Haplo-diplontic life cycle expands coccolithophore niche

Haplo-diplontic life cycle expands coccolithophore niche

<p>Coccolithophores are globally important marine calcifying phytoplankton that utilize a haplo-diplontic life cycle. The haplo-diplontic life cycle allows coccolithophores to divide in both life cycle phases and potentially expands coccolithophore niche volume. Research has, however, to date...

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Main Authors: J. de Vries, F. Monteiro, G. Wheeler, A. Poulton, J. Godrijan, F. Cerino, E. Malinverno, G. Langer, C. Brownlee
Format: Article
Language:English
Published: Copernicus Publications 2021-02-01
Series:Biogeosciences
Online Access:https://bg.copernicus.org/articles/18/1161/2021/bg-18-1161-2021.pdf
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spelling doaj-b499e950d7fe475d9fabe5cfac8232912021-02-16T08:51:22ZengCopernicus PublicationsBiogeosciences1726-41701726-41892021-02-01181161118410.5194/bg-18-1161-2021Haplo-diplontic life cycle expands coccolithophore nicheJ. de Vries0J. de Vries1F. Monteiro2G. Wheeler3A. Poulton4J. Godrijan5F. Cerino6E. Malinverno7E. Malinverno8G. Langer9C. Brownlee10C. Brownlee11BRIDGE, School of Geographical Sciences, University of Bristol, University Road, Bristol BS8 1SS, UKMarine Biological Association, The Laboratory, Citadel Hill, Plymouth PL1 2PB, UKBRIDGE, School of Geographical Sciences, University of Bristol, University Road, Bristol BS8 1SS, UKMarine Biological Association, The Laboratory, Citadel Hill, Plymouth PL1 2PB, UKThe Lyell Centre for Earth & Marine Science & Technology, Heriot-Watt University, Edinburgh EH14 4BA, UKDivision for Marine and Environmental Research, Ruđer Bošković Institute, Bijenička cesta 54, 10000 Zagreb, CroatiaOceanography Section, Istituto Nazionale di Oceanografia e di Geofisica Sperimentale – OGS, via Piccard 54, 34151 Trieste, ItalyDepartment of Earth and Environmenal Sciences, University of Milano-Bicocca, Piazza della Scienza 4, 20126 Milan, ItalyConsorzio Nazionale Interuniversitario per le Scienze del Mare – CoNISMa, Piazzale Flaminio 9, 00196 Rome, ItalyMarine Biological Association, The Laboratory, Citadel Hill, Plymouth PL1 2PB, UKMarine Biological Association, The Laboratory, Citadel Hill, Plymouth PL1 2PB, UKSchool of Ocean and Earth Science, University of Southampton, Southampton SO14 3ZH, UK<p>Coccolithophores are globally important marine calcifying phytoplankton that utilize a haplo-diplontic life cycle. The haplo-diplontic life cycle allows coccolithophores to divide in both life cycle phases and potentially expands coccolithophore niche volume. Research has, however, to date largely overlooked the life cycle of coccolithophores and has instead focused on the diploid life cycle phase of coccolithophores. Through the synthesis and analysis of global scanning electron microscopy (SEM) coccolithophore abundance data (<span class="inline-formula"><i>n</i>=2534</span>), we find that calcified haploid coccolithophores generally constitute a minor component of the total coccolithophore abundance (<span class="inline-formula">≈</span> 2 %–15 % depending on season). However, using case studies in the Atlantic Ocean and Mediterranean Sea, we show that, depending on environmental conditions, calcifying haploid coccolithophores can be significant contributors to the coccolithophore standing stock (up to <span class="inline-formula">≈30</span> %). Furthermore, using hypervolumes to quantify the niche of coccolithophores, we illustrate that the haploid and diploid life cycle phases inhabit contrasting niches and that on average this allows coccolithophores to expand their niche by <span class="inline-formula">≈18.8</span> %, with a range of 3 %–76 % for individual species.</p> <p>Our results highlight that future coccolithophore research should consider both life cycle stages, as omission of the haploid life cycle phase in current research limits our understanding of coccolithophore ecology. Our results furthermore suggest a different response to nutrient limitation and stratification, which may be of relevance for further climate scenarios.</p> <p>Our compilation highlights the spatial and temporal sparsity of SEM measurements and the need for new molecular techniques to identify uncalcified haploid coccolithophores. Our work also emphasizes the need for further work on the carbonate chemistry niche of the coccolithophore life cycle.</p>https://bg.copernicus.org/articles/18/1161/2021/bg-18-1161-2021.pdf
