Influence of intraseasonal eastern boundary circulation variability on hydrography and biogeochemistry off Peru

Influence of intraseasonal eastern boundary circulation variability on hydrography and biogeochemistry off Peru

<p>The intraseasonal evolution of physical and biogeochemical properties during a coastal trapped wave event off central Peru is analysed using data from an extensive shipboard observational programme conducted between April and June 2017, and remote sensing data. The poleward velocities in th...

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Main Authors: J. Lüdke, M. Dengler, S. Sommer, D. Clemens, S. Thomsen, G. Krahmann, A. W. Dale, E. P. Achterberg, M. Visbeck
Format: Article
Language:English
Published: Copernicus Publications 2020-11-01
Series:Ocean Science
Online Access:https://os.copernicus.org/articles/16/1347/2020/os-16-1347-2020.pdf
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spelling doaj-2a09d2633c814aa8838501daa048799d2020-11-25T03:59:53ZengCopernicus PublicationsOcean Science1812-07841812-07922020-11-01161347136610.5194/os-16-1347-2020Influence of intraseasonal eastern boundary circulation variability on hydrography and biogeochemistry off PeruJ. Lüdke0M. Dengler1S. Sommer2D. Clemens3S. Thomsen4G. Krahmann5A. W. Dale6E. P. Achterberg7E. P. Achterberg8M. Visbeck9M. Visbeck10GEOMAR Helmholtz Centre for Ocean Research Kiel, Düsternbrooker Weg 20, Kiel, GermanyGEOMAR Helmholtz Centre for Ocean Research Kiel, Düsternbrooker Weg 20, Kiel, GermanyGEOMAR Helmholtz Centre for Ocean Research Kiel, Düsternbrooker Weg 20, Kiel, GermanyGEOMAR Helmholtz Centre for Ocean Research Kiel, Düsternbrooker Weg 20, Kiel, GermanyLOCEAN-IPSL, IRD/CNRS/Sorbonnes Universites (UPMC)/MNHN, UMR 7159, Paris, FranceGEOMAR Helmholtz Centre for Ocean Research Kiel, Düsternbrooker Weg 20, Kiel, GermanyGEOMAR Helmholtz Centre for Ocean Research Kiel, Düsternbrooker Weg 20, Kiel, GermanyGEOMAR Helmholtz Centre for Ocean Research Kiel, Düsternbrooker Weg 20, Kiel, GermanyFaculty of Mathematics and Natural Sciences, Christian-Albrechts-Universität zu Kiel, Kiel, GermanyGEOMAR Helmholtz Centre for Ocean Research Kiel, Düsternbrooker Weg 20, Kiel, GermanyFaculty of Mathematics and Natural Sciences, Christian-Albrechts-Universität zu Kiel, Kiel, Germany<p>The intraseasonal evolution of physical and biogeochemical properties during a coastal trapped wave event off central Peru is analysed using data from an extensive shipboard observational programme conducted between April and June 2017, and remote sensing data. The poleward velocities in the Peru–Chile Undercurrent were highly variable and strongly intensified to above 0.5&thinsp;m&thinsp;s<span class="inline-formula"><sup>−1</sup></span> between the middle and end of May. This intensification was likely caused by a first-baroclinic-mode downwelling coastal trapped wave, excited by a westerly wind anomaly at the Equator and originating at about 95<span class="inline-formula"><sup>∘</sup></span>&thinsp;W. Local winds along the South American coast did not impact the wave. Although there is general agreement between the observed cross-shore-depth velocity structure of the coastal trapped wave and the velocity structure of first vertical mode solution of a linear wave model, there are differences in the details of the two flow distributions. The enhanced poleward flow increased water mass advection from the equatorial current system to the study site. The resulting shorter alongshore transit times between the Equator and the coast off central Peru led to a strong increase in nitrate concentrations, less anoxic water, likely less fixed nitrogen loss to <span class="inline-formula">N<sub>2</sub></span> and a decrease of the nitrogen deficit compared to the situation before the poleward flow intensification. This study highlights the role of changes in the alongshore advection due to coastal trapped waves for the nutrient budget and the cumulative strength of N cycling in the Peruvian oxygen minimum zone. Enhanced availability of nitrate may impact a range of pelagic and benthic elemental cycles, as it represents a major electron acceptor for organic carbon degradation during denitrification and is involved in sulfide oxidation in sediments.</p>https://os.copernicus.org/articles/16/1347/2020/os-16-1347-2020.pdf
