Factors controlling plankton community production, export flux, and particulate matter stoichiometry in the coastal upwelling system off Peru

Factors controlling plankton community production, export flux, and particulate matter stoichiometry in the coastal upwelling system off Peru

<p>Eastern boundary upwelling systems (EBUS) are among the most productive marine ecosystems on Earth. The production of organic material is fueled by upwelling of nutrient-rich deep waters and high incident light at the sea surface. However, biotic and abiotic factors can modify surface produ...

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Main Authors: L. T. Bach, A. J. Paul, T. Boxhammer, E. von der Esch, M. Graco, K. G. Schulz, E. Achterberg, P. Aguayo, J. Arístegui, P. Ayón, I. Baños, A. Bernales, A. S. Boegeholz, F. Chavez, G. Chavez, S.-M. Chen, K. Doering, A. Filella, M. Fischer, P. Grasse, M. Haunost, J. Hennke, N. Hernández-Hernández, M. Hopwood, M. Igarza, V. Kalter, L. Kittu, P. Kohnert, J. Ledesma, C. Lieberum, S. Lischka, C. Löscher, A. Ludwig, U. Mendoza, J. Meyer, F. Minutolo, J. Ortiz Cortes, J. Piiparinen, C. Sforna, K. Spilling, S. Sanchez, C. Spisla, M. Sswat, M. Zavala Moreira, U. Riebesell
Format: Article
Language:English
Published: Copernicus Publications 2020-10-01
Series:Biogeosciences
Online Access:https://bg.copernicus.org/articles/17/4831/2020/bg-17-4831-2020.pdf
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author L. T. Bach
A. J. Paul
T. Boxhammer
E. von der Esch
M. Graco
K. G. Schulz
E. Achterberg
P. Aguayo
J. Arístegui
P. Ayón
I. Baños
A. Bernales
A. S. Boegeholz
F. Chavez
G. Chavez
S.-M. Chen
S.-M. Chen
K. Doering
K. Doering
A. Filella
M. Fischer
P. Grasse
P. Grasse
M. Haunost
J. Hennke
N. Hernández-Hernández
M. Hopwood
M. Igarza
V. Kalter
V. Kalter
L. Kittu
P. Kohnert
J. Ledesma
C. Lieberum
S. Lischka
C. Löscher
A. Ludwig
U. Mendoza
J. Meyer
J. Meyer
F. Minutolo
J. Ortiz Cortes
J. Piiparinen
C. Sforna
K. Spilling
K. Spilling
S. Sanchez
C. Spisla
M. Sswat
M. Zavala Moreira
U. Riebesell
spellingShingle L. T. Bach
A. J. Paul
T. Boxhammer
E. von der Esch
M. Graco
K. G. Schulz
E. Achterberg
P. Aguayo
J. Arístegui
P. Ayón
I. Baños
A. Bernales
A. S. Boegeholz
F. Chavez
G. Chavez
S.-M. Chen
S.-M. Chen
K. Doering
K. Doering
A. Filella
M. Fischer
P. Grasse
P. Grasse
M. Haunost
J. Hennke
N. Hernández-Hernández
M. Hopwood
M. Igarza
V. Kalter
V. Kalter
L. Kittu
P. Kohnert
J. Ledesma
C. Lieberum
S. Lischka
C. Löscher
A. Ludwig
U. Mendoza
J. Meyer
J. Meyer
F. Minutolo
J. Ortiz Cortes
J. Piiparinen
C. Sforna
K. Spilling
K. Spilling
S. Sanchez
C. Spisla
M. Sswat
M. Zavala Moreira
U. Riebesell
Factors controlling plankton community production, export flux, and particulate matter stoichiometry in the coastal upwelling system off Peru
Biogeosciences
author_facet L. T. Bach
A. J. Paul
T. Boxhammer
E. von der Esch
M. Graco
K. G. Schulz
E. Achterberg
P. Aguayo
J. Arístegui
P. Ayón
I. Baños
A. Bernales
A. S. Boegeholz
F. Chavez
G. Chavez
S.-M. Chen
S.-M. Chen
K. Doering
K. Doering
A. Filella
M. Fischer
P. Grasse
P. Grasse
M. Haunost
J. Hennke
N. Hernández-Hernández
M. Hopwood
M. Igarza
V. Kalter
V. Kalter
L. Kittu
P. Kohnert
J. Ledesma
C. Lieberum
S. Lischka
C. Löscher
A. Ludwig
U. Mendoza
J. Meyer
J. Meyer
F. Minutolo
J. Ortiz Cortes
J. Piiparinen
C. Sforna
K. Spilling
K. Spilling
S. Sanchez
C. Spisla
M. Sswat
M. Zavala Moreira
U. Riebesell
author_sort L. T. Bach
title Factors controlling plankton community production, export flux, and particulate matter stoichiometry in the coastal upwelling system off Peru
title_short Factors controlling plankton community production, export flux, and particulate matter stoichiometry in the coastal upwelling system off Peru
title_full Factors controlling plankton community production, export flux, and particulate matter stoichiometry in the coastal upwelling system off Peru
