|
[1] Zhang Dan, Liu Xiaomang, Zhang Lu, Zhang Qi, Gan Rong, Li Xianghu, 2020. Attribution of evapotranspiration changes in humid regions of China from 1982 to 2016. Journal of Geophysical Research – Atmospheres, doi: 10.1029/2020JD032404
[2] Zhang Dan, Liu Xiaomang, Bai Peng, 2019. Assessment of hydrological drought and its recovery time for eight tributaries of the Yangtze River (China) based on downscaled GRACE data. Journal of Hydrology, 568: 592-603.
[3] Zhang Dan, Zhang Qi, Qiu Jiaming, Bai Peng, Liang Kang, Li Xianghu, 2018. Intensification of hydrological drought due to human activity in the middle reaches of the Yangtze River, China. Science of the Total Environment, 637: 1432-1442.
[4] Zhang Dan, Liu Xiaomang, Bai Peng, 2018. Different influences of vegetation greening on regional water-energy balance under different climatic conditions. Forests, 9(412): doi:10.3390/f9070412.
[5] Zhang Dan, Chen Peng, Zhang Qi, Li Xianghu, 2017. Copula-based probability of concurrent hydrological drought in the Poyang lake-catchment-river system (China) from 1960-2013. Journal of Hydrology, 553: 773-784.
[6] Zhang Dan, Liu Xiaomang, Zhang Qi, Liang Kang, Liu Changming, 2016. Investigation of factors affecting intra-annual variability of evapotranspiration and streamflow under different climate conditions. Journal of Hydrology, 543: 759-769.
[7] Zhang Dan, Zhang Qi, Werner Adrian D., Liu Xiaomang, 2016. GRACE-based hydrological drought evaluation of the Yangtze River Basin, China. Journal of Hydrometeorology, 17: 811-828.
[8] Zhang Dan, Zhang Qi, Werner Adrian D, Gu Renying, 2016. Assessment of the reliability of popular satellite products in characterizing the water balance of the Yangtze River Basin, China. Hydrology Research, 47.s1: 8-23.(SCI)
[9] 张丹, 梁康, 聂茸, 顾人颖, 2016. 基于Budyko假设的流域蒸散发估算及其对气候与下垫面的敏感性分析. 资源科学, 38(6): 1140-1148.
|
