dc.contributor.author	MacKinnon, Jennifer A.
dc.contributor.author	Simmons, Harper L.
dc.contributor.author	Hargrove, John
dc.contributor.author	Thomson, Jim
dc.contributor.author	Peacock, Thomas
dc.contributor.author	Alford, Matthew H.
dc.contributor.author	Barton, Benjamin I.
dc.contributor.author	Boury, Samuel
dc.contributor.author	Brenner, Samuel D.
dc.contributor.author	Couto, Nicole
dc.contributor.author	Danielson, Seth L.
dc.contributor.author	Fine, Elizabeth C.
dc.contributor.author	Graber, Hans C.
dc.contributor.author	Guthrie, John D.
dc.contributor.author	Hopkins, Joanne E.
dc.contributor.author	Jayne, Steven R.
dc.contributor.author	Jeon, Chanhyung
dc.contributor.author	Klenz, Thilo
dc.contributor.author	Lee, Craig M.
dc.contributor.author	Lenn, Yueng-Djern
dc.contributor.author	Lucas, Andrew J.
dc.contributor.author	Lund, Björn
dc.contributor.author	Mahaffey, Claire
dc.contributor.author	Norman, Louisa
dc.contributor.author	Rainville, Luc
dc.contributor.author	Smith, Madison M.
dc.contributor.author	Thomas, Leif N.
dc.contributor.author	Torres-Valdes, Sinhue
dc.contributor.author	Wood, Kevin R.
dc.date.accessioned	2021-09-03T19:31:14Z
dc.date.available	2021-09-03T19:31:14Z
dc.date.issued	2021-04-23
dc.description	© The Author(s), 2021. This article is distributed under the terms of the Creative Commons Attribution License. The definitive version was published in MacKinnon, J. A., Simmons, H. L., Hargrove, J., Thomson, J., Peacock, T., Alford, M. H., Barton, B., Boury, S., Brenner, S. D., Couto, N., Danielson, S. L., Fine, E. C., Graber, H. C., Guthrie, J., Hopkins, J. E., Jayne, S. R., Jeon, C., Klenz, T., Lee, C. M., Lenn, Y-D., Lucas, A. J., Lund, B., Mahaffey, C., Norman, L., Rainville, L., Smith, M. M., Thomas, L. N., Torres-Valdés, S., & Wood, K. R. A warm jet in a cold ocean. Nature Communications, 12(1), (2021): 2418, https://doi.org/10.1038/s41467-021-22505-5.	en_US
dc.description.abstract	Unprecedented quantities of heat are entering the Pacific sector of the Arctic Ocean through Bering Strait, particularly during summer months. Though some heat is lost to the atmosphere during autumn cooling, a significant fraction of the incoming warm, salty water subducts (dives beneath) below a cooler fresher layer of near-surface water, subsequently extending hundreds of kilometers into the Beaufort Gyre. Upward turbulent mixing of these sub-surface pockets of heat is likely accelerating sea ice melt in the region. This Pacific-origin water brings both heat and unique biogeochemical properties, contributing to a changing Arctic ecosystem. However, our ability to understand or forecast the role of this incoming water mass has been hampered by lack of understanding of the physical processes controlling subduction and evolution of this this warm water. Crucially, the processes seen here occur at small horizontal scales not resolved by regional forecast models or climate simulations; new parameterizations must be developed that accurately represent the physics. Here we present novel high resolution observations showing the detailed process of subduction and initial evolution of warm Pacific-origin water in the southern Beaufort Gyre.	en_US
dc.description.sponsorship	Support for this work was provided by the US Office of Naval Research Stratified Ocean Dynamics of the Arctic program (grant numbers N000141512903, N000141612378, N000141612377, N000141612379, N0001416123450, N000141612360, N000141612349, N000141812007, N000141812475, and N000141912514). Additional support for biogeochemistry sampling was provided by UK (NERC) and Germany (BMBF) through the Changing Arctic Ocean Program’s ARISE (NE/P006035/1, NE/P006000/2), PEANUTS (NE/R01275X/1, NE/R012547/2, and BMBF 03F0804) projects and the UK-France PhD program DGA/Dstl. Float deployments and hydrographic data compilations were supported in part by North Pacific Research Board grants A91-99a and A91-00a. The deployment of autonomous ocean profilers was supported by ONR, NOAA Research, and the Joint Institute for the Study of the Atmosphere and Ocean (JISAO) under NOAA Cooperative Agreement NA15OAR4320063.	en_US
dc.identifier.citation	MacKinnon, J. A., Simmons, H. L., Hargrove, J., Thomson, J., Peacock, T., Alford, M. H., Barton, B., Boury, S., Brenner, S. D., Couto, N., Danielson, S. L., Fine, E. C., Graber, H. C., Guthrie, J., Hopkins, J. E., Jayne, S. R., Jeon, C., Klenz, T., Lee, C. M., Lenn, Y-D., Lucas, A. J., Lund, B., Mahaffey, C., Norman, L., Rainville, L., Smith, M. M., Thomas, L. N., Torres-Valdés, S., & Wood, K. R. (2021). A warm jet in a cold ocean. Nature Communications, 12(1), 2418.	en_US
dc.identifier.doi	10.1038/s41467-021-22505-5
dc.identifier.uri	https://hdl.handle.net/1912/27528
dc.publisher	Nature Research	en_US
dc.relation.uri	https://doi.org/10.1038/s41467-021-22505-5
dc.rights	Attribution 4.0 International	*
dc.rights.uri	http://creativecommons.org/licenses/by/4.0/	*
dc.title	A warm jet in a cold ocean	en_US
dc.type	Article	en_US
dspace.entity.type	Publication
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A warm jet in a cold ocean

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