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Near-surface wind convergence over the Gulf Stream – the role of SST revisited
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2023
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Source: Journal of Climate (2023)
[PDF-8.39 MB]
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Journal Title:Journal of Climate
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Description:High-resolution observations have demonstrated the presence of strong time-mean near-surface wind convergences (NSWC) anchored across oceanic frontal zones, such as the western boundary currents. Initial analyses appeared to show a close association between this time-mean NSWC and time-mean properties of the underlying sea-surface temperature (SST), such as the gradients and second derivatives (e.g., Laplacian of SST), acting through pressure adjustment and vertical mixing mechanisms. However, a series of recent papers have revealed the instantaneous NSWC to be dominated by atmospheric fronts, and suggested the importance of air-sea processes occurring instead on shorter, synoptic timescales. In this paper, using the ERA-5 reanalysis dataset in the Gulf Stream region, we aim to reconcile these viewpoints by investigating the spatial and temporal dependence of NSWC and its relationship to SST. It is revealed that while atmospheric frontal processes govern the day-to-day variability of NSWC, the relatively weak but persistent pressure adjustment and vertical mixing mechanisms provide lower frequency modulations in conditions both with and without atmospheric fronts. In addition to their temporal characteristics, each mechanism is shown through spectral analysis to dominate on specific spatial scales. In light of recent work that has tied remote atmospheric responses to NSWC anomalies in western boundary current regions, these results emphasize the importance of oceanic frontal zones for atmospheric variability on all spatiotemporal scales.
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Source:Journal of Climate (2023)
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ISSN:0894-8755;1520-0442;
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