Climate change and human activity are two major drivers that alter hydrological cycle
processes and cause change in spatio-temporal distribution of water availability …

Separating effects of climate change (ΔQ c) and human activity (ΔQ h) on stream discharge
at the watershed scale is needed for developing adaptive measures to climate change …

Understanding hydrological effects of ecological restoration (ER) is fundamental to develop
effective measures guiding future ER and to adapt climate change in China's Loess Plateau …

Large-scale reservoirs play an essential role in water resources management for agriculture
irrigation, water supply and flood controls. However, we need robust reservoir operation …

Catchment hydrological processes have been greatly influenced by the intensive variability
in land use/cover, precipitation and air temperature due to climate change and local human …

The Budyko-type equations have begun to be widely adopted to separate the contributions
of climate change and human activities to the variation of runoff over long-term periods by …

Both climate change and human activities are known to have induced changes to hydrology.
Consequently, quantifying the net impact of human contribution to the streamflow change is …

Quantitative evaluation of the effect of climate variability and human activities on runoff is of
great importance for water resources planning and management in terms of maintaining the …

Climate variability and human activities are regarded as the two driving factors for the
hydrological cycle change. In the last several decades, there were statistically significant …

The objective of this study is to quantify the role of climate and human impacts on streamflow
conditions by using historical streamflow records, in conjunction with trend analysis and …