Gephyrocapsa huxleyi (Emiliania huxleyi) as a model system for coccolithophore biology
Gephyrocapsa huxleyi (Emiliania huxleyi) as a model system for coccolithophore biology
Coccolithophores are the most abundant calcifying organisms in modern oceans and are important primary producers in many marine ecosystems. Their ability to generate a cellular covering of calcium carbonate plates (coccoliths) plays a major role in marine biogeochemistry and the global carbon cycle. Coccolithophores also play an important role in sulfur cycling through the production of the climate-active gas dimethyl sulfide. The primary model organism for coccolithophore research is Emiliania huxleyi, now named Gephyrocapsa huxleyi. G. huxleyi has a cosmopolitan distribution, occupying coastal and oceanic environments across the globe, and is the most abundant coccolithophore in modern oceans. Research in G. huxleyi has identified many aspects of coccolithophore biology, from cell biology to ecological interactions. In this perspective, we summarize the key advances made using G. huxleyi and examine the emerging tools for research in this model organism. We discuss the key steps that need to be taken by the research community to advance G. huxleyi as a model organism and the suitability of other species as models for specific aspects of coccolithophore biology.
1123-1129
Wheeler, Glen L.
80ee477b-ceb3-4051-923c-399098bb746a
Sturm, Daniela
b7d00726-3dfb-4f70-bec3-c4f3340a9b4b
Langer, Gerald
88ea3c75-ae95-4fe8-be19-b42c43d8375e
1 December 2023
Wheeler, Glen L.
80ee477b-ceb3-4051-923c-399098bb746a
Sturm, Daniela
b7d00726-3dfb-4f70-bec3-c4f3340a9b4b
Langer, Gerald
88ea3c75-ae95-4fe8-be19-b42c43d8375e
Wheeler, Glen L., Sturm, Daniela and Langer, Gerald
(2023)
Gephyrocapsa huxleyi (Emiliania huxleyi) as a model system for coccolithophore biology.
Journal of Phycology, 59 (6), .
(doi:10.1111/jpy.13404).
Abstract
Coccolithophores are the most abundant calcifying organisms in modern oceans and are important primary producers in many marine ecosystems. Their ability to generate a cellular covering of calcium carbonate plates (coccoliths) plays a major role in marine biogeochemistry and the global carbon cycle. Coccolithophores also play an important role in sulfur cycling through the production of the climate-active gas dimethyl sulfide. The primary model organism for coccolithophore research is Emiliania huxleyi, now named Gephyrocapsa huxleyi. G. huxleyi has a cosmopolitan distribution, occupying coastal and oceanic environments across the globe, and is the most abundant coccolithophore in modern oceans. Research in G. huxleyi has identified many aspects of coccolithophore biology, from cell biology to ecological interactions. In this perspective, we summarize the key advances made using G. huxleyi and examine the emerging tools for research in this model organism. We discuss the key steps that need to be taken by the research community to advance G. huxleyi as a model organism and the suitability of other species as models for specific aspects of coccolithophore biology.
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Journal of Phycology - 2023 - Wheeler - Gephyrocapsa huxleyi Emiliania huxleyi as a model system for coccolithophore
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Published date: 1 December 2023
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Local EPrints ID: 490970
URI: http://eprints.soton.ac.uk/id/eprint/490970
ISSN: 1529-8817
PURE UUID: c362c856-e388-490f-bf7c-171eefabe4b0
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Date deposited: 10 Jun 2024 17:01
Last modified: 14 Jun 2024 17:19
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Author:
Glen L. Wheeler
Author:
Gerald Langer
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