Intraseasonal Variability of Air–Sea Fluxes over the Bay of Bengal during the Southwest Monsoon

Alejandra Sanchez-Franks,Elizabeth C Kent,P N Vinayachandran,Benjamin G M Webber,Simon C Peatman,Adrian J Matthews

doi:10.1175/jcli-d-17-0652.1

Abstract

In the Bay of Bengal (BoB), surface heat fluxes play a key role in monsoon dynamics and prediction. The accurate representation of large-scale surface fluxes is dependent on the quality of gridded reanalysis products. Meteorological and surface flux variables from five reanalysis products are compared and evaluated against in situ data from the Research Moored Array for African–Asian–Australian Monsoon Analysis and Prediction (RAMA) in the BoB. The reanalysis products: ERA-Interim (ERA-I), TropFlux, MERRA-2, JRA-55, and CFSR are assessed for their characterization of air–sea fluxes during the southwest monsoon season [June–September (JJAS)]. ERA-I captured radiative fluxes best while TropFlux captured turbulent and net heat fluxes Qnet best, and both products outperformed JRA-55, MERRA-2, and CFSR, showing highest correlations and smallest biases when compared to the in situ data. In all five products, the largest errors were in shortwave radiation QSW and latent heat flux QLH, with nonnegligible biases up to approximately 75 W m−2. The QSW and QLH are the largest drivers of the observed Qnet variability, thus highlighting the importance of the results from the buoy comparison. There are also spatially coherent differences in the mean basinwide fields of surface flux variables from the reanalysis products, indicating that the biases at the buoy position are not localized. Biases of this magnitude have severe implications on reanalysis products’ ability to capture the variability of monsoon processes. Hence, the representation of intraseasonal variability was investigated through the boreal summer intraseasonal oscillation, and we found that TropFlux and ERA-I perform best at capturing intraseasonal climate variability during the southwest monsoon season.

Highlights

Circulation in the Indian Ocean is governed by monsoon variability (Lau et al 2012; Weller et al 2016)
Meteoro18 logical and surface flux variables from five reanalysis products are compared and evaluated against in situ data from the RAMA moored array in the Bay of Bengal (BoB). The reanalysis products: ERA-Interim (ERA-I), TropFlux, MERRA-2, JRA21 55 and Climate Forecast System Reanalysis (CFSR) are assessed for their characterisation of air-sea fluxes during 22 the southwest monsoon season (JJAS)
The representation of intraseasonal variability was investigated through the boreal summer intraseasonal oscillation and we found that TropFlux and ERA-I per36 form best at capturing intraseasonal climate variability during the southwest 37 monsoon season

Summary

Introduction

Circulation in the Indian Ocean is governed by monsoon variability (Lau et al 2012; Weller et al 2016). The importance of the Qnet as a driver of summer SST variability in the BoB (Duncan and Han 2009; Lau et al 2012) is shown in observations and ocean models, where summer intrasea sonal oscillations (ISO) of SST are forced mainly by heat flux variability, with occasional contri butions from vertical mixing and entrainment at the base of the mixed layer (Schiller and Godfrey 2003; Waliser 2006; Girishkumar et al 2017) Both models and observations indicate that the intraseasonal oscillation of the northern Indian Ocean SST impacts the large-scale atmospheric wind field, temperature, humidity and the active–break cycle of monsoon convection (Vecchi and Harrison 2002; Waliser 2006; Yang et al 2008).

Data and Methods

Evaluation of meteorological and flux variables

Surface Fluxes at RAMA flux reference site b28