Phytoplankton dynamics in contrasting early stage North Atlantic spring blooms: composition, succession, and potential drivers

The spring bloom is a key annual event in the phenology of pelagic ecosystems, making a major contribution to the oceanic biological carbon pump through the production and export of organic carbon. However, there is little consensus as to the main drivers of spring bloom formation, exacerbated by a...

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Published in:Biogeosciences
Main Authors: Daniels, C. J., Poulton, A. J., Esposito, M., Paulsen, M. L., Bellerby, R., St John, M., Martin, A. P.
Format: Text
Language:English
Published: 2018
Subjects:
Iceland
North Atlantic
Online Access:https://doi.org/10.5194/bg-12-2395-2015
https://www.biogeosciences.net/12/2395/2015/
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spelling ftcopernicus:oai:publications.copernicus.org:bg28095 2023-05-15T16:50:17+02:00 Phytoplankton dynamics in contrasting early stage North Atlantic spring blooms: composition, succession, and potential drivers Daniels, C. J. Poulton, A. J. Esposito, M. Paulsen, M. L. Bellerby, R. St John, M. Martin, A. P. 2018-09-27 application/pdf https://doi.org/10.5194/bg-12-2395-2015 https://www.biogeosciences.net/12/2395/2015/ eng eng doi:10.5194/bg-12-2395-2015 https://www.biogeosciences.net/12/2395/2015/ eISSN: 1726-4189 Text 2018 ftcopernicus https://doi.org/10.5194/bg-12-2395-2015 2019-12-24T09:53:35Z The spring bloom is a key annual event in the phenology of pelagic ecosystems, making a major contribution to the oceanic biological carbon pump through the production and export of organic carbon. However, there is little consensus as to the main drivers of spring bloom formation, exacerbated by a lack of in situ observations of the phytoplankton community composition and its evolution during this critical period. We investigated the dynamics of the phytoplankton community structure at two contrasting sites in the Iceland and Norwegian basins during the early stage (25 March–25 April) of the 2012 North Atlantic spring bloom. The plankton composition and characteristics of the initial stages of the bloom were markedly different between the two basins. The Iceland Basin (ICB) appeared well mixed down to >400 m, yet surface chlorophyll a (0.27–2.2 mg m −3 ) and primary production (0.06–0.66 mmol C m −3 d −1 ) were elevated in the upper 100 m. Although the Norwegian Basin (NWB) had a persistently shallower mixed layer (<100 m), chlorophyll a (0.58–0.93 mg m −3 ) and primary production (0.08–0.15 mmol C m −3 d −1 ) remained lower than in the ICB, with picoplankton (<2 μm) dominating chlorophyll a biomass. The ICB phytoplankton composition appeared primarily driven by the physicochemical environment, with periodic events of increased mixing restricting further increases in biomass. In contrast, the NWB phytoplankton community was potentially limited by physicochemical and/or biological factors such as grazing. Diatoms dominated the ICB, with the genus Chaetoceros (1–166 cells mL −1 ) being succeeded by Pseudo-nitzschia (0.2–210 cells mL −1 ). However, large diatoms (>10 μm) were virtually absent (<0.5 cells mL −1 ) from the NWB, with only small nano-sized (<5 μm) diatoms (i.e. Minidiscus spp.) present (101–600 cells mL −1 ). We suggest microzooplankton grazing, potentially coupled with the lack of a seed population of bloom-forming diatoms, was restricting diatom growth in the NWB, and that large diatoms may be absent in NWB spring blooms. Despite both phytoplankton communities being in the early stages of bloom formation, different physicochemical and biological factors controlled bloom formation at the two sites. If these differences in phytoplankton composition persist, the subsequent spring blooms are likely to be significantly different in terms of biogeochemistry and trophic interactions throughout the growth season, with important implications for carbon cycling and organic matter export. Text Iceland North Atlantic Copernicus Publications: E-Journals Biogeosciences 12 8 2395 2409
institution Open Polar
collection Copernicus Publications: E-Journals
op_collection_id ftcopernicus
language English
