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Autores principales: Quinlan, Zachary A, Nelson, Craig E, Koester, Irina, Petras, Daniel, Nothias, Louis-Felix, Comstock, Jacqueline, White, Brandie M, Aluwihare, Lihini I, Bailey, Barbara A, Carlson, Craig A, Dorrestein, Pieter C, Haas, Andreas F, Wegley Kelly, Linda
Formato: Artículo científico
Lenguaje:en
Publicado: Environmental microbiology 2025
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Acceso en línea:https://pubmed.ncbi.nlm.nih.gov/40108841/
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author Quinlan, Zachary A
Nelson, Craig E
Koester, Irina
Petras, Daniel
Nothias, Louis-Felix
Comstock, Jacqueline
White, Brandie M
Aluwihare, Lihini I
Bailey, Barbara A
Carlson, Craig A
Dorrestein, Pieter C
Haas, Andreas F
Wegley Kelly, Linda
author_facet Quinlan, Zachary A
Nelson, Craig E
Koester, Irina
Petras, Daniel
Nothias, Louis-Felix
Comstock, Jacqueline
White, Brandie M
Aluwihare, Lihini I
Bailey, Barbara A
Carlson, Craig A
Dorrestein, Pieter C
Haas, Andreas F
Wegley Kelly, Linda
Quinlan, Zachary A
Nelson, Craig E
Koester, Irina
Petras, Daniel
Nothias, Louis-Felix
Comstock, Jacqueline
White, Brandie M
Aluwihare, Lihini I
Bailey, Barbara A
Carlson, Craig A
Dorrestein, Pieter C
Haas, Andreas F
Wegley Kelly, Linda
collection PubMed - marine biology
contents Microbial Community Metabolism of Coral Reef Exometabolomes Broadens the Chemodiversity of Labile Dissolved Organic Matter. Quinlan, Zachary A Nelson, Craig E Koester, Irina Petras, Daniel Nothias, Louis-Felix Comstock, Jacqueline White, Brandie M Aluwihare, Lihini I Bailey, Barbara A Carlson, Craig A Dorrestein, Pieter C Haas, Andreas F Wegley Kelly, Linda Coral Reefs Animals Microbiota Anthozoa Dissolved Organic Matter Seawater Bacteria Mass Spectrometry Organic Chemicals Dissolved organic matter (DOM) comprises diverse compounds with variable bioavailability across aquatic ecosystems. The sources and quantities of DOM can influence microbial growth and community structure with effects on biogeochemical processes. To investigate the chemodiversity of labile DOM in tropical reef waters, we tracked microbial utilisation of over 3000 untargeted mass spectrometry ion features exuded from two coral and three algal species. Roughly half of these features clustered into over 500 biologically labile spectral subnetworks annotated to diverse structural superclasses, including benzenoids, lipids, organic acids, heterocyclics and phenylpropanoids, comprising on average one-third of the ion richness and abundance within each chemical class. Distinct subsets of these labile compounds were exuded by algae and corals during the day and night, driving differential microbial growth and substrate utilisation. This study expands the chemical diversity of labile marine DOM with implications for carbon cycling in coastal environments.
format Artículo científico
id pubmed_40108841
institution PubMed
language en
publishDate 2025
publisher Environmental microbiology
record_format pubmed
spellingShingle Microbial Community Metabolism of Coral Reef Exometabolomes Broadens the Chemodiversity of Labile Dissolved Organic Matter.
Quinlan, Zachary A
Nelson, Craig E
Koester, Irina
Petras, Daniel
Nothias, Louis-Felix
Comstock, Jacqueline
White, Brandie M
Aluwihare, Lihini I
Bailey, Barbara A
Carlson, Craig A
Dorrestein, Pieter C
Haas, Andreas F
Wegley Kelly, Linda
Coral Reefs
Animals
Microbiota
Anthozoa
Dissolved Organic Matter
Seawater
Bacteria
Mass Spectrometry
Organic Chemicals
Microbial Community Metabolism of Coral Reef Exometabolomes Broadens the Chemodiversity of Labile Dissolved Organic Matter. Quinlan, Zachary A Nelson, Craig E Koester, Irina Petras, Daniel Nothias, Louis-Felix Comstock, Jacqueline White, Brandie M Aluwihare, Lihini I Bailey, Barbara A Carlson, Craig A Dorrestein, Pieter C Haas, Andreas F Wegley Kelly, Linda Coral Reefs Animals Microbiota Anthozoa Dissolved Organic Matter Seawater Bacteria Mass Spectrometry Organic Chemicals Dissolved organic matter (DOM) comprises diverse compounds with variable bioavailability across aquatic ecosystems. The sources and quantities of DOM can influence microbial growth and community structure with effects on biogeochemical processes. To investigate the chemodiversity of labile DOM in tropical reef waters, we tracked microbial utilisation of over 3000 untargeted mass spectrometry ion features exuded from two coral and three algal species. Roughly half of these features clustered into over 500 biologically labile spectral subnetworks annotated to diverse structural superclasses, including benzenoids, lipids, organic acids, heterocyclics and phenylpropanoids, comprising on average one-third of the ion richness and abundance within each chemical class. Distinct subsets of these labile compounds were exuded by algae and corals during the day and night, driving differential microbial growth and substrate utilisation. This study expands the chemical diversity of labile marine DOM with implications for carbon cycling in coastal environments.
title Microbial Community Metabolism of Coral Reef Exometabolomes Broadens the Chemodiversity of Labile Dissolved Organic Matter.
topic Coral Reefs
Animals
Microbiota
Anthozoa
Dissolved Organic Matter
Seawater
Bacteria
Mass Spectrometry
Organic Chemicals
url https://pubmed.ncbi.nlm.nih.gov/40108841/