On the estimation of deep Atlantic ventilation from fossil radiocarbon records. part I: modern reference estimates

Author Posting. © American Meteorological Society, 2021. This article is posted here by permission of American Meteorological Society for personal use, not for redistribution. The definitive version was published in Journal of Physical Oceanography 51(6),(2021): 1842–1872, https://doi.org/10.1175/JP...

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Published in:Journal of Physical Oceanography
Main Authors: Marchal, Olivier, Zhao, Ning
Format: Article in Journal/Newspaper
Language:unknown
Published: American Meteorological Society 2021
Subjects:
Atlantic Ocean
Abyssal circulation
Tracers
Inverse methods
North Atlantic
Online Access:https://hdl.handle.net/1912/28631
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record_format openpolar
spelling ftwhoas:oai:darchive.mblwhoilibrary.org:1912/28631 2023-05-15T17:30:42+02:00 On the estimation of deep Atlantic ventilation from fossil radiocarbon records. part I: modern reference estimates Marchal, Olivier Zhao, Ning 2021-05-18 https://hdl.handle.net/1912/28631 unknown American Meteorological Society https://doi.org/10.1175/JPO-D-20-0153.1 Marchal, O., & Zhao, N. (2021). On the estimation of deep Atlantic ventilation from fossil radiocarbon records. part I: modern reference estimates. Journal of Physical Oceanography, 51(6), 1842–1872. https://hdl.handle.net/1912/28631 doi:10.1175/JPO-D-20-0153.1 Marchal, O., & Zhao, N. (2021). On the estimation of deep Atlantic ventilation from fossil radiocarbon records. part I: modern reference estimates. Journal of Physical Oceanography, 51(6), 1842–1872. doi:10.1175/JPO-D-20-0153.1 Atlantic Ocean Abyssal circulation Tracers Inverse methods Article 2021 ftwhoas https://doi.org/10.1175/JPO-D-20-0153.1 2022-05-28T23:04:31Z Author Posting. © American Meteorological Society, 2021. This article is posted here by permission of American Meteorological Society for personal use, not for redistribution. The definitive version was published in Journal of Physical Oceanography 51(6),(2021): 1842–1872, https://doi.org/10.1175/JPO-D-20-0153.1. Radiocarbon dates of fossil carbonates sampled from sediment cores and the seafloor have been used to infer that deep ocean ventilation during the last ice age was different from today. In this first of two companion papers, the time-averaged abyssal circulation in the modern Atlantic is estimated by combining a hydrographic climatology, observational estimates of volume transports, Argo float velocities at 1000 m, radiocarbon data, and geostrophic dynamics. Different estimates of modern circulation, obtained from different prior assumptions about the abyssal flow and different errors in the geostrophic balance, are produced for use in a robust interpretation of fossil records in terms of deviations from the present-day flow, which is undertaken in Part II. We find that, for all estimates, the meridional transport integrated zonally and averaged over a hemisphere, ⟨Vk⟩, is southward between 1000 and 4000 m in both hemispheres, northward between 4000 and 5000 m in the South Atlantic, and insignificant between 4000 and 5000 m in the North Atlantic. Estimates of ⟨Vk⟩ obtained from two distinct prior circulations—one based on a level of no motion at 4000 m and one based on Argo float velocities at 1000 m—become statistically indistinguishable when Δ14C data are considered. The transport time scale, defined as τk=Vk/⟨Vk⟩, where Vk is the volume of the kth layer, is estimated to about a century between 1000 and 3000 m in both the South and North Atlantic, 124 ± 9 yr (203 ± 23 yr) between 3000 and 4000 m in the South (North) Atlantic, and 269 ± 115 yr between 4000 and 5000 m in the South Atlantic. This work has been supported by Grant OCE-1702417 from the U.S. National Science Foundation. Article in Journal/Newspaper North Atlantic Woods Hole Scientific Community: WHOAS (Woods Hole Open Access Server) Journal of Physical Oceanography
institution Open Polar
collection Woods Hole Scientific Community: WHOAS (Woods Hole Open Access Server)
op_collection_id ftwhoas
language unknown
