Toward Understanding the Diverse Impacts of Air‐Sea Interactions on MJO Simulations

The role of air‐sea interactions on MJO simulations has long been recognized. However, the reasons for the variation of the impacts of air‐sea coupling among different models are still elusive. In this study, we used NCEP GFS under different cumulus schemes and SST conditions to explore this issue....

Full description

Saved in:
Bibliographic Details
Published in:Journal of geophysical research. Oceans 2017-11, Vol.122 (11), p.8855-8875
Main Authors: Fu, Joshua‐Xiouhua, Wang, Wanqiu, Shinoda, Toshiaki, Ren, Hong‐Li, Jia, Xiaolong
Format: Article
Language:English
Subjects:
Air
Air-sea coupling
Air-sea interaction
Anomalies
Atmospheric models
Clouds
Computer simulation
Coupling
different cumulus schemes
different SST conditions
diverse air‐sea coupling
Dynamics
Feedback
Geophysics
Interactions
MJO simulations
NCEP GFS
Oceans
Sea surface
Sea surface temperature
Simulation
Citations: Items that this one cites
Items that cite this one
Online Access:Get full text
Tags: Add Tag
No Tags, Be the first to tag this record!
Description
Summary:The role of air‐sea interactions on MJO simulations has long been recognized. However, the reasons for the variation of the impacts of air‐sea coupling among different models are still elusive. In this study, we used NCEP GFS under different cumulus schemes and SST conditions to explore this issue. We focused on the Oct‐MJO and Nov‐MJO during the DYNAMO IOP. We show that the effects of SST‐feedback on MJO simulations not only vary between these two MJO events, but are also very sensitive to the specifics of cumulus schemes and intraseasonal SST forcing. The Oct‐MJO basically reinvigorates over Indian Ocean in association with the arrival of global circumnavigating mode. The Nov‐MJO is largely reinvigorated by a robust intraseasonal SST anomaly over Indian Ocean. We found that SST‐feedback is crucial for the existence of the Nov‐MJO, but has little effect on the Oct‐MJO. This finding raises the possibility that the occurrence of some MJO events may be rooted in air‐sea interactions. These results suggest that the diverse impacts of air‐sea coupling on MJO simulations can be attributed to at least the following three potential causes: (i) diverse responses of ocean to individual MJO events in nature; (ii) diverse behaviors of various cumulus parameterizations; and (iii) diverse intraseasonal SST anomalies in coupled models. Either a too weak internal MJO mode in atmospheric models or a too weak intraseasonal SST anomaly in coupled models would lead to the underestimation of the impacts of air‐sea coupling on MJO simulations. Key Points During DYNAMO period, the Oct‐MJO and Nov‐MJO events are sustained by atmospheric internal dynamics and ocean feedback The diverse effects of air‐sea coupling on MJO simulations can be attributed to three causes They are diverse air‐sea coupling in nature, diverse behaviors of cumulus schemes, and diverse SST anomalies
ISSN:2169-9275
2169-9291
DOI:10.1002/2017JC013187