Effects of anthropogenic climate change on the drought characteristics in China: from frequency, duration, intensity, and affected area
暂无分享,去创建一个
[1] T. Delworth,et al. Natural variability vs forced signal in the 2015–2019 Central American drought , 2021, Climatic Change.
[2] B. Fu,et al. Response of vegetation to drought in the Tibetan Plateau: Elevation differentiation and the dominant factors , 2021 .
[3] Zhihua Liu,et al. Precipitation Drives the NDVI Distribution on the Tibetan Plateau While High Warming Rates May Intensify Its Ecological Droughts , 2021, Remote. Sens..
[4] Jianqi Sun,et al. Comparison of CMIP6 and CMIP5 models in simulating climate extremes. , 2020, Science bulletin.
[5] P. Jones,et al. Version 4 of the CRU TS monthly high-resolution gridded multivariate climate dataset , 2020, Scientific Data.
[6] Che-sheng Zhan,et al. Comparative analysis of probability distributions for the Standardized Precipitation Index and drought evolution in China during 1961–2015 , 2019, Theoretical and Applied Climatology.
[7] J. Sheffield,et al. Anthropogenic shift towards higher risk of flash drought over China , 2019, Nature Communications.
[8] D. Waliser,et al. Global Climate Model Ensemble Approaches for Future Projections of Atmospheric Rivers , 2019, Earth's Future.
[9] Adell L. Amos,et al. Scope and limitations of drought management within complex human–natural systems , 2019, Nature Sustainability.
[10] H. Rocha,et al. Attribution of Detected Temperature Trends in Southeast Brazil , 2019, Geophysical Research Letters.
[11] Hao Li,et al. Spatiotemporal Variation of Drought and Associated Multi-Scale Response to Climate Change over the Yarlung Zangbo River Basin of Qinghai-Tibet Plateau, China , 2019, Remote. Sens..
[12] Deliang Chen,et al. Anthropogenic Aerosols Cause Recent Pronounced Weakening of Asian Summer Monsoon Relative to Last Four Centuries , 2019, Geophysical Research Letters.
[13] Hao Li,et al. Transition Characteristics of the Dry-Wet Regime and Vegetation Dynamic Responses over the Yarlung Zangbo River Basin, Southeast Qinghai-Tibet Plateau , 2019, Remote. Sens..
[14] Xieyao Ma,et al. Comparison of the aridity index and its drivers in eight climatic regions in China in recent years and in future projections , 2019, International Journal of Climatology.
[15] A. P. Williams,et al. Twentieth-century hydroclimate changes consistent with human influence , 2019, Nature.
[16] V. Singh,et al. Attribution of Global Soil Moisture Drying to Human Activities: A Quantitative Viewpoint , 2019, Geophysical Research Letters.
[17] M. Bierkens,et al. Added Value of Large Ensemble Simulations for Assessing Extreme River Discharge in a 2 °C Warmer World , 2019, Geophysical Research Letters.
[18] Lei Lin,et al. The Role of Anthropogenic Aerosol Forcing in Interdecadal Variations of Summertime Upper‐Tropospheric Temperature Over East Asia , 2019, Earth's Future.
[19] C. Tebaldi,et al. Anthropogenic influence on the drivers of the Western Cape drought 2015–2017 , 2018, Environmental Research Letters.
[20] Michael P. Wiper,et al. Multidimensional risk in a nonstationary climate: Joint probability of increasingly severe warm and dry conditions , 2018, Science Advances.
[21] Dongmei Chen,et al. Estimated long-term variability of direct and diffuse solar radiation in North China during 1959–2016 , 2018, Theoretical and Applied Climatology.
[22] E. Wood,et al. Anthropogenic warming exacerbates European soil moisture droughts , 2018, Nature Climate Change.
[23] D. Qin,et al. Attribution of temperature changes in Western China , 2018 .
[24] Q. Fu,et al. Simulated differences in 21st century aridity due to different scenarios of greenhouse gases and aerosols , 2018, Climatic Change.
[25] Robert Vautard,et al. Methods and Model Dependency of Extreme Event Attribution: The 2015 European Drought , 2017 .
[26] Dongdong Peng,et al. Why was the arid and semiarid northwest China getting wetter in the recent decades? , 2017 .
[27] H. Shiogama,et al. Increased Chances of Drought in Southeastern Periphery of the Tibetan Plateau Induced by Anthropogenic Warming , 2017 .
[28] J. Xia,et al. Drought assessment in northwest China during 1960-2013 using the standardized precipitation index , 2017 .
[29] Thorsten Wagener,et al. Drought in a human-modified world : reframing drought definitions, understanding, and analysis approaches , 2016 .
[30] N. Diffenbaugh,et al. Anthropogenic warming has increased drought risk in California , 2015, Proceedings of the National Academy of Sciences.
[31] Chengming Wen,et al. Drought in Southwest China: A Review , 2015 .
[32] Kelin Wang,et al. Is southwestern China experiencing more frequent precipitation extremes? , 2014 .
[33] R. Seager,et al. Global warming and 21st century drying , 2014, Climate Dynamics.
[34] H.A.J. van Lanen,et al. Making the distinction between water scarcity and drought using an observation‐modeling framework , 2013 .
[35] Qinglan Li,et al. Regional climate change and local urbanization effects on weather variables in Southeast China , 2011 .
[36] G. Hegerl,et al. Human contribution to more-intense precipitation extremes , 2011, Nature.
[37] S. Vicente‐Serrano,et al. A Multiscalar Drought Index Sensitive to Global Warming: The Standardized Precipitation Evapotranspiration Index , 2009 .
[38] Tim E. Jupp,et al. Increasing risk of Amazonian drought due to decreasing aerosol pollution , 2008 .
[39] C. Priestley,et al. On the Assessment of Surface Heat Flux and Evaporation Using Large-Scale Parameters , 1972 .
[40] F. Zwiers,et al. Human influence on Canadian temperatures , 2018, Climate Dynamics.
[41] Jianqi Sun,et al. Anthropogenic warming has caused hot droughts more frequently in China , 2017 .
[42] Heigang Xiong,et al. Why does precipitation in northwest China show a significant increasing trend from 1960 to 2010 , 2016 .
[43] Cheng Qian. Impact of land use/land cover change on changes in surface solar radiation in eastern China since the reform and opening up , 2014, Theoretical and Applied Climatology.
[44] C. W. Thornthwaite. An approach toward a rational classification of climate. , 1948 .