topic Atlantic Ocean
Abyssal circulation
Tracers
Inverse methods
spellingShingle Atlantic Ocean
Abyssal circulation
Tracers
Inverse methods
Marchal, Olivier
Zhao, Ning
On the estimation of deep Atlantic ventilation from fossil radiocarbon records. part I: modern reference estimates
topic_facet Atlantic Ocean
Abyssal circulation
Tracers
Inverse methods
description Author Posting. © American Meteorological Society, 2021. This article is posted here by permission of American Meteorological Society for personal use, not for redistribution. The definitive version was published in Journal of Physical Oceanography 51(6),(2021): 1842–1872, https://doi.org/10.1175/JPO-D-20-0153.1. Radiocarbon dates of fossil carbonates sampled from sediment cores and the seafloor have been used to infer that deep ocean ventilation during the last ice age was different from today. In this first of two companion papers, the time-averaged abyssal circulation in the modern Atlantic is estimated by combining a hydrographic climatology, observational estimates of volume transports, Argo float velocities at 1000 m, radiocarbon data, and geostrophic dynamics. Different estimates of modern circulation, obtained from different prior assumptions about the abyssal flow and different errors in the geostrophic balance, are produced for use in a robust interpretation of fossil records in terms of deviations from the present-day flow, which is undertaken in Part II. We find that, for all estimates, the meridional transport integrated zonally and averaged over a hemisphere, ⟨Vk⟩, is southward between 1000 and 4000 m in both hemispheres, northward between 4000 and 5000 m in the South Atlantic, and insignificant between 4000 and 5000 m in the North Atlantic. Estimates of ⟨Vk⟩ obtained from two distinct prior circulations—one based on a level of no motion at 4000 m and one based on Argo float velocities at 1000 m—become statistically indistinguishable when Δ14C data are considered. The transport time scale, defined as τk=Vk/⟨Vk⟩, where Vk is the volume of the kth layer, is estimated to about a century between 1000 and 3000 m in both the South and North Atlantic, 124 ± 9 yr (203 ± 23 yr) between 3000 and 4000 m in the South (North) Atlantic, and 269 ± 115 yr between 4000 and 5000 m in the South Atlantic. This work has been supported by Grant OCE-1702417 from the U.S. National Science Foundation.
format Article in Journal/Newspaper
author Marchal, Olivier
Zhao, Ning
author_facet Marchal, Olivier
Zhao, Ning
author_sort Marchal, Olivier
title On the estimation of deep Atlantic ventilation from fossil radiocarbon records. part I: modern reference estimates
title_short On the estimation of deep Atlantic ventilation from fossil radiocarbon records. part I: modern reference estimates
title_full On the estimation of deep Atlantic ventilation from fossil radiocarbon records. part I: modern reference estimates
title_fullStr On the estimation of deep Atlantic ventilation from fossil radiocarbon records. part I: modern reference estimates
title_full_unstemmed On the estimation of deep Atlantic ventilation from fossil radiocarbon records. part I: modern reference estimates
title_sort on the estimation of deep atlantic ventilation from fossil radiocarbon records. part i: modern reference estimates
publisher American Meteorological Society
publishDate 2021
url https://hdl.handle.net/1912/28631
genre North Atlantic
genre_facet North Atlantic
op_source Marchal, O., & Zhao, N. (2021). On the estimation of deep Atlantic ventilation from fossil radiocarbon records. part I: modern reference estimates. Journal of Physical Oceanography, 51(6), 1842–1872.
doi:10.1175/JPO-D-20-0153.1
op_relation https://doi.org/10.1175/JPO-D-20-0153.1
Marchal, O., & Zhao, N. (2021). On the estimation of deep Atlantic ventilation from fossil radiocarbon records. part I: modern reference estimates. Journal of Physical Oceanography, 51(6), 1842–1872.
https://hdl.handle.net/1912/28631
doi:10.1175/JPO-D-20-0153.1
op_doi https://doi.org/10.1175/JPO-D-20-0153.1
container_title Journal of Physical Oceanography
_version_ 1766127584423182336

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