hanqiong
School
School of Earth System Science
Contact Information
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Academic Achievements
- Papers
- [1] 石文豪, 李奇, 韩琼, 王铁军, 陈喜, 张永根. 2020. 基于不同优化算法的土壤水分特征曲线模型模拟性能分析. 水资源与水工程学报, 31(04), 157-165
- [2] 李新梦, 狄崇利, 刘琴, 韩琼, 王铁军. 2021. 陆地蒸散发分割方法及影响因素研究进展. 水资源与水工程学报, 2, 225-232, 240.
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- [3] Zhang, H., Wang, B., Han, Q., Shi, J., Qiu, X., Wang, T. 2017. Hydrodynamic characteristics of Wujiangdu Reservoir during the dry season-a case study of a canyon reservoir. Acta Geochimica, 36(3)
- [4] Liu, Q., Wang, T., Han, Q., Sun, S., Liu, C-Q., and Chen, X. 2019. Diagnosing environmental controls on actual evapotranspiration and evaporative fraction in a water-limited region from northwest China. Journal of Hydrology, 578, 124045 (IF=6.708)
- [5] Kong, Z., Wang, T., Han, Q., Dai, Y., Wang, L., and Chen, X. 2022. Evaluation of environmental controls on terrestrial net ecosystems exchange of CO2: a global perspective from the FLUXNET and AmeriFlux sites. Journal of Geophysical Research-Atmospheres, 127, e2022JD037217
- [6] Mai, M., Wang, T., Han, Q., Jing, W., and Bai, Q. 2023. Comparison of environmental controls on daily actual evapotranspiration dynamics among different terrestrial ecosystems in China. Science of the Total Environment, 871, 162124.
- [7] Dai, Y., Wang, T., Han, Q., et al. 2024. Impacts of vegetation and tidal conditions on porewater and salt transport in coastal wetlands: Numerical simulations and field evidence. Journal of Hydrology, 636: 131251.
- [8] Zhang, X., Zuo, Y., Wang, T., Han, Q. 2024. Salinity effects on soil structure and hydraulic properties: Implications for Pedotransfer Functions in coastal areas. Land, 13(12):2077.
- [9] Kong, Z., Wang, T., Han, Q., et al. 2025. Impacts of environmental factors on ecosystem water use efficiency: An insight from gross primary production and evapotranspiration dynamics. Agricultural and Forest Meteorology, 362
- [10] Bai, Q., Wang, T., Han, Q., et al. 2025. Vegetation dynamics induced by climate change and human activities: Implications for coastal wetland restoration. Journal of Environmental Management, 384: 125594.
- [11] 韩琼, 王宝利. 2017. 浮游植物稳定碳同位素分馏机制及环境应用. 生态学杂志, 36(5), 1436-1443
- [12] Han, Q., Wang, B., Liu, C-Q., Wang, F., Peng, X., and Liu, X-L. 2018. Carbon biogeochemical cycle is enhanced by damming in a karst river. Science of the Total Environment, 616-617, 1181-1189
- [13] Han, Q., Liu, Q., Wang, T., Wang, L., Di, C., Chen, X., Smettem, K., and Singh, K. S. 2020. Diagnosis of environmental controls on daily actual evapotranspiration across a global flux tower network: the roles of water and energy. Environmental Research Letters, 15, 124070
- [14] Han, Q., Wang, T., Wang, L., Smettem, K., Mai, M., and Chen, X. 2021. Comparison of nighttime with daytime evapotranspiration responses to environmental controls across temporal scales along a climate gradient. Water Resources Research, 57, e2021WR029638
- [15] Han, Q., Wang, T., Dai, Y., and Kong, Z. 2022. Interactive impacts of atmospheric, soil, and vegetation conditions on land surface energy partitioning over a coastal wetland in Northern China. Journal of Hydrology, 614, 128506
- [16] Han, Q., Wang, T., Kong, Z., Dai, Y., and Wang, L. 2024. Disentangling the impacts of environmental factors on evaporative fraction across climate regimes. Journal of Geophysical Research: Atmospheres, 129, e2024JD041515.