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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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.

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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.

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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).

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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.

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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


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

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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.

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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


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).

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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.

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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.

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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.

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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.

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Wang, Y., Feng, L., Liu, J. and Chen, D. (2021e). 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


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

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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.

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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


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.

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

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

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Wang, K., Liu, J., Xia, J., Wang, Z., Meng, Y., Chen, H., Mao, G. and Ye, B. (2021c). 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.

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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.

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

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Zhao, Y., Chen, D., Deng, Y. and Son, S.-W. (2021c). 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


Chen, J., Kuang, X., Lancia, M., Yao, Y. and Zheng, C. (2021b). 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.

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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.

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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.

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

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

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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.

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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.

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

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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. (2021a). Sub-regional groundwater storage recovery in North China Plain after the South-to-North water diversion project. Journal of Hydrology, 597, p.126156.

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

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Zhao, D., Liu, J., Sun, L., Ye, B., Hubacek, K., Feng, K. and Varis, O. (2021a). 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.

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Xu, X. and Tang, Q. (2021b). Spatiotemporal variations in damages to cropland from agrometeorological disasters in mainland China during 1978–2018. Science of The Total Environment, 785, p.147247.

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Zhong, Z., He, B., Chen, Y., Yuan, W., Huang, L., Guo, L., Zhang, Y. and Xie, X. (2021). Higher sensitivity of planted forests’ productivity than natural forests to droughts in China. Journal of Geophysical Research: Biogeosciences.

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Zhao, D., Liu, J., Yang, H., Sun, L. and Varis, O. (2021b). Socioeconomic drivers of provincial-level changes in the blue and green water footprints in China. Resources, Conservation and Recycling, 175, p.105834.

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Wang, D., Hubacek, K., Shan, Y., Gerbens-Leenes, W. and Liu, J. (2021a). A Review of Water Stress and Water Footprint Accounting. Water, 13(2), p.201.

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Su, B., Xiao, C., Chen, D., Ying, X., Huang, Y., Guo, R., Zhao, H., Chen, A. and Che, Y. (2021). Mismatch between the population and meltwater changes creates opportunities and risks for global glacier-fed basins. Science Bulletin.

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Xu, X. and Tang, Q. (2021a). Meteorological disaster frequency at prefecture-level city scale and induced losses in mainland China during 2011–2019. Natural Hazards, 109(1), pp.827–844.

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Liu, Y., Zhang, C., Tang, Q., Hosseini-Moghari, S.-M., Haile, G.G., Li, L., Li, W., Yang, K., van der Ent, R.J. and Chen, D. (2021e). Moisture source variations for summer rainfall in different intensity classes over Huaihe River Valley, China. Climate Dynamics, 57(3-4), pp.1121–1133.

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Reda, K.W., Liu, X., Tang, Q. and Gebremicael, T.G. (2021). Evaluation of Global Gridded Precipitation and Temperature Datasets against Gauged Observations over the Upper Tekeze River Basin, Ethiopia. Journal of Meteorological Research, 35(4), pp.673–689.

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Dai, Y., Chen, D., Yao, T. and Wang, L. (2020). Large lakes over the Tibetan Plateau may boost snow downwind: implications for snow disaster. Science Bulletin, 65(20), pp.1713–1717.

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Irannezhad, M., Liu, J. and Chen, D. (2020). Influential Climate Teleconnections for Spatiotemporal Precipitation Variability in the Lancang‐Mekong River Basin From 1952 to 2015. Journal of Geophysical Research: Atmospheres, 125(21).

Irannezhad, M., et al. (2020). Influential climate teleconnections for spatiotemporal precipitation variability in the Lancang-Mekong River basin from 1952 to 2015. Journal of Geophysical Research Atmospheres 125(21.pdf


Jiang, H., Zheng, G., Yi, Y., Chen, D., Zhang, W., Yang, K. and Miller, C.E. (2020b). Progress and Challenges in Studying Regional Permafrost in the Tibetan Plateau Using Satellite Remote Sensing and Models. Frontiers in Earth Science, 8.

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Jiang, H., Yi, Y., Zhang, W., Yang, K. and Chen, D. (2020a). Sensitivity of soil freeze/thaw dynamics to environmental conditions at different spatial scales in the central Tibetan Plateau. Science of The Total Environment, 734, p.139261.

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Ou, T., Chen, D., Chen, X., Lin, C., Yang, K., Lai, H.-W. and Zhang, F. (2020). Simulation of summer precipitation diurnal cycles over the Tibetan Plateau at the gray-zone grid spacing for cumulus parameterization. Climate Dynamics, 54(7-8), pp.3525–3539.

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