Wiley
Semi-coupling of a Field-scale Resolving Land-surface Model and WRF-LES to Investigate the Influence of Land-surface Heterogeneity on Cloud Development
Publication
, Preprint
Simon, JS; Bragg, AD; Dirmeyer, PA; Chaney, NW
June 2, 2021
Duke Scholars
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APA
Chicago
ICMJE
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Simon, J. S., Bragg, A. D., Dirmeyer, P. A., & Chaney, N. W. (2021). Semi-coupling of a Field-scale Resolving Land-surface Model and WRF-LES to Investigate the Influence of Land-surface Heterogeneity on Cloud Development. Wiley. https://doi.org/10.1002/essoar.10507168.1
Simon, Jason Scot, Andrew D. Bragg, Paul A. Dirmeyer, and Nathaniel W. Chaney. “Semi-coupling of a Field-scale Resolving Land-surface Model and WRF-LES to Investigate the Influence of Land-surface Heterogeneity on Cloud Development.” Wiley, June 2, 2021. https://doi.org/10.1002/essoar.10507168.1.
Simon JS, Bragg AD, Dirmeyer PA, Chaney NW. Semi-coupling of a Field-scale Resolving Land-surface Model and WRF-LES to Investigate the Influence of Land-surface Heterogeneity on Cloud Development. Wiley. 2021.
Simon, Jason Scot, et al. “Semi-coupling of a Field-scale Resolving Land-surface Model and WRF-LES to Investigate the Influence of Land-surface Heterogeneity on Cloud Development.” Wiley, 2 June 2021. Crossref, doi:10.1002/essoar.10507168.1.
Simon JS, Bragg AD, Dirmeyer PA, Chaney NW. Semi-coupling of a Field-scale Resolving Land-surface Model and WRF-LES to Investigate the Influence of Land-surface Heterogeneity on Cloud Development. Wiley. 2021.