中国科学院科技战略先导专项:“泛第三季环境变化与绿色丝绸之路专项

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发布时间:2022-12-08
  1. Liu, J., D. Chen, G. Mao, et al. (2022). Past and Future Changes in Climate and Water Resources in the Lancang–Mekong River Basin: Current Understanding and Future Research Directions. Engineering,13: 144-152. https://doi.org/10.1016/j.eng.2021.06.026

  2. Past and Future Changes in Climate and Water Resources in the Lancang–Mekong River Basin: Current Understanding and Future Research Directions.pdf


  3. Ehlers, T. A., D. Chen, E. Appel, et al. (2022). Past, Present, and Future Geo-Biosphere Interactions on the Tibetan Plateau and Implications for Permafrost. Earth-Science Reviews, 234, 104197. https://doi.org/10.1016/j.earscirev.2022.104197 

  4. Past, Present, and Future Geo-Biosphere Interactions on the Tibetan Plateau and Implications for Permafrost.pdf


  5. Fu, Y., X. Gao, Y. Xu, et al. (2022). Climate change projection over Mainland Southeast Asia and the Lancang-Mekong River basin based on a set of RegCM4 simulations. International Journal of Climatology, 1–19. https://doi.org/10.1002/joc.7811 

  6. Climate change projection over Mainland Southeast Asia and the Lancang-Mekong River basin based on a set of RegCM4 simulations.pdf


  7. He, B., Z. Zhong, D. Chen, et al. (2022). Lengthening Dry Spells Intensify Summer Heatwaves. Geophysical Research Letters, 49, e2022GL099647. https://doi.org/10.1029/2022GL099647 

  8. Geophysical Research Letters - 2022 - He - Lengthening Dry Spells Intensify Summer Heatwaves.pdf


  9. Liu, S., Z. Liu, Q. Duan, et al. (2022). The performance of CMIP6 models in simulating surface energy fluxes over global continents. Climate Dynamics. https://doi.org/10.1007/s00382-022-06595-5 

  10. The performance of CMIP6 models in simulating surface energy fluxes over global continents.pdf


  11. Liu, Z., Q., Duan, X. Fan, et al. (2022). Bayesian retro- and prospective assessment of CMIP6 climatology in Pan Third Pole region. Climate Dynamics. https://doi.org/10.1007/s00382-022-06345-7 

  12. Bayesian retro- and prospective assessment of CMIP6 climatology in Pan Third Pole region.pdf


  13. Pi, X., Q. Luo, L. Feng, et al. (2022). Mapping global lake dynamics reveals the emerging roles of small lakes. Nature Communications, 13, 5777. https://doi.org/10.1038/s41467-022-33239-3 

  14. Mapping global lake dynamics reveals the emerging roles of small lakes.pdf


  15. Prein, A, F., N. Ban, T. Ou, et al. (2022). Towards Ensemble-Based Kilometer-Scale Climate Simulations over the Third Pole Region. Climate Dynamics. http://dx.doi.org/10.1007/s00382-022-06543-3 

  16. Towards Ensemble-Based Kilometer-Scale Climate Simulations over the Third Pole Region.pdf


  17. Xie, P., J. Huo, Y. Sang, et al. (2022). Correlation Coefficient-Based Information Criterion for Quantification of Dependence Characteristics in Hydrological Time Series. Water Resources Research, 58, e2021WR031606. https://doi.org/10.1029/2021WR031606 

  18. Water Resources Research - 2022 - Xie - Correlation Coefficient‐Based Information Criterion for Quantification of.pdf


  19. Xiong, J., S. Guo, D. Chen, et al. (2022). Past and future terrestrial water storage changes in the lower Mekong River basin: The influences of climatic and non-climatic factors. Journal of Hydrology, 612, 128275. https://doi.org/10.1016/j.jhydrol.2022.128275 

  20. Past and future terrestrial water storage changes in the lower Mekong River basin: The influences of climatic and non-climatic factors.pdf


  21. Wang, J., Q. Tang, A. Chen, et al. (2022). Impacts of Summer Monsoons on Flood Characteristics in the Lancang-Mekong River Basin. Journal of Hydrology, 604, 127256. https://doi.org/10.1016/j.jhydrol.2021.127256 

  22. Impacts of Summer Monsoons on Flood Characteristics in the Lancang-Mekong River Basin.pdf


  23. Ban, Y., Leng, G., & Tang, Q. (2022). Compounding precipitation effect in modulating maize yield response to global warming. International Journal of Climatology. https://doi.org/10.1002/joc.7652.

