Upcoming or pending papers that use WRF-BCC

R3Bundy, L. R., W. S. Ashley, A. M. Haberlie, S. M. Strader, M. S. Andrews, S. Whelan, E. Mantia, V. A. Gensini, and A. C. Michaelis, in review: Hail risk and cropland exposure changes in the United States. Agricultural and Forest Meteorology.

Peer-Reviewed Papers that used WRF-BCC

13Ashley, W. S., A. W. Zeeb, A. M. Haberlie, V. A. Gensini, and A. C. Michaelis, Accepted: The Future of Snowstorms in Central and Eastern North America. International Journal of Climatology.
12Wallace, B. C., A. M. Haberlie, W. S. Ashley, V. A. Gensini, and A. C. Michaelis, 2025: Cause and Characteristics of Changes in Mesoscale Convective Systems within a Convection Permitting Regional Climate Model. Journal of Climate, 38, 461-479. 10.1175/JCLI-D-24-0251.1. [PDF]
11Kaminski, K., W. S. Ashley, A. M. Haberlie, and V. A. Gensini, 2025: Future Derecho Potential in the United States. Journal of Climate, 38, 3-26. 10.1175/JCLI-D-23-0633.1. [PDF]
10Stinnett, S., V. A. Gensini, A. M. Haberlie, A. C. Michaelis, and W. S. Ashley, 2024: Future Changes in the Climate of Extreme Daily Precipitation over the Contiguous United States from Convection-Permitting Simulations. Journal of Applied Meteorology and Climatology, 63, 1523-1543. 10.1175/JAMC-D-23-0206.1. [PDF]
9Gensini, V. A., W. S. Ashley, A. C. Michaelis, A. M. Haberlie, J. Goodin, and B. C. Wallace, 2024: Hailstone dichotomy in a changing climate: increased extremes, diminishing norms. Nature Climate Change, 7, 185. 10.1038/s41612-024-00728-9. [PDF]
8Thomas, M. A., A. Michaelis, N. S. Oakley, J. W. Kean, V. A. Gensini, and W. S. Ashley, 2024: Rainfall intensification amplifies exposure of American Southwest to conditions that trigger postfire debris flows. npj Natural Hazards, 1, 14. 10.1038/s44304-024-00017-8 [PDF]
7Haberlie, A. M., B. C. Wallace, W. S. Ashley, V. A. Gensini, and A. C. Michaelis, 2024: Mesoscale Convective System Activity in the United States Under Intermediate and Extreme Climate Change Scenarios. Climatic Change, 177, 94. 10.1007/s10584-024-03752-z [PDF GitHub]
6Zeeb, A., W. S. Ashley, A. M. Haberlie, V. A. Gensini, and A. C. Michaelis, 2023: Supercell Precipitation Contribution to the United States Hydroclimate, International Journal of Climatology, 44, 1489-1512. 10.1002/joc.8395 [PDF]
5Wallace, B. C., A. M. Haberlie, W. S. Ashley, V. A. Gensini, and A. C. Michaelis, 2023: Decomposing the precipitation response to climate change in convection allowing simulations over the conterminous United States. Earth and Space Science, 10, 150. 10.1029/2023EA003094 [PDF GitHub]
4Haberlie, A. M., W. S. Ashley, V. A. Gensini, and A. Michaelis, 2023: The ratio of mesoscale convective system precipitation to total precipitation increases in future climate change scenarios. npj Climate and Atmospheric Science, 6, 150. 10.1038/s41612-023-00481-5 [PDF GitHub]
3Ashley, W. S., A. M. Haberlie, and V. A. Gensini, 2023: The future of supercells in the United States. Bulletin of the American Meteorological Society, 104, E1-21, 10.1175/BAMS-D-22-0027.1 [PDF]
2Haberlie, A. M., W. S. Ashley, C. M. Battisto, and V. A. Gensini, 2022: Thunderstorm activity under intermediate and extreme climate change scenarios. Geophysical Research Letters, 49, e2022GL098779. 10.1029/2022GL098779. [PDF GitHub]
1Gensini, V., A. Haberlie, and W. S. Ashley, 2023: Convection-permitting simulations of historical and possible future climate over the contiguous United States. Climate Dynamics, 60, 109-126. 10.1007/s00382-022-06306-0 [PDF]