Antarctic Bottom Water and North Atlantic Deep Water in CMIP6 models

Deep water formation is the driver of the global ocean circulation, yet it was poorly represented in the previous generation of climate models. We here quantify biases in Antarctic Bottom Water (AABW) and North Atlantic Deep Water (NADW) formation, properties, transport and global extent in 35 clima...

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Main Author:	Heuzé, Céline
Format:	Text
Language:	English
Published:	2020
Subjects:	Antarctic Indian Pacific Southern Ocean The Antarctic Antarc* Ice Sheet Labrador Sea NADW North Atlantic Deep Water North Atlantic
Online Access:	https://doi.org/10.5194/os-2020-66 https://os.copernicus.org/preprints/os-2020-66/

id	ftcopernicus:oai:publications.copernicus.org:osd86588
record_format	openpolar
spelling	ftcopernicus:oai:publications.copernicus.org:osd86588 2023-05-15T13:55:28+02:00 Antarctic Bottom Water and North Atlantic Deep Water in CMIP6 models Heuzé, Céline 2020-07-10 application/pdf https://doi.org/10.5194/os-2020-66 https://os.copernicus.org/preprints/os-2020-66/ eng eng doi:10.5194/os-2020-66 https://os.copernicus.org/preprints/os-2020-66/ eISSN: 1812-0792 Text 2020 ftcopernicus https://doi.org/10.5194/os-2020-66 2020-07-20T16:22:00Z Deep water formation is the driver of the global ocean circulation, yet it was poorly represented in the previous generation of climate models. We here quantify biases in Antarctic Bottom Water (AABW) and North Atlantic Deep Water (NADW) formation, properties, transport and global extent in 35 climate models that participated in the latest Climate Model Intercomparison Project (CMIP6). Several CMIP6 models are correctly forming AABW via shelf processes, but in both hemispheres, the large majority of climate models form deep water via open ocean deep convection, too deep, too often, over too large an area. Models that convect the least form the most accurate AABW, but the least accurate NADW. The four CESM2 models with their <q>pipe</q>/overflow parameterisation are among the most accurate models. In the Atlantic, the colder AABW, the stronger the abyssal overturning at 30° S, and the further north the AABW layer extends. The saltier NADW, the stronger the Atlantic Meridional Overturning Circulation (AMOC), and the further south the NADW layer extends. In the Indian and Pacific oceans in contrast, the fresher models are the ones who extend the furthest regardless of the strength of their abyssal overturning, most likely because they also are the models with the weakest fronts in the Antarctic Circumpolar Currents. There are clear improvements since CMIP5: several CMIP6 models correctly represent or parameterise Antarctic shelf processes, fewer models exhibit Southern Ocean deep convection, more models convect at the right location in the Labrador Sea, bottom density biases are reduced, and abyssal overturning is more realistic. But more improvements are required, e.g. by generalising the use of overflow parameterisations or by coupling to interactive ice sheet models, before deep water formation, and hence heat and carbon storage, are represented accurately. Text Antarc* Antarctic Ice Sheet Labrador Sea NADW North Atlantic Deep Water North Atlantic Southern Ocean Copernicus Publications: E-Journals Antarctic Indian Pacific Southern Ocean The Antarctic
institution	Open Polar
collection	Copernicus Publications: E-Journals
op_collection_id	ftcopernicus
language	English
description	Deep water formation is the driver of the global ocean circulation, yet it was poorly represented in the previous generation of climate models. We here quantify biases in Antarctic Bottom Water (AABW) and North Atlantic Deep Water (NADW) formation, properties, transport and global extent in 35 climate models that participated in the latest Climate Model Intercomparison Project (CMIP6). Several CMIP6 models are correctly forming AABW via shelf processes, but in both hemispheres, the large majority of climate models form deep water via open ocean deep convection, too deep, too often, over too large an area. Models that convect the least form the most accurate AABW, but the least accurate NADW. The four CESM2 models with their <q>pipe</q>/overflow parameterisation are among the most accurate models. In the Atlantic, the colder AABW, the stronger the abyssal overturning at 30° S, and the further north the AABW layer extends. The saltier NADW, the stronger the Atlantic Meridional Overturning Circulation (AMOC), and the further south the NADW layer extends. In the Indian and Pacific oceans in contrast, the fresher models are the ones who extend the furthest regardless of the strength of their abyssal overturning, most likely because they also are the models with the weakest fronts in the Antarctic Circumpolar Currents. There are clear improvements since CMIP5: several CMIP6 models correctly represent or parameterise Antarctic shelf processes, fewer models exhibit Southern Ocean deep convection, more models convect at the right location in the Labrador Sea, bottom density biases are reduced, and abyssal overturning is more realistic. But more improvements are required, e.g. by generalising the use of overflow parameterisations or by coupling to interactive ice sheet models, before deep water formation, and hence heat and carbon storage, are represented accurately.
format	Text
author	Heuzé, Céline
spellingShingle	Heuzé, Céline Antarctic Bottom Water and North Atlantic Deep Water in CMIP6 models
author_facet	Heuzé, Céline
author_sort	Heuzé, Céline
title	Antarctic Bottom Water and North Atlantic Deep Water in CMIP6 models
title_short	Antarctic Bottom Water and North Atlantic Deep Water in CMIP6 models
title_full	Antarctic Bottom Water and North Atlantic Deep Water in CMIP6 models
title_fullStr	Antarctic Bottom Water and North Atlantic Deep Water in CMIP6 models
title_full_unstemmed	Antarctic Bottom Water and North Atlantic Deep Water in CMIP6 models
title_sort	antarctic bottom water and north atlantic deep water in cmip6 models
publishDate	2020
url	https://doi.org/10.5194/os-2020-66 https://os.copernicus.org/preprints/os-2020-66/
geographic	Antarctic Indian Pacific Southern Ocean The Antarctic
geographic_facet	Antarctic Indian Pacific Southern Ocean The Antarctic
genre	Antarc* Antarctic Ice Sheet Labrador Sea NADW North Atlantic Deep Water North Atlantic Southern Ocean
genre_facet	Antarc* Antarctic Ice Sheet Labrador Sea NADW North Atlantic Deep Water North Atlantic Southern Ocean
op_source	eISSN: 1812-0792
op_relation	doi:10.5194/os-2020-66 https://os.copernicus.org/preprints/os-2020-66/
op_doi	https://doi.org/10.5194/os-2020-66
_version_	1766262083531309056

Antarctic Bottom Water and North Atlantic Deep Water in CMIP6 models

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