Publications

18. Dong, W.*, Zhao, M., Harris, L., Cheng, K.-y., Zhou, L., & Ramaswamy, V. (2024). Contrasting response of mesoscale convective systems occurrence over tropical land and ocean to increased sea surface temperature. Geophys. Res. Lett., 51, e2024GL109251.

17. Dong, W.*, Y. Ming, Y. Deng, Z. Shen (2024). Recent wetting trend over Taklamakan and Gobi Desert dominated by internal variability. Nat. Commun., 15, 4379.

16. Dong, W.*, M. Zhao, Z. Tan, V. Ramaswamy (2024). Increasing atmospheric rivers over Eastern US regulated by Pacific/North America pattern. Sci. Adv., 10(4), eadj3325.

15. Dong, W.*, J. Krasting, H. Guo (2023). Analysis of precipitation diurnal cycle and variances in GFDL‑AM4.0 model simulations. J. Climate, 36(24), 8637‑8655.

14. Dong, W. & Y. Lin (2023). Observed scaling of precipitation extremes with surface temperature and convective available potential energy. Geophysical Monograph Series. Clouds and Their Climatic Impact: Radiation, Circulation, and Precipitation, 281, 287. [Invited AGU Book Chapter]

13. Dong, W.*, M. Zhao, Y. Ming, J. Krasting, V. Ramaswamy (2023). Simulation of United States mesoscale convective systems using GFDL’s new high‑resolution general circulation model. J. Climate, 36(19), 6967‑6990.

12. Dong, W.*, M. Zhao, Y. Ming. V. Ramaswamy (2022). Significant increase in sea surface temperature at the genesis of tropical mesoscale convective systems. Geophys. Res. Lett., e2022GL101950.

11. Zhao, D., Dong, W.*, Y, Lin, Y. Hu. D. Cao (2022). Diurnal variation of precipitation over the high mountain Asia: Spatial distribution and its seasonality. J. Hydrol., 23(12), 1945‑1959.

10. Dong, W.* & Y. Ming (2022). Seasonality and variability of snowfall to total precipitation ratio over High Mountain Asia simulated by the GFDL high‑resolution AM4. J. Climate, 35(17), 5573‑5589.

9. Dong, W.*, M. Zhao, Y. Ming, V. Ramaswamy (2021). Representation of tropical mesoscale convective systems in a general circulation model: Climatology and response to global warming. J Climate, 34 (14): 5657‑5671.

8. Dong, W.*, Y. Ming, V. Ramaswamy (2020). Projected changes in Indian monsoon low‑pressure system, J Climate, 33 (17): 7275–7287.

7. Dong, W., Y. Lin, M. Zhang, X. Huang (2020). Footprint of tropical mesoscale convective system variability on stratospheric water vapor, Geophys. Res. Lett., 47, e2019GL086320.

6. Dong, W., Y. Lin, J. Wright et al. (2019). Precipitable water and CAPE dependence of rainfall intensities in China, Clim. Dyn., 52, 3357–3368.

5. Dong, W.*, Y. Lin, J. Wright et al. (2018). Connections between a late summer snowstorm over the southwestern Tibetan Plateau and a concurrent Indian monsoon low-pressure system, J. Geophys. Res. Atmos., 123 (24), 13,676–13,691.

4. Dong, W., Y. Lin, J. Wright, Y. Ming et al. (2018). Regional disparities in summer rainfall changes over the arid eastern‑Central Asia. Sci. Rep., 8, 13051

3. Lin, Y., Dong, W.+, M. Zhang et al. (2017). Causes of model dry and warm bias over central U.S. and impact on climate projections, Nat. Commun., 8, 881.

2. Dong, W., Y. Lin, J. Wright et al. (2017). Monsoon low pressure systems feed up‑and‑over moisture transport to the southwestern Tibetan Plateau, J. Geophys. Res. Atmos., 122, 12140–12151.

