Basin-scale changes of total organic carbon profiles in the eastern South Atlantic

Basin-scale changes of total organic carbon profiles in the eastern South Atlantic

Total organic carbon (TOC) samples were collected at 6 stations spaced ~800 km apart in the eastern South Atlantic, from the Equator to 45°S along 9°W. Analyses were performed by high temperature catalytic oxidation (HTCO) in the base laboratory. Despite the complex advection and mixing patterns of...

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Main Authors: X. A. Alvarez-Salgado, F. F. Pérez, A. F. Ríos, M. D. Doval
Format: Article
Language:English
Published: Consejo Superior de Investigaciones Científicas 2001-03-01
Series:Scientia Marina
Subjects:
dissolved organic carbon (doc)
apparent oxygen utilisation (aou)
stratification
mixing
water masses
se atlantic ocean
Online Access:http://scientiamarina.revistas.csic.es/index.php/scientiamarina/article/view/631
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record_format Article
spelling doaj-86e220562a2d473d98c7e37920b9796c2021-05-05T13:49:49ZengConsejo Superior de Investigaciones CientíficasScientia Marina0214-83581886-81342001-03-0165111010.3989/scimar.2001.65n11625Basin-scale changes of total organic carbon profiles in the eastern South AtlanticX. A. Alvarez-Salgado0F. F. Pérez1A. F. Ríos2M. D. Doval3CSIC, Instituto de Investigacións MariñasCSIC, Instituto de Investigacións MariñasCSIC, Instituto de Investigacións MariñasCSIC, Instituto de Investigacións MariñasTotal organic carbon (TOC) samples were collected at 6 stations spaced ~800 km apart in the eastern South Atlantic, from the Equator to 45°S along 9°W. Analyses were performed by high temperature catalytic oxidation (HTCO) in the base laboratory. Despite the complex advection and mixing patterns of North Atlantic and Antarctic waters with extremely different degrees of ventilation, TOC levels below 500 m are quasi-constant at 55±3 µmol C l-1, pointing to the refractory nature of deep-water TOC. On the other hand, a TOC excess from 25 to 38 g C m-2 is observed in the upper 100 m of the permanently stratified nutrient-depleted Equatorial, Subequatorial and Subtropical upper ocean, where vertical turbulent diffusion is largely prevented. Conversely, TOC levels in the nutrient-rich upper layer of the Subantarctic Front only exceeds 9 g C m-2 the deep-water baseline. As much as 70% of the TOC variability in the upper 500 m is due to simple mixing of reactive TOC formed in the surface layer and refractory TOC in deep ocean waters, with a minor contribution (13%) to oxygen consumption in the prominent subsurface AOU maximum at 200-400 m depth.http://scientiamarina.revistas.csic.es/index.php/scientiamarina/article/view/631dissolved organic carbon (doc)apparent oxygen utilisation (aou)stratificationmixingwater massesse atlantic ocean
collection DOAJ
language English
format Article
sources DOAJ
author X. A. Alvarez-Salgado
F. F. Pérez
A. F. Ríos
M. D. Doval
spellingShingle X. A. Alvarez-Salgado
F. F. Pérez
A. F. Ríos
M. D. Doval
Basin-scale changes of total organic carbon profiles in the eastern South Atlantic
Scientia Marina
dissolved organic carbon (doc)
apparent oxygen utilisation (aou)
stratification
mixing
water masses
se atlantic ocean
author_facet X. A. Alvarez-Salgado
F. F. Pérez
A. F. Ríos
M. D. Doval
author_sort X. A. Alvarez-Salgado
title Basin-scale changes of total organic carbon profiles in the eastern South Atlantic
title_short Basin-scale changes of total organic carbon profiles in the eastern South Atlantic
title_full Basin-scale changes of total organic carbon profiles in the eastern South Atlantic
title_fullStr Basin-scale changes of total organic carbon profiles in the eastern South Atlantic
title_full_unstemmed Basin-scale changes of total organic carbon profiles in the eastern South Atlantic
title_sort basin-scale changes of total organic carbon profiles in the eastern south atlantic
publisher Consejo Superior de Investigaciones Científicas
series Scientia Marina
issn 0214-8358
1886-8134
publishDate 2001-03-01
description Total organic carbon (TOC) samples were collected at 6 stations spaced ~800 km apart in the eastern South Atlantic, from the Equator to 45°S along 9°W. Analyses were performed by high temperature catalytic oxidation (HTCO) in the base laboratory. Despite the complex advection and mixing patterns of North Atlantic and Antarctic waters with extremely different degrees of ventilation, TOC levels below 500 m are quasi-constant at 55±3 µmol C l-1, pointing to the refractory nature of deep-water TOC. On the other hand, a TOC excess from 25 to 38 g C m-2 is observed in the upper 100 m of the permanently stratified nutrient-depleted Equatorial, Subequatorial and Subtropical upper ocean, where vertical turbulent diffusion is largely prevented. Conversely, TOC levels in the nutrient-rich upper layer of the Subantarctic Front only exceeds 9 g C m-2 the deep-water baseline. As much as 70% of the TOC variability in the upper 500 m is due to simple mixing of reactive TOC formed in the surface layer and refractory TOC in deep ocean waters, with a minor contribution (13%) to oxygen consumption in the prominent subsurface AOU maximum at 200-400 m depth.
topic dissolved organic carbon (doc)
apparent oxygen utilisation (aou)
stratification
mixing
water masses
se atlantic ocean
url http://scientiamarina.revistas.csic.es/index.php/scientiamarina/article/view/631
work_keys_str_mv AT xaalvarezsalgado basinscalechangesoftotalorganiccarbonprofilesintheeasternsouthatlantic
AT ffperez basinscalechangesoftotalorganiccarbonprofilesintheeasternsouthatlantic
AT afrios basinscalechangesoftotalorganiccarbonprofilesintheeasternsouthatlantic
AT mddoval basinscalechangesoftotalorganiccarbonprofilesintheeasternsouthatlantic
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