  24. Ban, Y., Leng, G., & Tang, Q. (2022). Compounding precipitation effect in modulating maize yield response to global warming. International Journal of Climatology.pdf


  25. Hosseini-Moghari, S. M., Sun, S., Tang, Q., & Groisman, P. Y. (2022). Scaling of precipitation extremes with temperature in China’s mainland: Evaluation of satellite precipitation data. Journal of Hydrology, 606, 127391. https://doi.org/10.1016/j.jhydrol.2021.127391.

  26. Hosseini-Moghari, S. M., Sun, S., Tang, Q., & Groisman, P. Y. (2022). Scaling of precipitation extremes with temperature in China’s mainland- Evaluation of satellite precipitation data. Journal of Hydrology.pdf


  27. Hosseini‐Moghari, S. M., & Tang, Q. Can IMERG Data Capture the Scaling of Precipitation Extremes With Temperature at Different Time Scales?. Geophysical Research Letters, 2022, 49(3), e2021GL096392. https://doi.org/10.1029/2021GL096392.

  28. Hosseini‐Moghari, S. M., & Tang, Q. Can IMERG Data Capture the Scaling of Precipitation Extremes With Temperature at Different Time Scales?. Geophysical Research Letters, 2022, 49(3).pdf


  29. Irannezhad, M., Ahmadi, B., Liu, J., Chen, D., & Matthews, J. H. (2021). Global Water Security: A Shining Star in the Dark Sky of Achieving the Sustainable Development Goals, Sustainable Horizons: 100005. https://doi.org/10.1016/j.horiz.2021.100005.

  30. Irannezhad, M., Ahmadi, B., Liu, J., Chen, D., & Matthews, J. H. (2021). Global Water Security- A Shining Star in the Dark Sky of Achieving the Sustainable Development Goals, Sustainable Horizons.pdf


  31. Li, D., Qi, Y., & Chen, D. (2022). Changes in rain and snow over the Tibetan Plateau based on IMERG and ground-based observation. Journal of Hydrology. 606 127400, DOI: 10.1016/j.jhydrol.2021.127400.

  32. Li, D., Qi, Y., & Chen, D. (2022). Changes in rain and snow over the Tibetan Plateau based on IMERG and ground-based observation. Journal of Hydrology.pdf


  33. Liu, B., Tang, Q., Zhao, G., Gao, L., Shen, C., & Pan, B. (2022). Physics-Guided Long Short-Term Memory Network for Streamflow and Flood Simulations in the Lancang–Mekong River Basin. Water, 14(9), 1429. https://doi.org/10.3390/w14091429.

  34. Liu, B., Tang, Q., Zhao, G., Gao, L., Shen, C., & Pan, B. (2022). Physics-Guided Long Short-Term Memory Network for Streamflow and Flood Simulations in the Lancang–Mekong River Basin. Water.pdf


  35. Su, B, Xiao, C., Chen, D., Huang, Che, Y., Zhao, H., Zou, M., Guo, R., Wang, X., & Li. X. (2022). Glacier change in China over past decades: Spatiotemporal patterns and influencing factors, Earth-Science Reviews, 226: 103926. https://doi.org/10.1016/j.earscirev.2022.103926.

  36. Glacier change in China over past decades- Spatiotemporal patterns and influencing factors, Earth-Science Reviews.pdf


  37. Su, B., Xiao, C., Zhao, H., Huang, Y., Dou, T., Wang, X., & Chen, D. (2022). Estimated changes in different forms of precipitation (snow, sleet, and rain) across China: 1961–2016, Atmospheric Research, 270: 106078. https://doi.org/10.1016/j.atmosres.2022.106078

  38. Su, B., Xiao, C., Zhao, H., Huang, Y., Dou, T., Wang, X., & Chen, D. (2022). Estimated changes in different forms of precipitation (snow, sleet, and rain) across China- 1961–2016, Atmospheric Research.pdf


  39. Ullah, S., You, Q., Chen, D., Sachindra, D.A., AghaKouchak, A., Kang, S., Li, M., Zhai, P., & Ullah, W. (2022). Future population exposure to daytime and nighttime heat waves in South Asia. Earth’s Future. https://doi.org/10.1029/2021EF002511.

