Phytoplankton with flexible pigment content disadvantaged by projected future decrease in variability of the ocean light spectrum
Phytoplankton with flexible pigment content disadvantaged by projected future decrease in variability of the ocean light spectrum
Phytoplankton are key components of ocean ecosystems that play a critical role in regulating Earth's climate. However, how climate-driven changes in light availability in the ocean will affect marine phytoplankton remains poorly understood. Here, we assess the impact of climate-induced shifts in the spectral quality of the underwater light field on the relative fitness of phytoplankton with distinct pigment traits using a global ecosystem model. We focus on Synechococcus pigment types, comparing light color specialists with a chromatic acclimator capable of adjusting its pigment composition. Under a high-emission scenario, the model simulation projected an increase in the average blue-to-green ratio across 76% of the ocean area by the end of the 21st century, while 24% of the simulated ocean showed a shift toward greener wavelengths. Regions characterized by larger seasonal variability in blue-to-green ratio values appeared to be reduced due to climate-driven spectral changes. We find that reduced variability in the ocean light field makes the chromatic acclimators' plasticity less advantageous, and this pigment type was most negatively affected. These findings highlight the potential of Synechococcus pigment types as functional bioindicators of ecosystem change and underscore the importance of incorporating functional diversity in global models to better predict phytoplankton responses to changing ocean conditions.
Mattei, Francesco
da1d3a0d-38ff-40ec-88a4-278d4f194bc9
Hickman, Anna E.
a99786c6-65e6-48c8-8b58-0d3b5608be92
Uitz, Julia
45eac13a-a229-4b72-af8f-2ce6ae4ae105
Vellucci, Vincenzo
f5cc2438-6494-4b7c-ac81-a5c9f7eaa929
Garczarek, Laurence
edc7e647-4a7f-49b5-b985-2b03bf9e3a32
Partensky, F.
dd043eba-9b5a-4513-84a6-df7c067a04c8
Dutkiewicz, Stephanie
a704ddd3-bd6c-4f4a-ba0c-f6420c9c3b3b
Mattei, Francesco
da1d3a0d-38ff-40ec-88a4-278d4f194bc9
Hickman, Anna E.
a99786c6-65e6-48c8-8b58-0d3b5608be92
Uitz, Julia
45eac13a-a229-4b72-af8f-2ce6ae4ae105
Vellucci, Vincenzo
f5cc2438-6494-4b7c-ac81-a5c9f7eaa929
Garczarek, Laurence
edc7e647-4a7f-49b5-b985-2b03bf9e3a32
Partensky, F.
dd043eba-9b5a-4513-84a6-df7c067a04c8
Dutkiewicz, Stephanie
a704ddd3-bd6c-4f4a-ba0c-f6420c9c3b3b
Mattei, Francesco, Hickman, Anna E., Uitz, Julia, Vellucci, Vincenzo, Garczarek, Laurence, Partensky, F. and Dutkiewicz, Stephanie
(2026)
Phytoplankton with flexible pigment content disadvantaged by projected future decrease in variability of the ocean light spectrum.
Global Change Biology, 32 (1), [e70671].
(doi:10.1111/gcb.70671).
Abstract
Phytoplankton are key components of ocean ecosystems that play a critical role in regulating Earth's climate. However, how climate-driven changes in light availability in the ocean will affect marine phytoplankton remains poorly understood. Here, we assess the impact of climate-induced shifts in the spectral quality of the underwater light field on the relative fitness of phytoplankton with distinct pigment traits using a global ecosystem model. We focus on Synechococcus pigment types, comparing light color specialists with a chromatic acclimator capable of adjusting its pigment composition. Under a high-emission scenario, the model simulation projected an increase in the average blue-to-green ratio across 76% of the ocean area by the end of the 21st century, while 24% of the simulated ocean showed a shift toward greener wavelengths. Regions characterized by larger seasonal variability in blue-to-green ratio values appeared to be reduced due to climate-driven spectral changes. We find that reduced variability in the ocean light field makes the chromatic acclimators' plasticity less advantageous, and this pigment type was most negatively affected. These findings highlight the potential of Synechococcus pigment types as functional bioindicators of ecosystem change and underscore the importance of incorporating functional diversity in global models to better predict phytoplankton responses to changing ocean conditions.
Text
Global Change Biology - 2026 - Mattei - Phytoplankton With Flexible Pigment Content Disadvantaged by Projected Future
- Version of Record
More information
Accepted/In Press date: 16 December 2025
e-pub ahead of print date: 9 January 2026
Identifiers
Local EPrints ID: 508639
URI: http://eprints.soton.ac.uk/id/eprint/508639
ISSN: 1354-1013
PURE UUID: a0518666-5960-4df5-b7fd-c0c4be16e4c9
Catalogue record
Date deposited: 28 Jan 2026 17:57
Last modified: 31 Jan 2026 04:52
Export record
Altmetrics
Contributors
Author:
Francesco Mattei
Author:
Julia Uitz
Author:
Vincenzo Vellucci
Author:
Laurence Garczarek
Author:
F. Partensky
Author:
Stephanie Dutkiewicz
Download statistics
Downloads from ePrints over the past year. Other digital versions may also be available to download e.g. from the publisher's website.
View more statistics
