Author
Listed:
- Zoltán Füssy
(University of California San Diego
J. Craig Venter Institute
University of South Bohemia)
- Robert H. Lampe
(University of California San Diego
J. Craig Venter Institute)
- Kevin R. Arrigo
(Department of Earth System Science)
- Kerrie Barry
(Lawrence Berkeley National Laboratory)
- Margaret M. Brisbin
(University of South Florida)
- Corina P. D. Brussaard
(NIOZ – Royal Netherlands Institute for Sea Research
University of Amsterdam)
- Johan Decelle
(Université Grenoble Alpes)
- Colomban Vargas
(CNRS / Sorbonne Université)
- Giacomo R. DiTullio
(College of Charleston)
- Liam D. H. Elbourne
(Macquarie University
Macquarie University)
- Marc E. Frischer
(University of Georgia)
- David M. Goodstein
(Lawrence Berkeley National Laboratory)
- Igor V. Grigoriev
(Lawrence Berkeley National Laboratory
University of California Berkeley)
- Richard D. Hayes
(Lawrence Berkeley National Laboratory)
- Adam L. Healey
(HudsonAlpha Institute for Biotechnology)
- Chase C. James
(University of Southern California)
- Jerry W. Jenkins
(HudsonAlpha Institute for Biotechnology)
- Caroline Juery
(Université Grenoble Alpes
European Molecular Biology Laboratory)
- Manish Kumar
(University of California San Diego)
- Adam B. Kustka
(Rutgers University – Newark)
- Florian Maumus
(URGI
Institute Jean-Pierre Bourgin for Plant Sciences (IJPB))
- Anna M. G. Novák Vanclová
(CNRS)
- Miroslav Oborník
(University of South Bohemia
Institute of Parasitology)
- Ian T. Paulsen
(Macquarie University
Macquarie University)
- Ian Probert
(CNRS / Sorbonne Université)
- Mak A. Saito
(Woods Hole Oceanographic Institution)
- Jeremy Schmutz
(Lawrence Berkeley National Laboratory
HudsonAlpha Institute for Biotechnology)
- Tomáš Skalický
(Institute of Parasitology)
- Diego Tec-Campos
(University of California San Diego)
- Hannah Tomelka
(URGI
Institute of Plant Sciences Paris-Saclay (IPS2))
- Pavlína Věchtová
(University of South Bohemia)
- Pratap Venepally
(University of California San Diego
J. Craig Venter Institute)
- Brendan Wilson-Mortier
(Macquarie University)
- Karsten Zengler
(University of California San Diego
University of California San Diego
University of California San Diego
University of California San Diego)
- Hong Zheng
(J. Craig Venter Institute)
- Andrew E. Allen
(University of California San Diego
J. Craig Venter Institute)
Abstract
Phaeocystales, comprising the genus Phaeocystis and an uncharacterized sister lineage, are nanoplanktonic haptophytes widespread in the global ocean. Several species form mucilaginous colonies and influence key biogeochemical cycles, yet their underlying diversity and ecological strategies remain underexplored. Here, we present new genomic data from 13 strains, including three high-quality reference genomes (N50 > 30 kbp), and integrate previous metagenome-assembled genomes to resolve a robust phylogeny. Divergence timing of P. antarctica aligns with Miocene cooling and Southern Ocean isolation. Genomic traits reveal metabolic flexibility, including mixotrophic nitrogen acquisition in temperate waters and gene expansions linked to polar nutrient adaptation. Concordantly, transcriptomic comparisons between temperate and polar Phaeocystis suggest Southern Ocean populations experience iron and B12 limitation. We also identify signatures of horizontal gene transfer and endogenous giant virus/virophage insertions. Together, these findings highlight Phaeocystales as an ecologically versatile and geographically widespread lineage shaped by evolutionary innovation and adaptation to contrasting environmental stressors.
Suggested Citation
Zoltán Füssy & Robert H. Lampe & Kevin R. Arrigo & Kerrie Barry & Margaret M. Brisbin & Corina P. D. Brussaard & Johan Decelle & Colomban Vargas & Giacomo R. DiTullio & Liam D. H. Elbourne & Marc E. F, 2025.
"Genome-resolved biogeography of Phaeocystales, cosmopolitan bloom-forming algae,"
Nature Communications, Nature, vol. 16(1), pages 1-18, December.
Handle:
RePEc:nat:natcom:v:16:y:2025:i:1:d:10.1038_s41467-025-63565-1
DOI: 10.1038/s41467-025-63565-1
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