[1] Li, Z., Fang, G.*, Chen, Y., Duan, W., & Mukanov, Y. 2020 Agricultural water demands in Central Asia under 1.5 C and 2.0 C global warming. Agricultural Water Management 231, 106020
[2] Fang Gonghuan, Yang Jing, Chen Yaning, Li Zhi, Ji Huiping, De Maeyer Philippe. 2018 How Hydrologic Processes Differ Spatially in a Large Basin: Multi-site and Multi-objective Modeling in the Tarim River Basin. Journal of Geophysical Research Atmosphere 123(4):7098-7113.
[3] Fang G, Chen Y, Li Z. 2018 Variation in agricultural water demand and its attributions in the arid Tarim River Basin. The Journal of Agricultural Science 156(3):301-311.
[4] Fang G, Yang J, Chen Y, De Maeyer P. 2017 Impact of GCM structure uncertainty on hydrological processes in an arid area of China. Hydrology Research 49(3):893-907.
[5] Fang G, Yang J, Chen Y, Zammit C. 2015 Comparing bias correction methods in downscaling meteorological variables for a hydrologic impact study in an arid area in China. Hydrology and Earth System Sciences 19:2547-2559.
[6] Fang G, Yang J, Chen Y, Xu C, De Maeyer P. 2015 Contribution of meteorological input in calibrating a distributed hydrologic model in a watershed in the Tianshan Mountains, China. Environmental Earth Sciences 74:2413-2424.
[7] Fang G, Yang J, Chen Y, Zhang S. 2015 Climate Change Impact on the Hydrology of a Typical Watershed in the Tianshan Mountains. Advances in Meteorology 2015:1-10.
[8] Yang J, Fang G, Chen Y, De Maeyer P. 2017. Climate change in the Tienshan and north Kunlun Mountains based on GCM simulation ensemble with Bayesian Model Averaging. Journal of arid land, 9(4): 622–634
[9] Chen Y, Li Z, Fang G and Li W. 2018. Large Hydrological Processes Changes in the Transboundary Rivers of Central Asia. Journal of Geophysical Research: Atmospheres 123, 5059-5069
软件登记
[1] 2017SR446139. 方功焕, 王志成, 张辉, 徐永军, 陈亚宁. 气候变化背景下阿克苏河流域流量预估系统1.0