Exploring the impacts of climate change and human activities on future runoff variations at the seasonal scale

[1]  Chunchen Xia,et al.  Quantitative hydrological response to climate change and human activities in North and South Sources in upper stream of Qiantang River Basin, East China , 2022, Journal of Hydrology: Regional Studies.

[2]  Hanbo Yang,et al.  A framework for attributing runoff changes based on a monthly water balance model: an assessment across China , 2022, Journal of Hydrology.

[3]  J. Tomasella,et al.  Analysis of hydrological impacts caused by climatic and anthropogenic changes in Upper Grande River Basin, Brazil , 2022, Environmental Earth Sciences.

[4]  Hongxiang Wang,et al.  Quantitative evaluation of runoff variation and its driving forces based on multi-scale separation framework , 2022, Journal of Hydrology: Regional Studies.

[5]  Jianhua Xu,et al.  Increasing Streamflow in Poor Vegetated Mountain Basins Induced by Greening of Underlying Surface , 2022, Remote. Sens..

[6]  Shenglian Guo,et al.  Multi-objective operation of cascade reservoirs based on short-term ensemble streamflow prediction , 2022, Journal of Hydrology.

[7]  Shenglian Guo,et al.  Quantifying both climate and land use/cover changes on runoff variation in Han River basin, China , 2022, Frontiers of Earth Science.

[8]  N. Molotch,et al.  Modeling streamflow sensitivity to climate warming and surface water inputs in a montane catchment , 2022, Journal of Hydrology: Regional Studies.

[9]  Pushkar Sharma,et al.  Continuous Separation of Climate and Catchment Effects on Streamflow , 2022, Journal of Hydrology.

[10]  Jie Chen,et al.  Projecting Hydrological Responses to Climate Change Using CMIP6 Climate Scenarios for the Upper Huai River Basin, China , 2021, Frontiers in Environmental Science.

[11]  A. Torabi Haghighi,et al.  Quantify the impacts of anthropogenic changes and climate variability on runoff changes in central plateau of Iran using nine methods , 2021, Journal of Hydrology.

[12]  H. Keshtkar,et al.  A comparison of frameworks for separating the impacts of human activities and climate change on river flow in existing records and different near‐future scenarios , 2021, Hydrological Processes.

[13]  Leying Wu,et al.  Attribution Analysis of Seasonal Runoff in the Source Region of the Yellow River Using Seasonal Budyko Hypothesis , 2021, Land.

[14]  R. Woods,et al.  Unanswered questions on the Budyko framework , 2020, Hydrological Processes.

[15]  Subimal Ghosh,et al.  Climate controls on the terrestrial water balance: Influence of aridity on the basin characteristics parameter in the Budyko framework. , 2020, The Science of the total environment.

[16]  Shengzhi Huang,et al.  Assessing the effects of climate change and human activities on runoff variations from a seasonal perspective , 2020, Stochastic Environmental Research and Risk Assessment.

[17]  Q. Shao,et al.  Impacts of projected climate change on runoff in upper reach of Heihe River basin using climate elasticity method and GCMs. , 2020, The Science of the total environment.

[18]  Lei Cheng,et al.  A Budyko-based framework for quantifying the impacts of aridity index and other factors on annual runoff , 2019 .

[19]  Chi Zhang,et al.  Quantifying the relative contribution of climate and human impacts on seasonal streamflow , 2019, Journal of Hydrology.

[20]  Stefan Lange,et al.  Trend-preserving bias adjustment and statistical downscaling with ISIMIP3BASD (v1.0) , 2019, Geoscientific Model Development.

[21]  Y. Hong,et al.  Impacts of climate change and human activities on the flow regime of the dammed Lancang River in Southwest China , 2019, Journal of Hydrology.

[22]  Joe M. Osborne,et al.  A simple tool for refining GCM water availability projections, applied to Chinese catchments , 2018, Hydrology and Earth System Sciences.

[23]  A. Mejia,et al.  Disentangling the effects of climate and urban growth on streamflow for sustainable urban development: A stochastic approach to flow regime attribution , 2018, Landscape and Urban Planning.

[24]  D. Pumo,et al.  Annual runoff assessment in arid and semiarid Mediterranean watersheds under the Budyko's framework , 2017 .

[25]  Javier Senent-Aparicio,et al.  Using SWAT and Fuzzy TOPSIS to Assess the Impact of Climate Change in the Headwaters of the Segura River Basin (SE Spain) , 2017 .

[26]  Andrea Castelletti,et al.  Is robustness really robust? How different definitions of robustness impact decision-making under climate change , 2016, Climatic Change.

[27]  Xiaomang Liu,et al.  Comparison of performance of twelve monthly water balance models in different climatic catchments of China , 2015 .

[28]  Fei Wang,et al.  Quantifying the impact of climate variability and human activities on streamflow in the middle reaches of the Yellow River basin, China , 2014 .

[29]  Yu Sun,et al.  Exploring the spatial variability of contributions from climate variation and change in catchment properties to streamflow decrease in a mesoscale basin by three different methods , 2014 .

[30]  Dingbao Wang,et al.  Modeling interannual variability of seasonal evaporation and storage change based on the extended Budyko framework , 2013 .

[31]  R. He,et al.  Hydrological projection for the Miyun Reservoir basin with the impact of climate change and human activity , 2012 .

[32]  Dingbao Wang Evaluating interannual water storage changes at watersheds in Illinois based on long‐term soil moisture and groundwater level data , 2012 .

[33]  M. Roderick,et al.  A simple framework for relating variations in runoff to variations in climatic conditions and catchment properties , 2011 .

[34]  T. McVicar,et al.  Can dynamic vegetation information improve the accuracy of Budyko's hydrological model? , 2010 .

[35]  Hoshin Vijai Gupta,et al.  Decomposition of the mean squared error and NSE performance criteria: Implications for improving hydrological modelling , 2009 .

[36]  R. Vogel,et al.  Annual hydroclimatology of the United States , 2000 .

[37]  B. Choudhury,et al.  Evaluation of an empirical equation for annual evaporation using field observations and results from a biophysical model , 1999 .

[38]  William M. Alley,et al.  On the Treatment of Evapotranspiration, Soil Moisture Accounting, and Aquifer Recharge in Monthly Water Balance Models , 1984 .

[39]  A. Pettitt A Non‐Parametric Approach to the Change‐Point Problem , 1979 .

[40]  Jeffrey G. Arnold,et al.  Model Evaluation Guidelines for Systematic Quantification of Accuracy in Watershed Simulations , 2007 .

[41]  L. S. Pereira,et al.  Crop evapotranspiration : guidelines for computing crop water requirements , 1998 .

[42]  P. E. Waggoner,et al.  From climate to flow. , 1990 .

[43]  R. Forthofer,et al.  Rank Correlation Methods , 1981 .