Abstract
In the traditional point of view, if there is a significant decreasing trend for a runoff time series, while no significant trend for a precipitation series is present, then an unreliable conclusion will be made that the land surface change is the main contributor to the runoff change. To test it, we selected four sub-watersheds in the Luanhe river basin as the study areas where land use has changed severely. We first detected the long-term rainfall and runoff trend by the Mann–Kendall test, Sen’s slope, and the moving average method, and found that the runoff had a decreasing trend at the 0.05 significance level, while the rainfall had no significant trend in all sub-watersheds. Then an orderly cluster analysis and moving T test method were used to detect the change point of the runoff series. We quantified the contributions of the land surface change and climate variability based on Soil and Water Assessment Tool (SWAT), and the contribution of climate variability accounted for more than 50%, which implies that climate change is the main factor of runoff decrease in the study areas. To further test this, a trend analysis of a reconstructed annual runoff time series under undisturbed conditions has been done. The results showed that in some sub-watersheds, although rainfall series had no significant decreasing trend, the runoff series had significant downward trend. This can be explained by the nonlinear relationship between rainfall and runoff. This study came to a different conclusion from the common view, which observes that runoff decrease is mainly caused by land surface change if rainfall series lacks a significantly decreasing trend.
Highlights
Hydro-climatic variables are subjected to random trends and periodic components, and the hydrologic variability might be attributed to the effect of global climatic change and man-induced disturbances [1]
Water Assessment Tool (SWAT), and the contribution of climate variability accounted for more than 50%, which implies that climate change is the main factor of runoff decrease in the study areas
Wang et al (2013) investigated the hydrological effects of the water resources development in Luanhe River basin, in which the results showed that the annual runoff had obviously declined [9]
Summary
Hydro-climatic variables are subjected to random trends and periodic components, and the hydrologic variability might be attributed to the effect of global climatic change and man-induced disturbances [1]. Wang et al (2013) investigated the hydrological effects of the water resources development in Luanhe River basin, in which the results showed that the annual runoff had obviously declined [9]. Climate change usually involves both the decrease of precipitation and increases in temperature in the Luanhe river basin, which could lead to a reduction of water resources. Liu et al [15] built a Soil and Water Assessment Tool (SWAT) model in the Luanhe River basin to estimate the runoff at disturbed and undisturbed stages with different climatic data and human activity effects, analyzed the quantitative impact analysis of climate change and human activities on runoff. The runoff series under undisturbed (before the change point) conditions for the disturbed period (after the change point) was reconstructed using a SWAT model, and the contributions of land surface change and climate variability were quantified based on the modeling results
Sign-in/Register to view highlights & summary Sign-in/Register to access full text options 
Free) 
Talk to us
Join us for a 30 min session where you can share your feedback and ask us any queries you have
Schedule a call