collection DOAJ
language English
format Article
sources DOAJ
author J. de Vries
J. de Vries
F. Monteiro
G. Wheeler
A. Poulton
J. Godrijan
F. Cerino
E. Malinverno
E. Malinverno
G. Langer
C. Brownlee
C. Brownlee
spellingShingle J. de Vries
J. de Vries
F. Monteiro
G. Wheeler
A. Poulton
J. Godrijan
F. Cerino
E. Malinverno
E. Malinverno
G. Langer
C. Brownlee
C. Brownlee
Haplo-diplontic life cycle expands coccolithophore niche
Biogeosciences
author_facet J. de Vries
J. de Vries
F. Monteiro
G. Wheeler
A. Poulton
J. Godrijan
F. Cerino
E. Malinverno
E. Malinverno
G. Langer
C. Brownlee
C. Brownlee
author_sort J. de Vries
title Haplo-diplontic life cycle expands coccolithophore niche
title_short Haplo-diplontic life cycle expands coccolithophore niche
title_full Haplo-diplontic life cycle expands coccolithophore niche
title_fullStr Haplo-diplontic life cycle expands coccolithophore niche
title_full_unstemmed Haplo-diplontic life cycle expands coccolithophore niche
title_sort haplo-diplontic life cycle expands coccolithophore niche
publisher Copernicus Publications
series Biogeosciences
issn 1726-4170
1726-4189
publishDate 2021-02-01
description <p>Coccolithophores are globally important marine calcifying phytoplankton that utilize a haplo-diplontic life cycle. The haplo-diplontic life cycle allows coccolithophores to divide in both life cycle phases and potentially expands coccolithophore niche volume. Research has, however, to date largely overlooked the life cycle of coccolithophores and has instead focused on the diploid life cycle phase of coccolithophores. Through the synthesis and analysis of global scanning electron microscopy (SEM) coccolithophore abundance data (<span class="inline-formula"><i>n</i>=2534</span>), we find that calcified haploid coccolithophores generally constitute a minor component of the total coccolithophore abundance (<span class="inline-formula">≈</span> 2 %–15 % depending on season). However, using case studies in the Atlantic Ocean and Mediterranean Sea, we show that, depending on environmental conditions, calcifying haploid coccolithophores can be significant contributors to the coccolithophore standing stock (up to <span class="inline-formula">≈30</span> %). Furthermore, using hypervolumes to quantify the niche of coccolithophores, we illustrate that the haploid and diploid life cycle phases inhabit contrasting niches and that on average this allows coccolithophores to expand their niche by <span class="inline-formula">≈18.8</span> %, with a range of 3 %–76 % for individual species.</p> <p>Our results highlight that future coccolithophore research should consider both life cycle stages, as omission of the haploid life cycle phase in current research limits our understanding of coccolithophore ecology. Our results furthermore suggest a different response to nutrient limitation and stratification, which may be of relevance for further climate scenarios.</p> <p>Our compilation highlights the spatial and temporal sparsity of SEM measurements and the need for new molecular techniques to identify uncalcified haploid coccolithophores. Our work also emphasizes the need for further work on the carbonate chemistry niche of the coccolithophore life cycle.</p>
url https://bg.copernicus.org/articles/18/1161/2021/bg-18-1161-2021.pdf
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