Seasonality of interannual atmosphere-ocean interaction in the South China Sea
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AbstractThe present study documents the atmosphere-ocean interaction in interannual variations over the South China Sea (SCS). The atmosphere-ocean relationship displays remarkable seasonality and regionality, with an atmospheric forcing dominant in the northern and central SCS during the local warm season, and an oceanic forcing in the northern SCS during the local cold season. During April-June, the atmospheric impact on the sea surface temperature (SST) change is characterized by a prominent cloud-radiation effect in the central SCS, a wind-evaporation effect in the central and southern SCS, and a wind-driven oceanic effect along the west coast. During November-January, regional convection responds to the SST forcing in the northern SCS through modulation of the low-level convergence and atmospheric stability. Evaluation of the precipitation-SST and precipitation-SST tendency correlation in 24 selected models from CMIP5 indicates that the simulated atmosphere-ocean relationship varies widely among the models. Most models have the worst performance in spring. On average, the models simulate better the atmospheric forcing than the oceanic forcing. Improvements are needed for many models before they can be used to understand the regional atmosphere-ocean interactions in the SCS region.
All Author(s) ListHe ZQ, Wu RG
Journal nameJournal of Oceanography
Year2013
Month12
Day1
Volume Number69
Issue Number6
PublisherSPRINGER
Pages699 - 712
ISSN0916-8370
eISSN1573-868X
LanguagesEnglish-United Kingdom
KeywordsAtmosphere-ocean interaction; CMIP5 simulations; Interannual variability; Regionality; Seasonality; South China Sea
Web of Science Subject CategoriesOceanography; OCEANOGRAPHY

Last updated on 2020-24-10 at 02:21