description The spring bloom is a key annual event in the phenology of pelagic ecosystems, making a major contribution to the oceanic biological carbon pump through the production and export of organic carbon. However, there is little consensus as to the main drivers of spring bloom formation, exacerbated by a lack of in situ observations of the phytoplankton community composition and its evolution during this critical period. We investigated the dynamics of the phytoplankton community structure at two contrasting sites in the Iceland and Norwegian basins during the early stage (25 March–25 April) of the 2012 North Atlantic spring bloom. The plankton composition and characteristics of the initial stages of the bloom were markedly different between the two basins. The Iceland Basin (ICB) appeared well mixed down to >400 m, yet surface chlorophyll a (0.27–2.2 mg m −3 ) and primary production (0.06–0.66 mmol C m −3 d −1 ) were elevated in the upper 100 m. Although the Norwegian Basin (NWB) had a persistently shallower mixed layer (<100 m), chlorophyll a (0.58–0.93 mg m −3 ) and primary production (0.08–0.15 mmol C m −3 d −1 ) remained lower than in the ICB, with picoplankton (<2 μm) dominating chlorophyll a biomass. The ICB phytoplankton composition appeared primarily driven by the physicochemical environment, with periodic events of increased mixing restricting further increases in biomass. In contrast, the NWB phytoplankton community was potentially limited by physicochemical and/or biological factors such as grazing. Diatoms dominated the ICB, with the genus Chaetoceros (1–166 cells mL −1 ) being succeeded by Pseudo-nitzschia (0.2–210 cells mL −1 ). However, large diatoms (>10 μm) were virtually absent (<0.5 cells mL −1 ) from the NWB, with only small nano-sized (<5 μm) diatoms (i.e. Minidiscus spp.) present (101–600 cells mL −1 ). We suggest microzooplankton grazing, potentially coupled with the lack of a seed population of bloom-forming diatoms, was restricting diatom growth in the NWB, and that large diatoms may be absent in NWB spring blooms. Despite both phytoplankton communities being in the early stages of bloom formation, different physicochemical and biological factors controlled bloom formation at the two sites. If these differences in phytoplankton composition persist, the subsequent spring blooms are likely to be significantly different in terms of biogeochemistry and trophic interactions throughout the growth season, with important implications for carbon cycling and organic matter export.
format Text
author Daniels, C. J.
Poulton, A. J.
Esposito, M.
Paulsen, M. L.
Bellerby, R.
St John, M.
Martin, A. P.
spellingShingle Daniels, C. J.
Poulton, A. J.
Esposito, M.
Paulsen, M. L.
Bellerby, R.
St John, M.
Martin, A. P.
Phytoplankton dynamics in contrasting early stage North Atlantic spring blooms: composition, succession, and potential drivers
author_facet Daniels, C. J.
Poulton, A. J.
Esposito, M.
Paulsen, M. L.
Bellerby, R.
St John, M.
Martin, A. P.
author_sort Daniels, C. J.
title Phytoplankton dynamics in contrasting early stage North Atlantic spring blooms: composition, succession, and potential drivers
title_short Phytoplankton dynamics in contrasting early stage North Atlantic spring blooms: composition, succession, and potential drivers
title_full Phytoplankton dynamics in contrasting early stage North Atlantic spring blooms: composition, succession, and potential drivers
title_fullStr Phytoplankton dynamics in contrasting early stage North Atlantic spring blooms: composition, succession, and potential drivers
title_full_unstemmed Phytoplankton dynamics in contrasting early stage North Atlantic spring blooms: composition, succession, and potential drivers
title_sort phytoplankton dynamics in contrasting early stage north atlantic spring blooms: composition, succession, and potential drivers
publishDate 2018
url https://doi.org/10.5194/bg-12-2395-2015
https://www.biogeosciences.net/12/2395/2015/
genre Iceland
North Atlantic
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North Atlantic
op_source eISSN: 1726-4189
op_relation doi:10.5194/bg-12-2395-2015
https://www.biogeosciences.net/12/2395/2015/
op_doi https://doi.org/10.5194/bg-12-2395-2015
container_title Biogeosciences
container_volume 12
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container_start_page 2395
op_container_end_page 2409
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