Atmospheric temperature
; Budget control
; Electromagnetic wave emission
; Feedback
; Heat flux
; Radiative transfer
; Sea ice
; Surface properties
; Atmospheric components
; Energy budget/balance
; Global climate model
; Global mean surface temperature
; Land surface modeling
; Long-wave radiation
; Surface temperature difference
; Top of the atmospheres
; Climate models
; albedo
; climate modeling
; emissivity
; energy balance
; energy budget
; global climate
; land surface
; latent heat flux
; longwave radiation
; polar region
; radiative transfer
; sea ice
; spectral analysis
; surface temperature
; Sahara
Department of Climate and Space Sciences and Engineering, University of Michigan, Ann Arbor, MI, United States; Department of Atmospheric Sciences, Texas A and M University, College Station, TX, United States; Division of Climate and Ecosystem Sciences, Lawrence Berkeley Laboratory, Berkeley, CA, United States
Recommended Citation:
Huang X.,Chen X.,Flanner M.,et al. Improved representation of surface spectral emissivity in a global climate model and its impact on simulated climate[J]. Journal of Climate,2018-01-01,31(9)