Phytoplankton species composition is governed by both iron and manganese limitation in the Drake Passage.

The Southern Ocean (SO) stores over 40% of anthropogenically derived CO2 and is the world’s largest High- Nutrient Low-Chlorophyll (HNLC) region, where the scarcity of trace metals such as iron (Fe) drives SO phytoplankton composition and biomass build up. As dissolved manganese (dMn) concentrations...

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Bibliographic Details
Main Authors: Balaguer, Jenna, Koch, Florian, Hassler, Christel S., Trimborn, Scarlett
Format: Conference Object
Language:unknown
Published: 2021
Subjects:
Antarc*
Antarctica
Drake Passage
Southern Ocean
Online Access:https://epic.awi.de/id/eprint/55132/
https://epic.awi.de/id/eprint/55132/1/PhDDays2021.pdf
https://hdl.handle.net/10013/epic.30eb32a6-7cf9-4231-927f-de7419ed4f0b
id ftawi:oai:epic.awi.de:55132
record_format openpolar
spelling ftawi:oai:epic.awi.de:55132 2024-09-15T17:45:15+00:00 Phytoplankton species composition is governed by both iron and manganese limitation in the Drake Passage. Balaguer, Jenna Koch, Florian Hassler, Christel S. Trimborn, Scarlett 2021 application/pdf https://epic.awi.de/id/eprint/55132/ https://epic.awi.de/id/eprint/55132/1/PhDDays2021.pdf https://hdl.handle.net/10013/epic.30eb32a6-7cf9-4231-927f-de7419ed4f0b unknown https://epic.awi.de/id/eprint/55132/1/PhDDays2021.pdf Balaguer, J. , Koch, F. , Hassler, C. S. and Trimborn, S. orcid:0000-0003-1434-9927 (2021) Phytoplankton species composition is governed by both iron and manganese limitation in the Drake Passage. , ICYMARE 2021, Online, September 2021 - September 2021 . hdl:10013/epic.30eb32a6-7cf9-4231-927f-de7419ed4f0b EPIC3ICYMARE 2021, Online, 2021-09-2021-09 Conference notRev 2021 ftawi 2024-06-24T04:27:29Z The Southern Ocean (SO) stores over 40% of anthropogenically derived CO2 and is the world’s largest High- Nutrient Low-Chlorophyll (HNLC) region, where the scarcity of trace metals such as iron (Fe) drives SO phytoplankton composition and biomass build up. As dissolved manganese (dMn) concentrations in the Atlantic sector of the SO are very low (0.04 nM), it was hypothesized that phytoplankton growth may not be limited by Fe only, but also by Mn availability. Our Fe-Mn bottle amendment experiments with two natural phytoplankton communities of the Drake Passage show that only some members of the phytoplankton community were Fe-Mn co-limited, including the biogeochemical important diatom group Fragilariopsis and one subgroup of picoeukaryotes. On the other hand, growth of the ecologically relevant haptophyte Phaeocystis antarctica was significantly inhibited when Mn was added alone. Hence, Fe-Mn availability is a key factor for shaping SO phytoplankton community structure with important implications for the efficiency of the biological carbon pump. Conference Object Antarc* Antarctica Drake Passage Southern Ocean Alfred Wegener Institute for Polar- and Marine Research (AWI): ePIC (electronic Publication Information Center)
institution Open Polar
collection Alfred Wegener Institute for Polar- and Marine Research (AWI): ePIC (electronic Publication Information Center)
op_collection_id ftawi
language unknown
description The Southern Ocean (SO) stores over 40% of anthropogenically derived CO2 and is the world’s largest High- Nutrient Low-Chlorophyll (HNLC) region, where the scarcity of trace metals such as iron (Fe) drives SO phytoplankton composition and biomass build up. As dissolved manganese (dMn) concentrations in the Atlantic sector of the SO are very low (0.04 nM), it was hypothesized that phytoplankton growth may not be limited by Fe only, but also by Mn availability. Our Fe-Mn bottle amendment experiments with two natural phytoplankton communities of the Drake Passage show that only some members of the phytoplankton community were Fe-Mn co-limited, including the biogeochemical important diatom group Fragilariopsis and one subgroup of picoeukaryotes. On the other hand, growth of the ecologically relevant haptophyte Phaeocystis antarctica was significantly inhibited when Mn was added alone. Hence, Fe-Mn availability is a key factor for shaping SO phytoplankton community structure with important implications for the efficiency of the biological carbon pump.
format Conference Object
author Balaguer, Jenna
Koch, Florian
Hassler, Christel S.
Trimborn, Scarlett
spellingShingle Balaguer, Jenna
Koch, Florian
Hassler, Christel S.
Trimborn, Scarlett
Phytoplankton species composition is governed by both iron and manganese limitation in the Drake Passage.
author_facet Balaguer, Jenna
Koch, Florian
Hassler, Christel S.
Trimborn, Scarlett
author_sort Balaguer, Jenna
title Phytoplankton species composition is governed by both iron and manganese limitation in the Drake Passage.
title_short Phytoplankton species composition is governed by both iron and manganese limitation in the Drake Passage.
title_full Phytoplankton species composition is governed by both iron and manganese limitation in the Drake Passage.
title_fullStr Phytoplankton species composition is governed by both iron and manganese limitation in the Drake Passage.
title_full_unstemmed Phytoplankton species composition is governed by both iron and manganese limitation in the Drake Passage.
title_sort phytoplankton species composition is governed by both iron and manganese limitation in the drake passage.
publishDate 2021
url https://epic.awi.de/id/eprint/55132/
https://epic.awi.de/id/eprint/55132/1/PhDDays2021.pdf
https://hdl.handle.net/10013/epic.30eb32a6-7cf9-4231-927f-de7419ed4f0b
genre Antarc*
Antarctica
Drake Passage
Southern Ocean
genre_facet Antarc*
Antarctica
Drake Passage
Southern Ocean
op_source EPIC3ICYMARE 2021, Online, 2021-09-2021-09
op_relation https://epic.awi.de/id/eprint/55132/1/PhDDays2021.pdf
Balaguer, J. , Koch, F. , Hassler, C. S. and Trimborn, S. orcid:0000-0003-1434-9927 (2021) Phytoplankton species composition is governed by both iron and manganese limitation in the Drake Passage. , ICYMARE 2021, Online, September 2021 - September 2021 . hdl:10013/epic.30eb32a6-7cf9-4231-927f-de7419ed4f0b
_version_ 1810493005263536128

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