R code for the attribution of runoff changes using the Budyko attribution method (Zhou et al. 2016 WRR). Zhou, S. et al. A new method to partition climate and catchment effect on the mean annual runoff based on the Budyko complementary relationship. Water Resour. Res. 52, 7163–7177 (2016)
Evaluating the changes in runoff and analyzing its attribution under the changing environment is of ...
Surface runoff from the Wei River basin, the largest tributary of the Yellow River in China, has dra...
A practical approach to separate the impact of the processes of climate change (CC) and human activi...
The Budyko-type equations have begun to be widely adopted to separate the contributions of climate c...
Analyzing the temporal variation of runoff and vegetation and quantifying the impact of anthropic fa...
Runoff is expected to change due to climate and land use change. Because it constitutes a large com...
R script to quantify the impacts of climate change, environmental change, and climate-environment in...
The Budyko-type equations have begun to be widely adopted to separate the contributions of climate c...
Climate change and human activities have been identified as the two main reasons for the change in r...
manuscript submitted to Water Resources ResearchIn a context of climate change, the stakes surroundi...
Understanding catchment hydrological response to intensive land use/cover change (LUCC) and climate ...
Understanding hydrological responses to climate change and land use and land cover change (LULCC) is...
Influences of climatic change on the components of global hydrological cycle, including runoff and e...
The ecological restoration projects in the Loess Plateau (LP) has significantly altered the underlyi...
A better understanding of how streamflow interacts with climate change and human activities would co...
Evaluating the changes in runoff and analyzing its attribution under the changing environment is of ...
Surface runoff from the Wei River basin, the largest tributary of the Yellow River in China, has dra...
A practical approach to separate the impact of the processes of climate change (CC) and human activi...
The Budyko-type equations have begun to be widely adopted to separate the contributions of climate c...
Analyzing the temporal variation of runoff and vegetation and quantifying the impact of anthropic fa...
Runoff is expected to change due to climate and land use change. Because it constitutes a large com...
R script to quantify the impacts of climate change, environmental change, and climate-environment in...
The Budyko-type equations have begun to be widely adopted to separate the contributions of climate c...
Climate change and human activities have been identified as the two main reasons for the change in r...
manuscript submitted to Water Resources ResearchIn a context of climate change, the stakes surroundi...
Understanding catchment hydrological response to intensive land use/cover change (LUCC) and climate ...
Understanding hydrological responses to climate change and land use and land cover change (LULCC) is...
Influences of climatic change on the components of global hydrological cycle, including runoff and e...
The ecological restoration projects in the Loess Plateau (LP) has significantly altered the underlyi...
A better understanding of how streamflow interacts with climate change and human activities would co...
Evaluating the changes in runoff and analyzing its attribution under the changing environment is of ...
Surface runoff from the Wei River basin, the largest tributary of the Yellow River in China, has dra...
A practical approach to separate the impact of the processes of climate change (CC) and human activi...
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