E-Mail:551bffd5c99f08b5e1938701606da2ecd1f2dc8763a39cb1829c68811c01e56eb06ee984edac86f71a270aa0dff04ef469395f3d674a0414a97879a25ea299474a3bcdee08c2204ebfcadf0e5b0fc73bc53c360dd34fd31f4f7fa71b2d046362d962fa428b4d5bf60236cad31ed00078851e0431d38e40eed109a9bf9c578c2a
Discipline:Atmospheric Sciences
1.Tong, D., Zhang, Q.*, Zheng, Y., Caldeira, K., Shearer, C., Hong, C., Qin, Y. and Davis, S. J.* (2019). Committed emissions from existing energy infrastructure jeopardize 1.5 °C climate target. Nature, 572(7769), p.373-377.
2.Zhang, Q.#,*, Jiang, X.#, Tong, D.#, Davis, S.J.*, Zhao, H., Geng, G., Feng, T., Zheng, B., Lu, Z., Streets, D. G., Ni, R., Brauer, M., van Donkelaar, A., Martin, R. V., Huo, H., Liu, Z., Pan, D., Kan, H., Yan, Y., Lin, J.*, He, K. and Guan, D. (2017). Transboundary health impacts of transported global air pollution and international trade. Nature, 543(7647), p.705-709.
3.Tong, D.#, Geng, G.#, Zhang, Q.*, Cheng, J., Qin, X., Hong, C., He, K. and Davis, S.J.* (2021). Health co-benefits of climate change mitigation depend on strategic power plant retirements and pollution controls. Nature Climate Change, 11(12), p.1077-1083.
4.Tong, D.*, Farnham, D.J., Duan, L., Zhang, Q., Lewis, N.S., Caldeira, K. and Davis, S.J. (2021). Geophysical constraints on the reliability of solar and wind power worldwide. Nature Communications, 12(1), p.1-12.
5.Tong, D., Zhang, Q.*, Davis, S.J.*, Liu, F., Zheng, B., Geng, G., Xue, T., Li, M., Hong, C., Lu, Z. and Streets, D. G., Guan, D. and He, K. (2018). Targeted emission reductions from global super-polluting power plant units. Nature Sustainability, 1(1), p.59.
6.Lin, J.#,*, Tong, D.#, Davis, S. J., Ni, R., Tan, X., Pan, D., Zhao, H., Lu, Z., Streets, D. G., Feng, T. and Zhang, Q.*, Yan, Y., Hu, Y., Li, J., Liu, Z., Jiang, X., Geng, G., He, K., Huang, Y.*, and Guan, D. (2016). Global climate forcing of aerosols embodied in international trade. Nature Geoscience, 9(10), p.790-794.
7.Zhang, Q.#,*, Zheng, Y.#, Tong, D.#, Shao, M., Wang, S., Zhang, Y., Xu., X., Wang, J., He, H., Liu, W., Ding, Y., Lei., Y., Li, J., Wang, Z., Zhang, X., Wang, Y., Cheng, J., Liu, Y., Yan., L., Geng, G., Zheng, B., He, K.* and Hao, J.*, Drivers of improved PM2.5 air quality in China during 2013-2017. PNAS, 116(49), 24463-24469.
8.Tong, D., Zhang, Q.*, Liu, F., Geng, G., Zheng, Y., Xue, T., Hong, C., Wu, R., Yu, Q., Zhao, H., Yan, L. and He. K., 2018. Current Emissions and Future Mitigation Pathways of Coal-Fired Power Plants in China from 2010 to 2030. Environmental science & technology, 52(21), 12905-12914.
9.Tong, D., Geng, G.*, Keng, J., Cheng, J., Zheng, Y., Hong, C., Yan, L., Zhang, Y., Chen, X., Bo, Y., Lei, Y., Zhang, Q. and He. K, 2019. Energy and emission pathways towards PM2.5 air quality attainment in the Beijing-Tianjin-Hebei region by 2030. Science of The Total Environment, 629, p.361-370.
10.Tong, D., Cheng, J., Liu, Y., Yu, S., Yan, L., Hong, C., Qin, Y., Zhao, H., Zheng, Y., Geng, G., Li, M., Liu, F., Zhang, Y., Zheng, B., Clarke, L., and Zhang, Q,* 2020. Dynamic projection of anthropogenic emissions in China: methodology and 2015-2050 emission pathways under a range of socioeconomic, climate policy, and pollution control scenarios. Atmospheric Chemistry and Physics, 20, 5729–5757.
11.Liu, J.#, Tong, D.#, Zheng, Y. X., Cheng, J., Qin, X. Y., Shi, Q. R., Yan, L., Lei, Y., and Zhang, Q.*, 2021. Carbon and air pollutant emissions from China's cement industry 1990–2015: trends, evolution of technologies and drivers. Atmospheric Chemistry and Physics, 21, 5729–5757.
12.Cheng, J., Tong, D., Liu, Y., Bo, Y., Zheng, B., Geng, G., He, K., Zhang, Q., 2020. Air quality and health benefits from China's current and upcoming clean air policies. Faraday Discussions.
13.Shearer, C., Tong, D., Fofrich, R., and Davis, S. J., 2020. Committed emissions of the U.S. power sector, 2000-2018. AGU Advances.
14.Liu, J., Zheng, Y., Geng, G., Hong, C., Li, M., Li, X., Liu, F., Tong, D., Wu, R., Zheng, B., He, K., and Zhang, Q., 2020. Decadal changes in anthropogenic source contribution of PM2. 5 pollution and related health impacts in China, 1990–2015. Atmospheric Chemistry and Physics. 20(13), 7783-7799.
15.Zheng, Y., Zhang, Q., Tong, D., Davis, S. J., and Caldeira, K., 2020. Climate effects of China’s efforts to improve its air quality. Environmental Research Letters.
16.Huang, X., Ding, A., Gao, J., Zheng, B., Zhou, D., Qi, X., Tang, R., Wang, J., Ren, C., Nie, W., Chi, X., Xu, Z., Chen, L., Li, Y., Che, F., Pang, N., Wang, H., Tong, D., Qin, W., Cheng, W., Liu, W., Fu, Q., Liu, B., Chai, F., Davis, S. J., Zhang, Q., and He., K., 2020. Enhanced secondary pollution offset reduction of primary emissions during COVID-19 lockdown in China. National Science Review.
17.Fofrich, R., Tong, D., Calvin, K. V., de Boer H. S., Emmerling, J., Fricko, O., Fujimori, S., Luderer, G., Rogelj, J., and Davis, S. J., 2020. Early retirement of power plants in climate mitigation scenarios. Environmental Research Letters.
18.Ruggles, T.H., Farnham, D.J., Tong, D., and Caldeira, K., 2020. Developing reliable hourly electricity demand data through screening and imputation. Scientific Data, 7(1), pp.1-14.
19.Qin, Y., Abatzoglou, J. T., Siebert, S., Huning, L., AghaKouchak, A., Mankin, J. S., Hong, C., Tong, D., Davis, S. J., and Mueller, N. D., 2020. Agricultural risks from changing snowmelt. Nature Climate Change, 10, p459-465.
20.Hong, C., Mueller, N. D., Burney, J. A., Zhang, Y., AghaKouchak, A., Moore, F. C., Qin, Y., Tong, D., and Davis, S. J., 2020. Impacts of ozone and climate change on yields of perennial crops in California. Nature Food, 1, p166-172.
2022年度阿里巴巴达摩院青橙奖
2021、2022年度科睿唯安 “高被引科学家”
35 Innovators Under 35 of China (MIT TR35 China),December 2019