1. Dong, W., Y. Lin, J. Wright, Y. Ming et al. (2016). Summer rainfall over the southwestern Tibetan Plateau controlled by deep convection over the Indian subcontinent, Nat. Commun., 7, 10925.

17. Liang, W., M. Zhao, Z. Tan, T. Knutson, W. Dong, & B. Zhang (2024). The direct radiative effect of CO2 increase on summer precipitation in North America. Geophys. Res. Lett., 51(14), e2024GL109202.

16. Cooper, V., K. Armour, ..., W. Dong et al. (2024). Last Glacial Maximum pattern effects reduce climate sensitivity estimates. Sci. Adv., 10(16), eadk9461.

15. You. Z., Y. Deng, Y. Ming. & W. Dong (2024) A Multiscale Assessment of the Springtime U.S. Mesoscale Convective Systems in the NOAA GFDL AM4. Clim. Dyna., 1‑14.

14. Zhao, D., Y. Lin, W. Dong et al. (2023). Alleviated WRF summer wet bias over the Tibetan Plateau using a new cloud macrophysics scheme. JAMES, 15, e2023MS003616.

13. Xie, Y., J. Huang, G. Wu, Y. Liu, W. Dong et al. (2023). Oceanic repeaters boost the global climatic impact of the Tibetan Plateau. Sci. Bull. 68(19), 2225‑2235.

12. Neelin, J., J. Krasting, A. Radhakrishnan, J. Liptak, Y. Ming, W. Dong et al. (2023). Process‑oriented diagnostics: principles, practice, community development and common standards, BAMS.

11. Sadaf, N, Y, Lin, W. Dong (2020). Wet spells over the core monsoon domain of northern Pakistan during the summer season, Int. J. Climatol. 41, 1402–1420.

10. He, X., ..., W. Dong, et al. (2020). Favorable circulation patterns and moisture sources for wintertime extreme precipitation events over the Balkhash–Junggar region. J. Geophys. Res. Atmos., 125, e2019JD032275.

9. Xie, Y., Y. Wang, M. Bilal, W. Dong (2019). Mapping daily PM2. 5 at 500 m resolution over Beijing with improved hazy day performance, Sci. Total Environ., 659, 410–418.

8. Qiu, T., ..., W. Dong et al. (2019). Moisture sources for wintertime intense precipitation events over the three snowy subregions of the Tibetan Plateau. J. Geophys. Res. Atmos., 124, 12708–12725.

7. Xie, Y., Y. Wang, W. Dong et al. (2019). Evaluating the response of summertime surface sulfate to hydroclimate variations in the continental United States: Role of meteorological inputs in the GEOS‑Chem model, J. Geophys. Res. Atmos., 124 (3), 1662–

1679.

6. Xu, H., S. Li, Y. Bai, W. Dong et al. (2019), A collaborative analysis framework for distributed gridded environmental data, Environ. Model. Softw., 111, 324–339.

5. Wang, Y., Y. Xie, W. Dong et al. (2017): Adverse effects of increasing drought on air quality via natural processes, Atmos. Chem. Phys., 17, 12827‑12843.

4. Chavas, D., N. Lin, W. Dong, Y. Lin (2016): Observed tropical cyclone size revisited. J. Climate, 29, 2923‑2939.

3. Dong, F., Li, Y., Wang, B., Huang, W., Shi, Y., & W. Dong (2016). Global air–sea CO 2 flux in 22 CMIP5 models: Multiyear mean and interannual variability. J. Climate, 29(7), 2407-2431.

2. Xie, Y., Y. Wang, K. Zhang, W. Dong et al. (2015): Daily estimation of ground‑level PM2.5 concentrations over Beijing using 3 km resolution MODIS AOD, Environ. Sci. Technol., 49 (20), 12280–12288.

1. Wang, Y., Y. Xie, L. Cai, W. Dong et al. (2014): Impact of the 2011 southern U.S. drought on ground‑level fine aerosol concentration in summertime, J. Atmos. Sci., 72, 1075‑1093.