  40. Ullah, S., You, Q., Chen, D., Sachindra, D.A., AghaKouchak, A., Kang, S., Li, M., Zhai, P., & Ullah, W. (2022). Future population exposure to daytime and nighttime heat waves in South Asia. Earth’s Future.pdf


  41. Qi, W., Feng, L., Kuang, X., Zheng, C., Liu, J., Chen, D., et al. (2022). Divergent and changing importance of glaciers and snow as natural water reservoirs in the eastern and southern Tibetan Plateau. Journal of Geophysical Research: Atmospheres, 127, e2021JD035888. https://doi.org/10.1029/2021JD035888

  42. Qi, W., Feng, L., Kuang, X., Zheng, C., Liu, J., Chen, D., et al. (2022). Divergent and changing importance of glaciers and snow as natural water reservoirs in the eastern and southern Tibetan Plateau. Journal of Geophysical Research_Atmospheres.pdf


  43. Chen, A., A. Chen, O. Varis, D. Chen, 2022: Large net forest loss in Cambodia’s Tonle Sap Lake protected areas during 1992–2019, Ambio. DOI: 10.1007/s13280-022-01704-4

  44. Chen, A., A. Chen, O. Varis, D. Chen, 2022- Large net forest loss in Cambodia’s Tonle Sap Lake protected areas during 1992–2019, Ambio.pdf


  45. Wang, X., Feng, L., Qi, W., Cai, X., Zheng, Y., Gibson, L., et al. (2022). Continuous loss of global lake ice across two centuries revealed by satellite observations and numerical modeling. Geophysical Research Letters, 49, e2022GL099022. https://doi.org/10.1029/2022GL099022.

  46. Wang, X., Feng, L., Qi, W., Cai, X., Zheng, Y., Gibson, L., et al. (2022). Continuous loss of global lake ice across two centuries revealed by satellite observations and numerical modeling. Geophysical Research Letters.pdf


  47. Wang, J., Q. Tang, X. Yun, A. Chen, S. Sun, D. Yamazaki, 2022: Flood inundation in the Lancang-Mekong River Basin: Assessing the role of summer monsoon. Journal of Hydrology. DOI: 10.1016/j.jhydrol.2022.128075

  48. Wang, J., Q. Tang, X. Yun, A. Chen, S. Sun, D. Yamazaki, 2022- Flood inundation in the Lancang-Mekong River Basin- Assessing the role of summer monsoon. Journal of Hydrology.pdf


  49. Irannezhad, M., & Liu, J. (2022). Evaluation of six gauge-based gridded climate products for analyzing long-term historical precipitation patterns across the Lancang-Mekong River Basin. Geography and Sustainability. https://doi.org/10.1016/j.geosus.2022.03.002

  50. Irannezhad, M., & Liu, J. (2022). Evaluation of six gauge-based gridded climate products for analyzing long-term historical precipitation patterns across the Lancang-Mekong River Basin. Geography and Sustainability.pdf


  51. Gao, K., Duan, A., Chen, D., Wang, J. and Tang, B. (2022). Arctic autumn warming since 2002 dominated by changes in moisture modulated by multiple large-scale atmospheric circulations. Atmospheric Research, 265, p.105879.

    Gao.K etal Arctic autumn warming since 2002 dominated by changes in moisture modulated by multiple large-scale atmospheric circulations.pdf


  52. Feng, L., Dai, Y., Hou, X., Xu, Y., Liu, J. and Zheng, C. (2021). Concerns about phytoplankton bloom trends in global lakes. Nature, 590(7846), pp.E35–E47.

    Feng, L., et al. (2021-02-17). Concerns about phytoplankton bloom trends in global lakes. Nature, Nature..pdf


  53. Pokhrel, Y., Felfelani, F., Satoh, Y., Boulange, J. and Burek, P. (2021). Global terrestrial water storage and drought severity under climate change. Nature Climate Change, 11(3) 226-233.

