Journal
GEOPHYSICAL RESEARCH LETTERS
Volume 43, Issue 5, Pages 2307-2314Publisher
AMER GEOPHYSICAL UNION
DOI: 10.1002/2016GL067742
Keywords
global nonhydrostatic simulation; fixed anvil temperature hypothesis; cloud size
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Funding
- MEXT, Japan
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The applicability of the fixed anvil temperature (FAT) hypothesis is examined using data of a global nonhydrostatic model, focusing particularly on high cloud size dependency. Decomposition of outgoing-longwave radiation (OLR) into three components, including cloud top temperature (T-CT), upward cloud emissivity (epsilon), and clear-sky OLR (F-CLR), reveals that the relative contributions of these three components to changes of OLR are highly dependent on cloud size. That is, the FAT hypothesis is applicable only for smaller clouds, because the contribution of T-CT by those clouds is small, and epsilon is more important. In contrast, for larger clouds, the contribution of epsilon is comparable to that of T-CT, and thus, both components are equally important. F-CLR slightly reduces OLR but shows dependence on cloud size.
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