Identifying separate impacts of climate and land use/cover change on hydrological processes in upper stream of Heihe River, northwest China
Article
Article Title | Identifying separate impacts of climate and land use/cover change on hydrological processes in upper stream of Heihe River, northwest China |
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ERA Journal ID | 1948 |
Article Category | Article |
Authors | Yang, Linshan (Author), Feng, Qi (Author), Yin, Zhenliang (Author), Wen, Xiaohu (Author), Si, Jianhua (Author), Li, Changbin (Author) and Deo, Ravinesh C. (Author) |
Journal Title | Hydrological Processes |
Journal Citation | 31 (5), pp. 1100-1112 |
Number of Pages | 13 |
Year | 2017 |
Place of Publication | United Kingdom |
ISSN | 0885-6087 |
1099-1085 | |
Digital Object Identifier (DOI) | https://doi.org/10.1002/hyp.11098 |
Web Address (URL) | http://onlinelibrary.wiley.com/doi/10.1002/hyp.11098/full |
Abstract | Climate change and land use/cover change (LUCC) are two factors that produce major impacts on hydrological processes. Understanding and quantifying their respective influence is of great importance for water resources management and socioeconomic activities as well as policy and planning for sustainable development. In this study, the Soil and Water Assessment Tool (SWAT) was calibrated and validated in upper stream of the Heihe River in northwest China. The reliability of the SWAT model was corroborated in terms of the Nash–Sutcliffe efficiency (NSE), the correlation coefficient (R) and the relative bias error (BIAS). The findings proposed a new method employing statistical separation procedures using a physically based modeling system for identifying the individual impacts of climate change and LUCC on hydrology processes, in particular on the aspects of runoff and evapotranspiration. The results confirmed that SWAT was a powerful and accurate model for diagnosis of a key challenge facing the Heihe River basin. The model assessment metrics, NSE, R and BIAS in the data were, respectively, 0.91, 0.95 and 1.14% for the calibration period and 0.90, 0.96 and -0.15%, respectively, for the validation period. An assessment of climate change possibility showed that precipitation, runoff and air temperature exhibited upward trends with a rate of 15.7 mm, 6.1 mm and 0.38 °C per decade for the 1980 to 2010 period, respectively. Evaluation of LUCC showed that the changes in growth of vegetation, including forestland, grassland and the shrub area has increased gradually while the barren area has decreased. The integrated effects of LUCC and climate change increased runoff and ET values by 3.2% and 6.6% of the total runoff and ET, respectively. Climate change outweighed the impact of LUCC, thus showing respective increases in runoff and ET of about 107.3% and 81.2% of the total changes. The LUCC influence appeared to be modest by comparison, and showed about -7.3% and 18.8% changes relative to the totals, respectively. The increase in runoff caused by climate change factors are more than the offsetting decreases resulting from LUCC. The outcomes of this study show that the climate factors accounted for the notable effects more significantly than LUCC on hydrological processes in the upper stream of the Heihe River. |
Keywords | climate change; land use/cover change; hydrological processes; water resources management; Heihe River, China; Soil and Water Assessment Tool; SWAT |
ANZSRC Field of Research 2020 | 370201. Climate change processes |
410402. Environmental assessment and monitoring | |
410404. Environmental management | |
400513. Water resources engineering | |
Public Notes | Files associated with this item cannot be displayed due to copyright restrictions. |
Byline Affiliations | Chinese Academy of Sciences, China |
Northwest Institute of Eco-Environment and Resources, China | |
Lanzhou University, China | |
School of Agricultural, Computational and Environmental Sciences | |
Institution of Origin | University of Southern Queensland |
https://research.usq.edu.au/item/q3vq3/identifying-separate-impacts-of-climate-and-land-use-cover-change-on-hydrological-processes-in-upper-stream-of-heihe-river-northwest-china
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