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Chromatic acclimation shapes phytoplankton biogeography

Chromatic acclimation shapes phytoplankton biogeography
Chromatic acclimation shapes phytoplankton biogeography
Marine photoautotrophs have evolved to exploit the ocean’s variable light conditions, with chromatic acclimators being able to adjust their pigment content to better match the ambient light color. The impact of chromatic acclimation on phytoplankton distribution and competition is not well understood despite its global importance. This study explores chromatic acclimation’s role in shaping the biogeography of Synechococcus, a widespread cyanobacterium. We integrated three pigment types into a global ecosystem model: a green-light specialist, a blue-light specialist, and a chromatic acclimator. Laboratory studies defined each type’s specific absorption properties. Our results indicate that chromatic acclimation offers an evolutionary advantage by enabling Synechococcus to adapt to varying light environments. This ability to mimic blue- and green-light specialists and enhance absorption at intermediate states, particularly in areas with high seasonal light variations, increases Synechococcus distribution and biomass. Thus, chromatic acclimation affects ecosystem functioning and biogeochemical processes in the ocean.
2375-2548
Mattei, Francesco
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Hickman, Anna E.
a99786c6-65e6-48c8-8b58-0d3b5608be92
Uitz, Julia
45eac13a-a229-4b72-af8f-2ce6ae4ae105
Dufour, Louison
6a3f3c4d-d497-4d37-beb1-d0fb26f200a3
Vellucci, Vincenzo
6dca8ef9-35b9-45a2-bfa5-37bbb371e1be
Garczarek, Laurence
59ceaa6c-4734-476c-a5f9-cc5c82a3bbb2
Partensky, Frederic
dd043eba-9b5a-4513-84a6-df7c067a04c8
Dutkiewicz, Stephanie
d1ef6d8c-5fcf-4647-9062-26fe108cbc06
Mattei, Francesco
da1d3a0d-38ff-40ec-88a4-278d4f194bc9
Hickman, Anna E.
a99786c6-65e6-48c8-8b58-0d3b5608be92
Uitz, Julia
45eac13a-a229-4b72-af8f-2ce6ae4ae105
Dufour, Louison
6a3f3c4d-d497-4d37-beb1-d0fb26f200a3
Vellucci, Vincenzo
6dca8ef9-35b9-45a2-bfa5-37bbb371e1be
Garczarek, Laurence
59ceaa6c-4734-476c-a5f9-cc5c82a3bbb2
Partensky, Frederic
dd043eba-9b5a-4513-84a6-df7c067a04c8
Dutkiewicz, Stephanie
d1ef6d8c-5fcf-4647-9062-26fe108cbc06

Mattei, Francesco, Hickman, Anna E., Uitz, Julia, Dufour, Louison, Vellucci, Vincenzo, Garczarek, Laurence, Partensky, Frederic and Dutkiewicz, Stephanie (2025) Chromatic acclimation shapes phytoplankton biogeography. Science Advances, 11 (8), [eadr9609]. (doi:10.1126/sciadv.adr9609).

Record type: Article

Abstract

Marine photoautotrophs have evolved to exploit the ocean’s variable light conditions, with chromatic acclimators being able to adjust their pigment content to better match the ambient light color. The impact of chromatic acclimation on phytoplankton distribution and competition is not well understood despite its global importance. This study explores chromatic acclimation’s role in shaping the biogeography of Synechococcus, a widespread cyanobacterium. We integrated three pigment types into a global ecosystem model: a green-light specialist, a blue-light specialist, and a chromatic acclimator. Laboratory studies defined each type’s specific absorption properties. Our results indicate that chromatic acclimation offers an evolutionary advantage by enabling Synechococcus to adapt to varying light environments. This ability to mimic blue- and green-light specialists and enhance absorption at intermediate states, particularly in areas with high seasonal light variations, increases Synechococcus distribution and biomass. Thus, chromatic acclimation affects ecosystem functioning and biogeochemical processes in the ocean.

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Accepted/In Press date: 16 January 2025
e-pub ahead of print date: 19 February 2025
Published date: February 2025

Identifiers

Local EPrints ID: 498600
URI: http://eprints.soton.ac.uk/id/eprint/498600
DOI: doi:10.1126/sciadv.adr9609
ISSN: 2375-2548
PURE UUID: 6d0aa085-956b-4cb9-af92-dc54bc47bca8
ORCID for Anna E. Hickman: ORCID iD orcid.org/0000-0002-2774-3934

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Date deposited: 21 Feb 2025 18:01
Last modified: 03 Sep 2025 01:45

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Contributors

Author: Francesco Mattei
Author: Anna E. Hickman ORCID iD
Author: Julia Uitz
Author: Louison Dufour
Author: Vincenzo Vellucci
Author: Laurence Garczarek
Author: Frederic Partensky
Author: Stephanie Dutkiewicz

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