    Pokhrel, Y., et al. (2021-03). Global terrestrial water storage and drought severity under climate change. Nature Climate Change 11(3) 226-233..pdf


  54. Zeng, Z., Wang, D., Yang, L., Wu, J. and Ziegler, A.D. (2020). Deforestation-induced warming over tropical mountain regions regulated by elevation. Nature Geoscience, 14(1), pp.23–29.

    Zeng, Z., et al. (2021). Deforestation-induced warming over tropical mountain regions regulated by elevation. Nature Geoscience 14(1) 23-29..pdf


  55. Gudmundsson, L., Boulange, J., Do, H.X. and Gosling, S.N. (2021). Globally observed trends in mean and extreme river flow attributed to climate change. Science, 371(6534), pp.1159–1162.

    Gudmundsson, L., et al. (2021-03-12). Globally observed trends in mean and extreme river flow attributed to climate change. Science 371(6534) 1159-1162..pdf


  56. Fan, X., Duan, Q., Shen, C., Wu, Y. and Xing, C. (2021). Evaluation of historical CMIP6 model simulations and future projections of temperature over the Pan-Third Pole region. Environmental Science and Pollution Research.

    Fan, X., et al. (2021). Evaluation of Histori.pdf


  57. Guan, Y., Cui, W. and Liu, J. (2021). Observed Changes of Köppen Climate Zones Based on High‐Resolution Data Sets in the Qinghai-Tibet Plateau. Geophysical Research Letters, 48(23).

    Guan, Y., et al. (2021-11-16). Observed changes of Köppen climate zones based on high-resolution data sets in the Qinghai-Tibet Plateau. Geophysical Research Letters na(na) e2021GL096159..pdf


  58. Guo, L., Li, T., Chen, D., Liu, J., He, B. and Zhang, Y. (2021). Links between global terrestrial water storage and large-scale modes of climatic variability. Journal of Hydrology, 598, p.126419.

    Guo, L., et al. (2021-05-08). Links between global terrestrial water storage and large-scale modes of climatic variability. Journal of Hydrology 598 126419..pdf


  59. Lai, H.-W., Chen, H.W., Kukulies, J., Ou, T. and Chen, D. (2021). Regionalization of Seasonal Precipitation over the Tibetan Plateau and Associated Large-Scale Atmospheric Systems. Journal of Climate, 34(7), pp.2635–2651.

    Lai, H.-W., et al. (2021). Regionalization of seasonal precipitation over the Tibetan Plateau and associated large-scale atmospheric systems.  Journal of Climate.pdf


  60. Liu, J., Chen, D., Mao, G., Irannezhad, M. and Pokhrel, Y. (2021). Past and Future Changes in Climate and Water Resources in the Lancang–Mekong River Basin: Current Understanding and Future Research Directions. Engineering.

  61. Liu, J., et al. (2021-09-17). Past and Future Changes in Climate and Water Resources in the Lancang–Mekong River Basin Current Understanding and Future Research Directions. Engineering..pdf


  62. Li, C. and Fang, H. (2021). Assessment of climate change impacts on the streamflow for the Mun River in the Mekong Basin, Southeast Asia: Using SWAT model. CATENA, 201, p.105199.

    Li, C. and H. Fang (2021-02-09). Assessment of climate change impacts on the streamflow for the Mun River in the Mekong Basin, Southeast Asia Using SWAT model. Catena 201 105199..pdf


  63. Pi, X., Feng, L. and Li, W. (2021). Chlorophyll-a concentrations in 82 large alpine lakes on the Tibetan Plateau during 2003–2017: temporal–spatial variations and influencing factors. International Journal of Digital Earth, 14(6), pp.714–735.

    Pi, X., et al. (2021-01-13). Chlorophyll-a concentrations in 82 large alpine lakes on the Tibetan Plateau during 2003–2017 temporal–spatial variations and influencing factors. International Journal of Digital Earth .pdf


  64. Sun, R., Duan, Q. and Huo, X. (2021). Multi‐Objective Adaptive Surrogate Modeling‐Based Optimization for Distributed Environmental Models Based on Grid Sampling. Water Resources Research, 57(11).

    Sun, R. et al. (2021). Multi-objective adaptive surrogate modeling-based optimization for distributed environmental models based on grid sampling. Water Resources Research.pdf


  65. Slättberg, N., Lai, H., Chen, X., Ma, Y. and Chen, D. (2021). Spatial and Temporal Patterns of Planetary Boundary Layer Height during 1979–2018 over the Tibetan Plateau using ERA5. International Journal of Climatology.