collection DOAJ
language English
format Article
sources DOAJ
author J. Lüdke
M. Dengler
S. Sommer
D. Clemens
S. Thomsen
G. Krahmann
A. W. Dale
E. P. Achterberg
E. P. Achterberg
M. Visbeck
M. Visbeck
spellingShingle J. Lüdke
M. Dengler
S. Sommer
D. Clemens
S. Thomsen
G. Krahmann
A. W. Dale
E. P. Achterberg
E. P. Achterberg
M. Visbeck
M. Visbeck
Influence of intraseasonal eastern boundary circulation variability on hydrography and biogeochemistry off Peru
Ocean Science
author_facet J. Lüdke
M. Dengler
S. Sommer
D. Clemens
S. Thomsen
G. Krahmann
A. W. Dale
E. P. Achterberg
E. P. Achterberg
M. Visbeck
M. Visbeck
author_sort J. Lüdke
title Influence of intraseasonal eastern boundary circulation variability on hydrography and biogeochemistry off Peru
title_short Influence of intraseasonal eastern boundary circulation variability on hydrography and biogeochemistry off Peru
title_full Influence of intraseasonal eastern boundary circulation variability on hydrography and biogeochemistry off Peru
title_fullStr Influence of intraseasonal eastern boundary circulation variability on hydrography and biogeochemistry off Peru
title_full_unstemmed Influence of intraseasonal eastern boundary circulation variability on hydrography and biogeochemistry off Peru
title_sort influence of intraseasonal eastern boundary circulation variability on hydrography and biogeochemistry off peru
publisher Copernicus Publications
series Ocean Science
issn 1812-0784
1812-0792
publishDate 2020-11-01
description <p>The intraseasonal evolution of physical and biogeochemical properties during a coastal trapped wave event off central Peru is analysed using data from an extensive shipboard observational programme conducted between April and June 2017, and remote sensing data. The poleward velocities in the Peru–Chile Undercurrent were highly variable and strongly intensified to above 0.5&thinsp;m&thinsp;s<span class="inline-formula"><sup>−1</sup></span> between the middle and end of May. This intensification was likely caused by a first-baroclinic-mode downwelling coastal trapped wave, excited by a westerly wind anomaly at the Equator and originating at about 95<span class="inline-formula"><sup>∘</sup></span>&thinsp;W. Local winds along the South American coast did not impact the wave. Although there is general agreement between the observed cross-shore-depth velocity structure of the coastal trapped wave and the velocity structure of first vertical mode solution of a linear wave model, there are differences in the details of the two flow distributions. The enhanced poleward flow increased water mass advection from the equatorial current system to the study site. The resulting shorter alongshore transit times between the Equator and the coast off central Peru led to a strong increase in nitrate concentrations, less anoxic water, likely less fixed nitrogen loss to <span class="inline-formula">N<sub>2</sub></span> and a decrease of the nitrogen deficit compared to the situation before the poleward flow intensification. This study highlights the role of changes in the alongshore advection due to coastal trapped waves for the nutrient budget and the cumulative strength of N cycling in the Peruvian oxygen minimum zone. Enhanced availability of nitrate may impact a range of pelagic and benthic elemental cycles, as it represents a major electron acceptor for organic carbon degradation during denitrification and is involved in sulfide oxidation in sediments.</p>
url https://os.copernicus.org/articles/16/1347/2020/os-16-1347-2020.pdf
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