Jellyfish detritus supports niche partitioning and metabolic interactions among pelagic marine bacteria

Author(s)

Tinkara Tinta, Zihao Zhao, Barbara Bayer, Gerhard J Herndl

Abstract

BACKGROUND: Jellyfish blooms represent a significant but largely overlooked source of labile organic matter (jelly-OM) in the ocean, characterized by a high protein content. Decaying jellyfish are important carriers for carbon export to the ocean's interior. To accurately incorporate them into biogeochemical models, the interactions between microbes and jelly-OM have yet to be fully characterized. We conducted jelly-OM enrichment experiments in microcosms to simulate the scenario experienced by the coastal pelagic microbiome after the decay of a jellyfish bloom. We combined metagenomics, endo- and exo-metaproteomic approaches to obtain a mechanistic understanding on the metabolic network operated by the jelly-OM degrading bacterial consortium.

RESULTS: Our analysis revealed that OM released during the decay of jellyfish blooms triggers a rapid shuffling of the taxonomic and functional profile of the pelagic bacterial community, resulting in a significant enrichment of protein/amino acid catabolism-related enzymes in the jelly-OM degrading community dominated by Pseudoalteromonadaceae, Alteromonadaceae and Vibrionaceae, compared to unamended control treatments. In accordance with the proteinaceous character of jelly-OM, Pseudoalteromonadaceae synthesized and excreted enzymes associated with proteolysis, while Alteromonadaceae contributed to extracellular hydrolysis of complex carbohydrates and organophosphorus compounds. In contrast, Vibrionaceae synthesized transporter proteins for peptides, amino acids and carbohydrates, exhibiting a cheater-type lifestyle, i.e. benefiting from public goods released by others. In the late stage of jelly-OM degradation, Rhodobacteraceae and Alteromonadaceae became dominant, growing on jelly-OM left-overs or bacterial debris, potentially contributing to the accumulation of dissolved organic nitrogen compounds and inorganic nutrients, following the decay of jellyfish blooms.

CONCLUSIONS: Our findings indicate that specific chemical and metabolic fingerprints associated with decaying jellyfish blooms are substantially different to those previously associated with decaying phytoplankton blooms, potentially altering the functioning and biogeochemistry of marine systems. We show that decaying jellyfish blooms are associated with the enrichment in extracellular collagenolytic bacterial proteases, which could act as virulence factors in human and marine organisms' disease, with possible implications for marine ecosystem services. Our study also provides novel insights into niche partitioning and metabolic interactions among key jelly-OM degraders operating a complex metabolic network in a temporal cascade of biochemical reactions to degrade pulses of jellyfish-bloom-specific compounds in the water column. Video Abstract.

Organisation(s)

Functional and Evolutionary Ecology, Department of Microbiology and Ecosystem Science

External organisation(s)

National Institute of Biology, Royal Netherlands Institute for Sea Research

Journal

Microbiome

Volume

Pages

156

ISSN

2049-2618

DOI

https://doi.org/10.1186/s40168-023-01598-8

Publication date

07-2023

Peer reviewed

Yes

Austrian Fields of Science 2012

106021 Marine biology

Keywords

ASJC Scopus subject areas

Microbiology (medical), Microbiology

Sustainable Development Goals

SDG 14 - Life Below Water, SDG 3 - Good Health and Well-being

Portal url

https://ucris.univie.ac.at/portal/en/publications/jellyfish-detritus-supports-niche-partitioning-and-metabolic-interactions-among-pelagic-marine-bacteria(8e4e4c0c-9874-4110-ba61-88d54cd3cff4).html