    Slättberg,Nils, et al. (2021). Spatial and temporal patterns of planetary boundary layer height during 1979–2018 over the Tibetan Plateau using ERA5. International Journal of Climatology. .pdf


  66. Meng, Y., Liu, J., Wang, Z., Mao, G., Wang, K. and Yang, H. (2021). Undermined co-benefits of hydropower and irrigation under climate change. Resources, Conservation and Recycling, 167, p.105375.

    Meng, Y., et al. Undermined co-benefits of hyd.pdf


  67. Wu, J., Gao, X., Zhu, Y., Shi, Y. and Giorgi, F. (2021). Projection of the Future Changes in Tropical Cyclone Activity Affecting East Asia over the Western North Pacific Based on Multi-RegCM4 Simulations. Advances in Atmospheric Sciences.

    Wu, J., et al. (2021). Projection of the Future Changes in Tropical Cyclone Activity Affecting East Asia over the Western North Pacific Based on Multi-RegCM4 Simulations. Advances in Atmospheric Sciences 1-20..pdf


  68. Tian, W., Liu, X., Wang, K., Bai, P., Liang, K. and Liu, C. (2021). Evaluation of six precipitation products in the Mekong River Basin. Atmospheric Research, 255, p.105539.

    Tian, W., et al. (2021-02-24). Evaluation of six precipitation products in the Mekong River Basin. Atmospheric Research 255 105539..pdf


  69. Wang, Y., Feng, L., Liu, J. and Chen, D. (2021). Reply to Comment on “Changes of inundation area and water turbidity of Tonle Sap Lake: responses to climate changes or upstream dam construction?” Environmental Research Letters, 16(5), p.058002.

    Wang, Y., et al. (2020). Changes of inundation area and water turbidity of Tonle Sap Lake responses to climate changes or upstream dam construction Environmental Research Letters..pdf


  70. Yun, X., Tang, Q., Li, J., Lu, H., Zhang, L. and Chen, D. (2021). Can reservoir regulation mitigate future climate change induced hydrological extremes in the Lancang-Mekong River Basin? Science of The Total Environment, 785, p.147322.

    Yun, X., et al. (2021-04-26). Can reservoir regulation mitigate future climate change induced hydrological extremes in the Lancang-Mekong River Basin Science of the Total Environment 785 147322..pdf


  71. Zheng, L., Qi, Y., Qin, Z., Xu, X. and Dong, J. (2021). Assessing albedo dynamics and its environmental controls of grasslands over the Tibetan Plateau. Agricultural and Forest Meteorology, 307, p.108479.

    Zheng, L. et al. (2021). Assessing albedo dynamics and its environmental controls of grasslands over the Tibetan Plateau.  Agricultural and Forest Meteorology..pdf


  72. Gao, K., Duan, A. and Chen, D. (2020). Interdecadal summer warming of the Tibetan Plateau potentially regulated by a sea surface temperature anomaly in the Labrador Sea. International Journal of Climatology, 41(S1).

    Gao, K., et al. (2021). Interdecadal summer warming of the Tibetan Plateau potentially regulated by a sea surface temperature anomaly in the Labrador Sea. International Journal of Climatology 41 E2633-E2643..pdf


  73. Kukulies, J., Chen, D. and Curio, J. (2021). The Role of Mesoscale Convective Systems in Precipitation in the Tibetan Plateau region. Journal of Geophysical Research: Atmospheres.

    Kukulies, Julia et al (2021). The Role of Mesoscale Convective Systems in Precipitation in the Tibetan Plateau region. JGR Atmospheres.pdf


  74. Liu, Y., Garcia, M., Zhang, C. and Tang, Q. (2021). Recent decrease in summer precipitation over the Iberian Peninsula closely links to reduction of local moisture recycling.

    Liu, Y., et al. (2021-10-27). Recent decrease in summer precipitation over the Iberian Peninsula closely links to reduction of local moisture recycling. Hydrol. Earth Syst. Sci. Discuss. 2021 1-31..pdf


  75. Wang, J., Yun, X., Pokhrel, Y., Yamazaki, D., Zhao, Q., Chen, A. and Tang, Q. (2021). Modeling Daily Floods in the Lancang‐Mekong River Basin Using an Improved Hydrological‐Hydrodynamic Model. Water Resources Research.

