Article

Biogeographical and seasonal dynamics of the marine Roseobacter community and ecological links to DMSP-producing phytoplankton

Details

Citation

O’Brien J, McParland EL, Bramucci AR, Siboni N, Ostrowski M, Kahlke T, Levine NM, Brown MV, van de Kamp J, Bodrossy L, Messer LF, Petrou K & Seymour JR (2022) Biogeographical and seasonal dynamics of the marine Roseobacter community and ecological links to DMSP-producing phytoplankton. ISME Communications, 2 (1), Art. No.: 16. https://doi.org/10.1038/s43705-022-00099-3

Abstract
Abstract Ecological interactions between marine bacteria and phytoplankton play a pivotal role in governing the ocean’s major biogeochemical cycles. Among these, members of the marine Roseobacter Group (MRG) can establish mutualistic relationships with phytoplankton that are, in part, maintained by exchanges of the organosulfur compound, dimethylsulfoniopropionate (DMSP). Yet most of what is known about these interactions has been derived from culture-based laboratory studies. To investigate temporal and spatial co-occurrence patterns between members of the MRG and DMSP-producing phytoplankton we analysed 16S and 18S rRNA gene amplicon sequence variants (ASVs) derived from 5 years of monthly samples from seven environmentally distinct Australian oceanographic time-series. The MRG and DMSP-producer communities often displayed contemporaneous seasonality, which was greater in subtropical and temperate environments compared to tropical environments. The relative abundance of both groups varied latitudinally, displaying a poleward increase, peaking (MRG at 33% of total bacteria, DMSP producers at 42% of eukaryotic phototrophs) during recurrent spring-summer phytoplankton blooms in the most temperate site (Maria Island, Tasmania). Network analysis identified 20,140 significant positive correlations between MRG ASVs and DMSP producers and revealed that MRGs exhibit significantly stronger correlations to high DMSP producers relative to other DMSP-degrading bacteria (Pelagibacter, SAR86 and Actinobacteria). By utilising the power of a continental network of oceanographic time-series, this study provides in situ confirmation of interactions found in laboratory studies and demonstrates that the ecological dynamics of an important group of marine bacteria are shaped by the production of an abundant and biogeochemically significant organosulfur compound.

Keywords
Seasonal dynamics; marine Roseobacter: community; ecological: DMSP-producing phytoplankton

Journal
ISME Communications: Volume 2, Issue 1

StatusPublished
FundersAustralian Research Council, Australian Research Council, Australian Research Council and Australian Research Council
Publication date14/02/2022
Publication date online14/02/2022
Date accepted by journal28/01/2022
URLhttp://hdl.handle.net/1893/35298
PublisherSpringer Science and Business Media LLC
ISSN2730-6151
eISSN2730-6151

People (1)

Dr Lauren Messer

Dr Lauren Messer

Post Doctoral Research Fellow, Biological and Environmental Sciences

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