Swart, SDu Plessis, MDNicholson, Sarah-AnneMonteiro, Pedro MSDove, LAThomalla, Sandy JThompson, AFBiddle, LCEdholm, JMGiddy, Isabelle2023-10-262023-10-262023-05Swart, S., Du Plessis, M., Nicholson, S., Monteiro, P.M., Dove, L., Thomalla, S.J., Thompson, A. & Biddle, L. et al. 2023. The Southern Ocean mixed layer and its boundary fluxes: Fine-scale observational progress and future research priorities. <i>Philosophical Transactions of the Royal Society A: Mathematical, Physical and Engineering Sciences, 381(2249).</i> http://hdl.handle.net/10204/131801364-503X1471-2962https://doi.org/10.1098/rsta.2022.0058http://hdl.handle.net/10204/13180Interactions between the upper ocean and air-ice-ocean fluxes in the Southern Ocean play a critical role in global climate by impacting the overturning circulation and oceanic heat and carbon uptake. Remote and challenging conditions have led to sparse observational coverage, while ongoing field programmes often fail to collect sufficient information in the right place or at the time-space scales required to constrain the variability occurring in the coupled ocean-atmosphere system. Only within the last 10 years have we been able to directly observe and assess the role of the fine-scale ocean and rapidly evolving atmospheric marine boundary layer on the upper limb of the Southern Ocean's overturning circulation. This review summarizes advances in mechanistic understanding, arising in part from observational programmes using autonomous platforms, of the fine-scale processes (1–100km, hours-seasons) influencing the Southern Ocean mixed layer and its variability. We also review progress in observing the ocean interior connections and the coupled interactions between the ocean, atmosphere and cryosphere that moderate air-sea fluxes of heat and carbon. Most examples provided are for the ice-free Southern Ocean, while major challenges remain for observing the ice-covered ocean. We attempt to elucidate contemporary research gaps and ongoing/future efforts needed to address them.FulltextenSouthern Ocean mixed layerAir-ice-ocean fluxesOcean-atmosphere systemArticleSwart, S., Du Plessis, M., Nicholson, S., Monteiro, P. M., Dove, L., Thomalla, S. J., ... Giddy, I. (2023). The Southern Ocean mixed layer and its boundary fluxes: Fine-scale observational progress and future research priorities. <i>Philosophical Transactions of the Royal Society A: Mathematical, Physical and Engineering Sciences, 381(2249)</i>, http://hdl.handle.net/10204/13180Swart, S, MD Du Plessis, Sarah-Anne Nicholson, Pedro MS Monteiro, LA Dove, Sandy J Thomalla, AF Thompson, LC Biddle, JM Edholm, and Isabelle Giddy "The Southern Ocean mixed layer and its boundary fluxes: Fine-scale observational progress and future research priorities." <i>Philosophical Transactions of the Royal Society A: Mathematical, Physical and Engineering Sciences, 381(2249)</i> (2023) http://hdl.handle.net/10204/13180Swart S, Du Plessis M, Nicholson S, Monteiro PM, Dove L, Thomalla SJ, et al. The Southern Ocean mixed layer and its boundary fluxes: Fine-scale observational progress and future research priorities. Philosophical Transactions of the Royal Society A: Mathematical, Physical and Engineering Sciences, 381(2249). 2023; http://hdl.handle.net/10204/13180.TY - Article AU - Swart, S AU - Du Plessis, MD AU - Nicholson, Sarah-Anne AU - Monteiro, Pedro MS AU - Dove, LA AU - Thomalla, Sandy J AU - Thompson, AF AU - Biddle, LC AU - Edholm, JM AU - Giddy, Isabelle AB - Interactions between the upper ocean and air-ice-ocean fluxes in the Southern Ocean play a critical role in global climate by impacting the overturning circulation and oceanic heat and carbon uptake. Remote and challenging conditions have led to sparse observational coverage, while ongoing field programmes often fail to collect sufficient information in the right place or at the time-space scales required to constrain the variability occurring in the coupled ocean-atmosphere system. Only within the last 10 years have we been able to directly observe and assess the role of the fine-scale ocean and rapidly evolving atmospheric marine boundary layer on the upper limb of the Southern Ocean's overturning circulation. This review summarizes advances in mechanistic understanding, arising in part from observational programmes using autonomous platforms, of the fine-scale processes (1–100km, hours-seasons) influencing the Southern Ocean mixed layer and its variability. We also review progress in observing the ocean interior connections and the coupled interactions between the ocean, atmosphere and cryosphere that moderate air-sea fluxes of heat and carbon. Most examples provided are for the ice-free Southern Ocean, while major challenges remain for observing the ice-covered ocean. We attempt to elucidate contemporary research gaps and ongoing/future efforts needed to address them. DA - 2023-05 DB - ResearchSpace DP - CSIR J1 - Philosophical Transactions of the Royal Society A: Mathematical, Physical and Engineering Sciences, 381(2249) KW - Southern Ocean mixed layer KW - Air-ice-ocean fluxes KW - Ocean-atmosphere system LK - https://researchspace.csir.co.za PY - 2023 SM - 1364-503X SM - 1471-2962 T1 - The Southern Ocean mixed layer and its boundary fluxes: Fine-scale observational progress and future research priorities TI - The Southern Ocean mixed layer and its boundary fluxes: Fine-scale observational progress and future research priorities UR - http://hdl.handle.net/10204/13180 ER -37562