Capturing the Effects of Surface Flux Heterogeneity on the Lower Sub-grid Atmosphere in Earth System Models with a Multi-Column Approach
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, Other
Waterman, T; Bragg, A; Simon, J; Chaney, N
December 7, 2021
Duke Scholars
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Waterman, T., Bragg, A., Simon, J., & Chaney, N. (2021). Capturing the Effects of Surface Flux Heterogeneity on the Lower Sub-grid Atmosphere in Earth System Models with a Multi-Column Approach. https://doi.org/10.1002/essoar.10509146.1
Waterman, Tyler, Andrew Bragg, Jason Simon, and Nathaniel Chaney. “Capturing the Effects of Surface Flux Heterogeneity on the Lower Sub-grid Atmosphere in Earth System Models with a Multi-Column Approach,” December 7, 2021. https://doi.org/10.1002/essoar.10509146.1.
Waterman T, Bragg A, Simon J, Chaney N. Capturing the Effects of Surface Flux Heterogeneity on the Lower Sub-grid Atmosphere in Earth System Models with a Multi-Column Approach. 2021.
Waterman, Tyler, et al. Capturing the Effects of Surface Flux Heterogeneity on the Lower Sub-grid Atmosphere in Earth System Models with a Multi-Column Approach. 7 Dec. 2021. Crossref, doi:10.1002/essoar.10509146.1.
Waterman T, Bragg A, Simon J, Chaney N. Capturing the Effects of Surface Flux Heterogeneity on the Lower Sub-grid Atmosphere in Earth System Models with a Multi-Column Approach. 2021.