moreover, other commonly neglected factors, such as the large operation contribution from multiple medium/small reservoirs, the dominance of large irrigation districts for streamflows (e.g., the Hetao Plateau), and special management policies during extreme years, are highlighted in this study. Related processes should be integrated into models to better project future YR water resources under climate change and optimize adaption strategies.
ISSN:1607-7938
1027-5606
1607-7938
DOI:10.5194/hess-25-1133-2021