@misc{yi_the_relationship_2018, author={Yi, X., Huenicke, B., Tim, N., Zorita, E.}, title={The relationship between Arabian Sea upwelling and Indian Monsoon revisited in a high resolution ocean simulation}, year={2018}, howpublished = {journal article}, doi = {https://doi.org/10.1007/s00382-017-3599-8}, abstract = {Studies based on sediment records, sea-surface temperature and wind suggest that upwelling along the western coast of Arabian Sea is strongly affected by the Indian summer Monsoon. We examine this relationship directly in an eddy-resolving global ocean simulation STORM driven by atmospheric reanalysis over the last 61 years. With its very high spatial resolution (10 km), STORM allows us to identify characteristics of the upwelling system. We analyse the co-variability between upwelling and meteorological and oceanic variables from 1950 to 2010. The analysis reveals high interannual correlations between coastal upwelling and along-shore wind-stress (r = 0.73) as well as with sea-surface temperature (r = −0.83). However, the correlation between the upwelling and the Monsoon is small. We find an atmospheric circulation pattern different from the one that drives the Monsoon as the main modulator of the upwelling variability. In spite of this, the patterns of temperature anomalies that are either linked to Arabian Sea upwelling or to the Monsoon are spatially quite similar, although the physical mechanisms of these links are different. In addition, no long-term trend is detected in our modelled upwelling in the Arabian Sea.}, note = {Online available at: \url{https://doi.org/10.1007/s00382-017-3599-8} (DOI). Yi, X.; Huenicke, B.; Tim, N.; Zorita, E.: The relationship between Arabian Sea upwelling and Indian Monsoon revisited in a high resolution ocean simulation. Climate Dynamics. 2018. vol. 50, no. 1-2, 201-213. DOI: 10.1007/s00382-017-3599-8}}