已在自然指数期刊《Journal of Geophysical Research-Atmospheres》、《Journal of Hydrology》、《Agricultural Water Management》、《Science China-Earth Sciences》、《Catena》、《Science of The Total Environment》等国际知名期刊上发表学术论文24篇,其中,第1和通讯作者15篇,授权专利5项,独立作者4项。近年代表作如下: [1]Zhang, R.F.,Xu, X.L.*, Guo, J.S and Sheng, Z.P., 2023. The Ratio Distribution of Evapotranspiration to Precipitation well Related With Soil Thickness in Karst Watershed of Southwest China.J GEOPHYS RES-ATMOS,128(4). [2]Zhang, R. F.,Xu, X.L.*, Guo, J.S. and Sheng, Z.P., 2022. Multi-model ensemble approaches for simulation of evapotranspiration of karst agroforestry ecosystems.AGR WATER MANAGE,273. [3]Zhang, R. F.,Xu, X.L.*, Liu, M.X., et al., 2018. Comparing evapotranspiration characteristics and environmental controls for three agroforestry ecosystems in a subtropical humid karst area.J HYDROL.563, 1042-1050. [4]Zhang, R. F.,Xu, X.L.*, Liu, M.X., et al., 2018. Comparing ET-VPD hysteresis in three agroforestry ecosystems in a subtropical humid karst area.AGR WATER MANAGE.208, 454-464. [5]Zhang, R. F.,Xu, X.L.*, Liu, M.X., et al., 2019. Hysteresis in sap flow and its controlling mechanisms for a deciduous broad-leaved tree species in a humid karst region. SCI CHINA EARTH SCI; [6]Zhang, R. F.*. and Zhao, Z.Y., 2022. Giant Trees Exhibited Great Cooling Effect in Residential Area Southwest of China.FORESTS.13(9). [7]Zhang R. F.*.2020. Cooling effect and control factors of common shrubs on the urban heat island effect in a southern city in China.Sci Rep, 10(1), 1-8. [8] Qin, Y.S., Zhang, T.W.,Zhang, R.F*., et al. A Comparison of Water Uptake by Transpiration from Different Soil Depths among Three Land Cover Types in the Arid Northwest of China.FORESTS.2023, 14(11), 2208 [9] Li X.Z., Xu X.L., Liu W.,Zhang R.F., Xu C., Wang K., 2017.Similarity of the temporal pattern of soil moisture across soil profile in karst catchments of southwestern China.J HYDROL.555:659-669. [10] Li Z., Xu X., Liu M., Li X.,Zhang R.F., Wang K., Xu C., 2017.State-space prediction of spring discharge in a karst catchment in southwest China.J HYDROL. 549:264-276. [11] Li X., Xu X., Liu W., Xu C.,Zhang R.F., Wang K., 2018.Prediction of profile soil moisture for one land use using measurements at a soil depth of other land uses in a karst depression.J SOIL SEDIMENT.19:1479–1489. [12] Li X., Xu X., Liu W., He., Xu C.,Zhang R.F., Wang K., 2019.Revealing the scale-specific influence of meteorological controls on soil water content in a karst depression using wavelet coherency.AGR ECOSYST ENVIRON.279:89-99. [13] Luo W., Xu X., Liu W., Liu M., Li Z., Peng T., Xu C., Zhang Y.,Zhang R.F., 2019.UAV based soil moisture remote sensing in a karst mountainous catchment.CATENA .174:478-489. [14] Zhang Y., Xu X., Li Z., Liu M., Xu C.,Zhang R.F., Luo W., 2019. Effects of vegetation restoration on soil quality in degraded karst landscapes of southwest China.SCI TOTAL ENVIRON. 650:2657-2665. [15] Xu C., Xu X., Liu M., Liu W., Yang J., Luo W.,Zhang R.F., Kiely G.,2017. Enhancing pedotransfer functions (PTFs) using soil spectral reflectance data for estimating saturated hydraulic conductivity in southwestern China.CATENA. 158:350-356. [16] Yang J., Xu X., Liu M., Xu C., Zhang Y., Luo W.,Zhang R.F., Li X., Kiely G., Wang k., 2017. Effects of “Grain for Green” program on soil hydrologic functions in karst landscapes, southwestern China.AGR ECOSYST ENVIRON. 247:120-129. [16]张荣飞.一种可连续监测实际蒸发量的简易装置:专利号:中国ZL2020200172598.[P]2020.9.29 [17]张荣飞.坡地果树灌溉装置:中国ZL202030014454.0[P]2020.09.08 [18]张荣飞.一种低矮植物微环境调节监测装置:中国ZL2020206409253.[P]2020.12.08 [19]张荣飞.一种用于实时监测土壤水渗透速率和渗透水质的装置:中国ZL2020209113133.[P]2021.03.23 [20]刘梅先,徐宪立,张荣飞.一种适用于复杂地表的植被蒸散发监测装置及方法:中国ZL201410756225.X [P]2016.5.25 |