Abstract
Quantifying the effects of climate variability and human activities on runoff changes will contribute to regional water resource planning and management. This study aims to separate the effects of climate variability and human activities on runoff changes in the upper catchment of the Red River Basin in China. The Mann–Kendall test and Pettitt’s test methods were applied to identify the trends and change points of the hydro-meteorological variables. The hydrological sensitivity, climate elasticity and hydrological simulation methods were adopted to estimate the contributions of climate variability and human activities to runoff changes. Results showed that annual runoff significantly decreased by 1.57 mm/year during the period of 1961–2012. A change point in annual runoff coefficient occurred in 2002. Accordingly, the annual runoff series were divided into the baseline period (1961–2002) and the impacted period (2003–2012). Mean annual runoff of the impacted period decreased by 29.13% compared with the baseline period. Similar estimates of the contributions of climate variability and human activities were obtained by the three different methods. Climate variability was estimated to be responsible for 69%–71% of the reduction in annual runoff, and human activities accounted for 29%–31%. Climate variability was the main driving factor for runoff decrease in the catchment.
Highlights
The hydrological cycle and water resource systems are extensively influenced by climate variability and human activities [1,2]
This study quantifies the effects of climate variability and human activities on runoff changes in the upper catchment of the Red River Basin, China
The results indicated that annual runoff had a significant decreasing trend during the period of 1961–2012
Summary
The hydrological cycle and water resource systems are extensively influenced by climate variability and human activities [1,2]. With a worsening of the water shortage problems globally, hydrologists have paid considerable attention to the impacts of climate variability and human activities on hydrology and water resources [7,8]. Separating the effects of climate variability and human activity on stream discharge at the catchment scale is needed in order to develop adaptive measures to cope with climate change [9,10]. Present studies mainly follow the paradigm of “identifying the change points and baseline period, and quantifying the effects of climate change and human activities [11]”. For a given river basin, identifying the change point of stream discharge series between a baseline period and impacted period
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