Sedimentary and atmospheric sources of iron around South Georgia, Southern Ocean : a modelling perspective

In high-nutrient low-chlorophyll waters of the western Atlantic sector of the Southern Ocean, an intense phytoplankton bloom is observed annually north of South Georgia. Multiple sources, including shallow sediments and atmospheric dust deposition, are thought to introduce iron to the region. Howeve...

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Main Authors: Borrione, I., /Aumont, Olivier, Nielsdottir, M. C., Schlitzer, R.
Format: Text
Language:English
Published: 2014
Subjects:
Southern Ocean
Online Access:https://www.documentation.ird.fr/hor/fdi:010061959
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spelling ftird:oai:ird.fr:fdi:010061959 2024-09-15T18:37:07+00:00 Sedimentary and atmospheric sources of iron around South Georgia, Southern Ocean : a modelling perspective Borrione, I. /Aumont, Olivier Nielsdottir, M. C. Schlitzer, R. ATLANTIQUE SUD ROYAUME UNI GEORGIE DU SUD 2014 https://www.documentation.ird.fr/hor/fdi:010061959 EN eng https://www.documentation.ird.fr/hor/fdi:010061959 oai:ird.fr:fdi:010061959 Borrione I., Aumont Olivier, Nielsdottir M. C., Schlitzer R. Sedimentary and atmospheric sources of iron around South Georgia, Southern Ocean : a modelling perspective. 2014, 11 (7), p. 1981-2001 text 2014 ftird 2024-08-15T05:57:41Z In high-nutrient low-chlorophyll waters of the western Atlantic sector of the Southern Ocean, an intense phytoplankton bloom is observed annually north of South Georgia. Multiple sources, including shallow sediments and atmospheric dust deposition, are thought to introduce iron to the region. However, the relative importance of each source is still unclear, owing in part to the scarcity of dissolved iron (dFe) measurements in the South Georgia region. In this study, we combine results from a recently published dFe data set around South Georgia with a coupled regional hydrodynamic and biogeochemical model to further investigate iron supply around the island. The biogeochemical component of the model includes an iron cycle, where sediments and dust deposition are the sources of iron to the ocean. The model captures the characteristic flow patterns around South Georgia, hence simulating a large phytoplankton bloom to the north (i.e. downstream) of the island. Modelled dFe concentrations agree well with observations (mean difference and root mean square errors of similar to 0.02nM and similar to 0.81 nM) and form a large plume to the north of the island that extends eastwards for more than 800 km. In agreement with observations, highest dFe concentrations are located along the coast and decrease with distance from the island. Sensitivity tests indicate that most of the iron measured in the main bloom area originates from the coast and very shallow shelf-sediments (depths <20 m). Dust deposition exerts almost no effect on surface chlorophyll a concentrations. Other sources of iron such as run-off and glacial melt are not represented explicitly in the model, however we discuss their role in the local iron budget. Text Southern Ocean IRD (Institute de recherche pour le développement): Horizon
institution Open Polar
collection IRD (Institute de recherche pour le développement): Horizon
op_collection_id ftird
language English
description In high-nutrient low-chlorophyll waters of the western Atlantic sector of the Southern Ocean, an intense phytoplankton bloom is observed annually north of South Georgia. Multiple sources, including shallow sediments and atmospheric dust deposition, are thought to introduce iron to the region. However, the relative importance of each source is still unclear, owing in part to the scarcity of dissolved iron (dFe) measurements in the South Georgia region. In this study, we combine results from a recently published dFe data set around South Georgia with a coupled regional hydrodynamic and biogeochemical model to further investigate iron supply around the island. The biogeochemical component of the model includes an iron cycle, where sediments and dust deposition are the sources of iron to the ocean. The model captures the characteristic flow patterns around South Georgia, hence simulating a large phytoplankton bloom to the north (i.e. downstream) of the island. Modelled dFe concentrations agree well with observations (mean difference and root mean square errors of similar to 0.02nM and similar to 0.81 nM) and form a large plume to the north of the island that extends eastwards for more than 800 km. In agreement with observations, highest dFe concentrations are located along the coast and decrease with distance from the island. Sensitivity tests indicate that most of the iron measured in the main bloom area originates from the coast and very shallow shelf-sediments (depths <20 m). Dust deposition exerts almost no effect on surface chlorophyll a concentrations. Other sources of iron such as run-off and glacial melt are not represented explicitly in the model, however we discuss their role in the local iron budget.
format Text
author Borrione, I.
/Aumont, Olivier
Nielsdottir, M. C.
Schlitzer, R.
spellingShingle Borrione, I.
/Aumont, Olivier
Nielsdottir, M. C.
Schlitzer, R.
Sedimentary and atmospheric sources of iron around South Georgia, Southern Ocean : a modelling perspective
author_facet Borrione, I.
/Aumont, Olivier
Nielsdottir, M. C.
Schlitzer, R.
author_sort Borrione, I.
title Sedimentary and atmospheric sources of iron around South Georgia, Southern Ocean : a modelling perspective
title_short Sedimentary and atmospheric sources of iron around South Georgia, Southern Ocean : a modelling perspective
title_full Sedimentary and atmospheric sources of iron around South Georgia, Southern Ocean : a modelling perspective
title_fullStr Sedimentary and atmospheric sources of iron around South Georgia, Southern Ocean : a modelling perspective
title_full_unstemmed Sedimentary and atmospheric sources of iron around South Georgia, Southern Ocean : a modelling perspective
title_sort sedimentary and atmospheric sources of iron around south georgia, southern ocean : a modelling perspective
publishDate 2014
url https://www.documentation.ird.fr/hor/fdi:010061959
op_coverage ATLANTIQUE SUD
ROYAUME UNI
GEORGIE DU SUD
genre Southern Ocean
genre_facet Southern Ocean
op_relation https://www.documentation.ird.fr/hor/fdi:010061959
oai:ird.fr:fdi:010061959
Borrione I., Aumont Olivier, Nielsdottir M. C., Schlitzer R. Sedimentary and atmospheric sources of iron around South Georgia, Southern Ocean : a modelling perspective. 2014, 11 (7), p. 1981-2001
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