    Wang, J., et al. (2021-07-26). Modeling Daily Floods in the Lancang-Mekong River Basin Using an Improved Hydrological-Hydrodynamic Model. Water Resources Research 57(8) e2021WR029734..pdf


  76. Wang, K., Liu, J., Xia, J., Wang, Z., Meng, Y., Chen, H., Mao, G. and Ye, B. (2021). Understanding the impacts of climate change and socio-economic development through food-energy-water nexus: A case study of mekong river delta. Resources, Conservation and Recycling, 167, p.105390.

    Wang, K., et al. (2021-01-08). Understanding the impacts of climate change and socio-economic development through food-energy-water nexus A case study of mekong river delta. Resources, Conservation and Recycling 167.pdf


  77. Xiao, H., Tang, Y., Li, H., Zhang, L., Ngo-Duc, T., Chen, D. and Tang, Q. (2021). Saltwater intrusion into groundwater systems in the Mekong Delta and links to global change. Advances in Climate Change Research.

    Xiao, H., et al. (2021-06). Saltwater intrusion into groundwater systems in the Mekong Delta and links to global change. Advances in Climate Change Research..pdf


  78. Yun, X., Tang, Q., Sun, S. and Wang, J. (2021). Reducing Climate Change Induced Flood at the Cost of Hydropower in the Lancang‐Mekong River Basin. Geophysical Research Letters, 48(20).

    Yun, X., et al. (2021-09-30). Reducing Climate Change Induced Flood at the Cost of Hydropower in the Lancang-Mekong River Basin. Geophysical Research Letters 48(20) e2021GL094243..pdf


  79. Zhao, Y., Chen, D., Deng, Y. and Son, S.-W. (2021). How Were the Eastward-Moving Heavy Rainfall Events from the Tibetan Plateau to the Lower Reaches of the Yangtze River Enhanced? Journal of Climate, 34(2), pp.607–620.

    Zhao, Y., et al. (2021). How were the eastward-moving heavy rainfall events from the Tibetan Plateau to the lower reaches of the Yangtze River enhanced Journal of Climate 34(2) 607-620..pdf


  80. Chen, J., Kuang, X., Lancia, M., Yao, Y. and Zheng, C. (2021). Analysis of the groundwater flow system in a high-altitude headwater region under rapid climate warming: Lhasa River Basin, Tibetan Plateau. Journal of Hydrology: Regional Studies, 36, p.100871.

    Chen, J., et al. (2021-06-16). Analysis of the groundwater flow system in a high-altitude headwater region under rapid climate warming Lhasa River Basin, Tibetan Plateau. Journal of Hydrology Regional Studies 36 100.pdf


  81. Irannezhad, M., Liu, J. and Chen, D. (2021). Extreme precipitation variability across the Lancang‐Mekong River Basin during 1952–2015 in relation to teleconnections and summer monsoons. International Journal of Climatology.

    Irannezhad, M., et al. (2021). Extreme precipitation variability across the Lancang‐Mekong River Basin during 1952–2015 in relation to teleconnections and summer monsoons. International Journal of Climatology..pdf


  82. Fang, K., Zhang, P., Chen, J. and Chen, D. (2020). Co-varying temperatures at 200 hPa over the Earth’s three poles. Science China Earth Sciences, 64(2), pp.340–350.

    Fang, K., et al. (2021). Co-varying temperatures at 200 hPa over the Earth’s three poles. Science China Earth Sciences 64(2) 340-350..pdf


  83. Chen, A., Liu, J., Kummu, M., Varis, O., Tang, Q., Mao, G., Wang, J. and Chen, D. (2021). Multidecadal variability of the Tonle Sap Lake flood pulse regime. Hydrological Processes, 35(9).

    Chen, A., et al. (2021). Multidecadal variability of the Tonle Sap Lake flood pulse regime. Hydrological Processes 35(9) e14327..pdf


  84. Wang, Z., Liu, J., Li, J., Meng, Y., Pokhrel, Y. and Zhang, H. (2021). Basin-scale high-resolution extraction of drainage networks using 10-m Sentinel-2 imagery. Remote Sensing of Environment, 255, p.112281.

