Inter-Comparison of Diverse Heatwave Definitions in the Analysis of Spatiotemporally Contiguous Heatwave Events over China
Detection and attribution of human influence on the global diurnal temperature range decline
Greenhouse gas emissions drive global dryland expansion but not spatial patterns of change in aridification
phenofit: An R package for extracting vegetation phenology from time series remote sensing
Response of global land evapotranspiration to climate change, elevated CO2, and land use change
Contributions of anthropogenic forcings to evapotranspiration changes over 1980–2020 using GLEAM and CMIP6 simulations
Improvement in the Estimation of Daily Net Surface Radiation in China
[1] Kong, D., Gu X., Li J., Ren G., Liu, J. (2020), Contributions of anthropogenic warming and urbanization to intensification of heatwaves over China, *Journal of Geophysical Research: Atmosphere* (Q1, accepted)
[2] Kong, D., Zhang, Y., Wang, D., Chen, J., & Gu, X. (2020). Photoperiod Explains the Asynchronization Between Vegetation Carbon Phenology and Vegetation Greenness Phenology. *Journal of Geophysical Research: Biogeosciences*, 125(8), e2020JG005636. https://doi.org/10.1029/2020JG005636
[3] Kong, D., Zhang, Y., Gu, X., & Wang, D. (2019). A robust method for reconstructing global MODIS EVI time series on the Google Earth Engine. *ISPRS Journal of Photogrammetry and Remote Sensing*, 155, 13–24. (Q1, IF=7.319)
[4] Kong D, Zhang Q, Singh V P, et al. Seasonal vegetation response to climate change in the Northern Hemisphere (1982–2013). Global and Planetary Change*. 2017, 148: 1-8. (IF2018=4.100*,引用次数****34**)
[5] Zhang, Y., **Kong, D.*, Gan, R., Chiew, F.H.S., McVicar, T.R., Zhang, Q., and Yang, Y.. (2019) Coupled estimation of 500m and 8-day resolution global evapotranspiration and gross primary production in 2002-2017. Remote Sensing of Environment*. 222, 165-182.(Q1,IF=9.085,引用次数11**)
[6] Zhang, Q., **Kong, D., Shi, P., Singh, V.P., Sun, P., 2018. Vegetation phenology on the Qinghai-Tibetan Plateau and its response to climate change (1982–2013). Agricultural and Forest Meteorology. 248, 408-417. (Q1,IF2018=4.189,引用次数16**)
[7] Zhang, Q., Kong, D., Singh, V.P., Shi, P., 2017. Response of vegetation to different time-scales drought across China: spatiotemporal patterns, causes and implications. Global and Planetary Change*. 152,1-11. (IF2018=4.100,引用次数***37**,导师一作)
[8] Xiao, M., Yu, Z., Kong, D., Gu, X., Mammarella, I., Montagnani, L., ... & Buchmann, N. (2020). Stomatal response to decreased relative humidity constrains the acceleration of terrestrial evapotranspiration. *Environmental Research Letters*. https://doi.org/10.1088/1748-9326/ab9967
[9] Lai, Y., Li, J., Gu, X., Chen, Y. D., Kong, D., Gan, T. Y., ... & Wu, G. (2020). Greater flood risks in response to slowdown of tropical cyclones over the coast of China. *Proceedings of the National Academy of Sciences*, 117(26), 14751-14755.(TOP sci, IF=9.412)