title_fullStr Factors controlling plankton community production, export flux, and particulate matter stoichiometry in the coastal upwelling system off Peru
title_full_unstemmed Factors controlling plankton community production, export flux, and particulate matter stoichiometry in the coastal upwelling system off Peru
title_sort factors controlling plankton community production, export flux, and particulate matter stoichiometry in the coastal upwelling system off peru
publisher Copernicus Publications
series Biogeosciences
issn 1726-4170
1726-4189
publishDate 2020-10-01
description <p>Eastern boundary upwelling systems (EBUS) are among the most productive marine ecosystems on Earth. The production of organic material is fueled by upwelling of nutrient-rich deep waters and high incident light at the sea surface. However, biotic and abiotic factors can modify surface production and related biogeochemical processes. Determining these factors is important because EBUS are considered hotspots of climate change, and reliable predictions of their future functioning requires understanding of the mechanisms driving the biogeochemical cycles therein. In this field experiment, we used in situ mesocosms as tools to improve our mechanistic understanding of processes controlling organic matter cycling in the coastal Peruvian upwelling system. Eight mesocosms, each with a volume of <span class="inline-formula">∼55</span>&thinsp;m<span class="inline-formula"><sup>3</sup></span>, were deployed for 50&thinsp;d&thinsp;<span class="inline-formula">∼6</span>&thinsp;km off Callao (12<span class="inline-formula"><sup>∘</sup></span>&thinsp;S) during austral summer 2017, coinciding with a coastal El Niño phase. After mesocosm deployment, we collected subsurface waters at two different locations in the regional oxygen minimum zone (OMZ) and injected these into four mesocosms (mixing ratio <span class="inline-formula">≈1.5</span>&thinsp;:&thinsp;1 mesocosm: OMZ water). The focus of this paper is on temporal developments of organic matter production, export, and stoichiometry in the individual mesocosms. The mesocosm phytoplankton communities were initially dominated by diatoms but shifted towards a pronounced dominance of the mixotrophic dinoflagellate (<i>Akashiwo sanguinea</i>) when inorganic nitrogen was exhausted in surface layers. The community shift coincided with a short-term increase in production during the <i>A. sanguinea</i> bloom, which left a pronounced imprint on organic matter C&thinsp;:&thinsp;N&thinsp;:&thinsp;P stoichiometry. However, C, N, and P export fluxes did not increase because <i>A. sanguinea</i> persisted in the water column and did not sink out during the experiment. Accordingly, export fluxes during the study were decoupled from surface production and sustained by the remaining plankton community. Overall, biogeochemical pools and fluxes were surprisingly constant for most of the experiment. We explain this constancy by light limitation through self-shading by phytoplankton and by inorganic nitrogen limitation which constrained phytoplankton growth. Thus, gain and loss processes remained balanced and there were few opportunities for blooms, which represents an event where the system becomes unbalanced. Overall, our mesocosm study revealed some key links between ecological and biogeochemical processes for one of the most economically important regions in the oceans.</p>
url https://bg.copernicus.org/articles/17/4831/2020/bg-17-4831-2020.pdf