    Wang, Z., et al. (2021-01-21). Basin-scale high-resolution extraction of drainage networks using 10-m Sentinel-2 imagery. Remote Sensing of Environment 255 112281..pdf


  85. Lashkari, A., Irannezhad, M., Zare, H. and Labzovskii, L. (2021). Assessing long-term spatio-temporal variability in humidity and drought in Iran using Pedj Drought Index (PDI). Journal of Arid Environments, 185, p.104336.

    Lashkari, A., et al. (2021). Assessing long-term spatio-temporal variability in humidity and drought in Iran using Pedj Drought Index (PDI). Journal of Arid Environments 185 104336..pdf


  86. Li, D., Qi, Y. and Zhou, T. (2021). Changes in rainfall erosivity over mainland China under stabilized 1.5 ℃ and 2 ℃ warming futures. Journal of Hydrology, 603, p.126996.

    Li, D., et al. (2021) Changes in rainfall erosivity over mainland China under stabilized 1.5 ℃ and 2 ℃ warming futures.  Journal of Hydrology..pdf


  87. Liu, X., Tang, Q., Hosseini-Moghari, S.-M., Shi, X., Lo, M.-H. and Scanlon, B. (2021). GRACE Satellites Enable Long-Lead Forecasts of Mountain Contributions to Streamflow in the Low-Flow Season. Remote Sensing, 13(10), p.1993.

    Liu, X., et al. (2021-05-19). GRACE Satellites Enable Long-Lead Forecasts of Mountain Contributions to Streamflow in the Low-Flow Season. Remote Sensing 13(10)..pdf


  88. Zhang, C., Duan, Q., J.-F. Yeh, P., Pan, Y., Gong, H., Moradkhani, H., Gong, W., Lei, X., Liao, W., Xu, L., Huang, Z., Zheng, L. and Guo, X. (2021). Sub-regional groundwater storage recovery in North China Plain after the South-to-North water diversion project. Journal of Hydrology, 597, p.126156.

    Zhang, C., et al. (2021). Sub-regional groundwater storage recovery in North China Plain after the South-to-North water diversion project. Journal of Hydrology 597 126156..pdf


  89. Wang, X., Feng, L., Gibson, L., Qi, W., Liu, J., Zheng, Y., Tang, J., Zeng, Z. and Zheng, C. (2021). High‐Resolution Mapping of Ice Cover Changes in Over 33,000 Lakes Across the North Temperate Zone. Geophysical Research Letters, 48(18).

    Wang, X., et al. (2021). High‐Resolution Mapping of Ice Cover Changes in Over 33,000 Lakes Across the North Temperate Zone’. Geophysical Research Letters.pdf


  90. He, B., Chen, C., Lin, S., Yuan, W. and Chen, H.W. (2021). Worldwide impacts of atmospheric vapor pressure deficit on the interannual variability of terrestrial carbon sinks. National Science Review.

    He, B., et al. (2021-08-20). Worldwide impacts of atmospheric vapor pressure deficit on the interannual variability of terrestrial carbon sinks. National Science Review..pdf


  91. Zhao, D., Liu, J., Sun, L., Ye, B., Hubacek, K., Feng, K. and Varis, O. (2021). Quantifying economic-social-environmental trade-offs and synergies of water-supply constraints: An application to the capital region of China. Water Research, 195, p.116986.

    Zhao, D., et al. (2021-02-27). Quantifying economic-social-environmental trade-offs and synergies of water-supply constraints An application to the capital region of China. Water Research 195 116986..pdf


  92. Liu, X., He, B., Guo, L., Huang, L., Yuan, W., Chen, X., Hao, X., Xie, X., Zhang, Y., Zhong, Z., Li, T. and Chen, A. (2021). European Carbon Uptake has Not Benefited From Vegetation Greening. Geophysical Research Letters, 48(20).

    Liu, X., et al. (2021-10-1). European Carbon Uptake has Not Benefited From Vegetation Greening. Geophysical Research Letters 48(20) e2021GL094870..pdf


  93. Huang, Z., Liu, X., Sun, S., Tang, Y., Yuan, X. and Tang, Q. (2021). Global assessment of future sectoral water scarcity under adaptive inner-basin water allocation measures. Science of The Total Environment, 783, p.146973.

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