Ortega‐Retuerta, Eva , Devresse, Quentin, Caparros, Jocelyne, Marie, Barbara, Crispi, Olivier, Catala, Philippe, Joux, Fabien and Obernosterer, Ingrid (2021) Dissolved organic matter released by two marine heterotrophic bacterial strains and its bioavailability for natural prokaryotic communities. Environmental Microbiology, 23 (3). pp. 1363-1378. DOI 10.1111/1462-2920.15306.

	Text 1462-2920.15306.pdf - Published Version Restricted to Registered users only Download (993kB) | Contact
Preview	Text Ortega-Retuerta.et.al.2020.EMI.pdf - Submitted Version Download (2MB) | Preview

Abstract

Marine heterotrophic prokaryotes (HP) play a key role in organic matter processing in the ocean; however, the view of HP as dissolved organic matter (DOM) sources remains underexplored. In this study, we quantified and optically characterized the DOM produced by two single marine bacterial strains. We then tested the availability of these DOM sources to in situ Mediterranean Sea HP communities. Two bacterial strains were used: Photobacterium angustum (a copiotrophic gammaproteobacterium) and Sphingopyxis alaskensis (an oligotrophic alphaproteobacterium). When cultivated on glucose as the sole carbon source, the two strains released from 7% to 23% of initial glucose as bacterial derived DOM (B-DOM), the quality of which (as enrichment in humic or protein-like substances) differed between strains. B-DOM induced significant growth and carbon consumption of natural HP communities, suggesting that it was partly labile. However, B-DOM consistently promoted lower prokaryotic growth efficiencies than in situ DOM. In addition, B-DOM changed HP exoenzymatic activities, enhancing aminopeptidase activity when degrading P. angustum DOM, and alkaline phosphatase activity when using S. alaskensis DOM, and promoted differences in HP diversity and composition. DOM produced by HP affects in situ prokaryotic metabolism and diversity, thus changing the pathways for DOM cycling (e.g. respiration over biomass production) in the ocean.

Actions (login required)

View Item