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spelling doaj-7d792db4ee704b88b2937e11a72809f22020-11-25T03:41:41ZengCopernicus PublicationsBiogeosciences1726-41701726-41892020-10-01174831485210.5194/bg-17-4831-2020Factors controlling plankton community production, export flux, and particulate matter stoichiometry in the coastal upwelling system off PeruL. T. Bach0A. J. Paul1T. Boxhammer2E. von der Esch3M. Graco4K. G. Schulz5E. Achterberg6P. Aguayo7J. Arístegui8P. Ayón9I. Baños10A. Bernales11A. S. Boegeholz12F. Chavez13G. Chavez14S.-M. Chen15S.-M. Chen16K. Doering17K. Doering18A. Filella19M. Fischer20P. Grasse21P. Grasse22M. Haunost23J. Hennke24N. Hernández-Hernández25M. Hopwood26M. Igarza27V. Kalter28V. Kalter29L. Kittu30P. Kohnert31J. Ledesma32C. Lieberum33S. Lischka34C. Löscher35A. Ludwig36U. Mendoza37J. Meyer38J. Meyer39F. Minutolo40J. Ortiz Cortes41J. Piiparinen42C. Sforna43K. Spilling44K. Spilling45S. Sanchez46C. Spisla47M. Sswat48M. Zavala Moreira49U. Riebesell50Institute for Marine and Antarctic Studies, University of Tasmania, Hobart, Tasmania, AustraliaGEOMAR Helmholtz Centre for Ocean Research Kiel, Kiel, GermanyGEOMAR Helmholtz Centre for Ocean Research Kiel, Kiel, GermanyInstitute of Hydrochemistry, Chair of Analytical Chemistry and Water Chemistry, Technical University of Munich, Munich, GermanyDireccióìn General de Investigaciones Oceanográficas y Cambio Climático, Instituto del Mar del Perú (IMARPE), Callao, PeruCentre for Coastal Biogeochemistry, School of Environment, Science and Engineering, Southern Cross University, Lismore, New South Wales, AustraliaGEOMAR Helmholtz Centre for Ocean Research Kiel, Kiel, GermanyMillennium Institute of Oceanography (IMO), Universidad de Concepción, Concepción, ChileInstituto de Oceanografía y Cambio Global, IOCAG, Universidad de Las Palmas de Gran Canaria ULPGC, Las Palmas, SpainDireccióìn General de Investigaciones Oceanográficas y Cambio Climático, Instituto del Mar del Perú (IMARPE), Callao, PeruInstituto de Oceanografía y Cambio Global, IOCAG, Universidad de Las Palmas de Gran Canaria ULPGC, Las Palmas, SpainDireccióìn General de Investigaciones Oceanográficas y Cambio Climático, Instituto del Mar del Perú (IMARPE), Callao, PeruInstitute of General Microbiology, Department of Biology, Christian-Albrechts-Universität zu Kiel, Kiel, GermanyMonterey Bay Aquarium Research Institute, Moss Landing, United States of AmericaMonterey Bay Aquarium Research Institute, Moss Landing, United States of AmericaGEOMAR Helmholtz Centre for Ocean Research Kiel, Kiel, GermanyDepartment of Earth and Environmental Sciences, Dalhousie University, Halifax, CanadaGEOMAR Helmholtz Centre for Ocean Research Kiel, Kiel, GermanyDepartment of Earth and Environmental Sciences, Dalhousie University, Halifax, CanadaGEOMAR Helmholtz Centre for Ocean Research Kiel, Kiel, GermanyInstitute of General Microbiology, Department of Biology, Christian-Albrechts-Universität zu Kiel, Kiel, GermanyGEOMAR Helmholtz Centre for Ocean Research Kiel, Kiel, GermanyGerman Centre for Integrative Biodiversity Research (iDiv), Halle-Jena-Leipzig, GermanyGEOMAR Helmholtz Centre for Ocean Research Kiel, Kiel, GermanyGEOMAR Helmholtz Centre for Ocean Research Kiel, Kiel, GermanyInstituto de Oceanografía y Cambio Global, IOCAG, Universidad de Las Palmas de Gran Canaria ULPGC, Las Palmas, SpainGEOMAR Helmholtz Centre for Ocean Research Kiel, Kiel, GermanyPrograma de Maestría en Ciencias del Mar, Universidad Peruana Cayetano Heredia, Lima, PeruGEOMAR Helmholtz Centre for Ocean Research Kiel, Kiel, GermanyDepartment of Ocean Sciences, Memorial University of Newfoundland, Logy Bay, Newfoundland, CanadaGEOMAR Helmholtz Centre for Ocean Research Kiel, Kiel, GermanyGEOMAR Helmholtz Centre for Ocean Research Kiel, Kiel, GermanyDireccióìn General de Investigaciones Oceanográficas y Cambio Climático, Instituto del Mar del Perú (IMARPE), Callao, PeruGEOMAR Helmholtz Centre for Ocean Research Kiel, Kiel, GermanyGEOMAR Helmholtz Centre for Ocean Research Kiel, Kiel, GermanyUniversity of Southern Denmark, Odense, DenmarkGEOMAR Helmholtz Centre for Ocean Research Kiel, Kiel, GermanyDireccióìn General de Investigaciones Oceanográficas y Cambio Climático, Instituto del Mar del Perú (IMARPE), Callao, PeruGEOMAR Helmholtz Centre for Ocean Research Kiel, Kiel, GermanyGEOMAR Helmholtz Centre for Ocean Research Kiel, Kiel, GermanyGEOMAR Helmholtz Centre for Ocean Research Kiel, Kiel, GermanyGEOMAR Helmholtz Centre for Ocean Research Kiel, Kiel, GermanyMarine Research Centre, Finnish Environment Institute, Helsinki, FinlandGEOMAR Helmholtz Centre for Ocean Research Kiel, Kiel, GermanyMarine Research Centre, Finnish Environment Institute, Helsinki, FinlandFaculty of Engineering and Science, University of Agder, Kristiansand, NorwayDireccióìn General de Investigaciones Oceanográficas y Cambio Climático, Instituto del Mar del Perú (IMARPE), Callao, PeruGEOMAR Helmholtz Centre for Ocean Research Kiel, Kiel, GermanyGEOMAR Helmholtz Centre for Ocean Research Kiel, Kiel, GermanyEscuela Superior Politécnica del Litoral, Guayaquil, EcuadorGEOMAR Helmholtz Centre for Ocean Research Kiel, Kiel, Germany<p>Eastern boundary upwelling systems (EBUS) are among the most productive marine ecosystems on Earth. The production of organic material is fueled by upwelling of nutrient-rich deep waters and high incident light at the sea surface. However, biotic and abiotic factors can modify surface production and related biogeochemical processes. Determining these factors is important because EBUS are considered hotspots of climate change, and reliable predictions of their future functioning requires understanding of the mechanisms driving the biogeochemical cycles therein. In this field experiment, we used in situ mesocosms as tools to improve our mechanistic understanding of processes controlling organic matter cycling in the coastal Peruvian upwelling system. Eight mesocosms, each with a volume of <span class="inline-formula">∼55</span>&thinsp;m<span class="inline-formula"><sup>3</sup></span>, were deployed for 50&thinsp;d&thinsp;<span class="inline-formula">∼6</span>&thinsp;km off Callao (12<span class="inline-formula"><sup>∘</sup></span>&thinsp;S) during austral summer 2017, coinciding with a coastal El Niño phase. After mesocosm deployment, we collected subsurface waters at two different locations in the regional oxygen minimum zone (OMZ) and injected these into four mesocosms (mixing ratio <span class="inline-formula">≈1.5</span>&thinsp;:&thinsp;1 mesocosm: OMZ water). The focus of this paper is on temporal developments of organic matter production, export, and stoichiometry in the individual mesocosms. The mesocosm phytoplankton communities were initially dominated by diatoms but shifted towards a pronounced dominance of the mixotrophic dinoflagellate (<i>Akashiwo sanguinea</i>) when inorganic nitrogen was exhausted in surface layers. The community shift coincided with a short-term increase in production during the <i>A. sanguinea</i> bloom, which left a pronounced imprint on organic matter C&thinsp;:&thinsp;N&thinsp;:&thinsp;P stoichiometry. However, C, N, and P export fluxes did not increase because <i>A. sanguinea</i> persisted in the water column and did not sink out during the experiment. Accordingly, export fluxes during the study were decoupled from surface production and sustained by the remaining plankton community. Overall, biogeochemical pools and fluxes were surprisingly constant for most of the experiment. We explain this constancy by light limitation through self-shading by phytoplankton and by inorganic nitrogen limitation which constrained phytoplankton growth. Thus, gain and loss processes remained balanced and there were few opportunities for blooms, which represents an event where the system becomes unbalanced. Overall, our mesocosm study revealed some key links between ecological and biogeochemical processes for one of the most economically important regions in the oceans.</p>https://bg.copernicus.org/articles/17/4831/2020/bg-17-4831-2020.pdf

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