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Main Authors: Dutton, Christopher L, Goeckner, Audrey, Goldwire, Tavis, Grupstra, Carsten G B, Houghtaling, Dawson, Nonnamaker, Lee Emily, Subalusky, Amanda
Format: Artículo científico
Language:en
Published: Environmental microbiology 2026
Subjects:
Online Access:https://pubmed.ncbi.nlm.nih.gov/41912274/
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author Dutton, Christopher L
Goeckner, Audrey
Goldwire, Tavis
Grupstra, Carsten G B
Houghtaling, Dawson
Nonnamaker, Lee Emily
Subalusky, Amanda
author_facet Dutton, Christopher L
Goeckner, Audrey
Goldwire, Tavis
Grupstra, Carsten G B
Houghtaling, Dawson
Nonnamaker, Lee Emily
Subalusky, Amanda
Dutton, Christopher L
Goeckner, Audrey
Goldwire, Tavis
Grupstra, Carsten G B
Houghtaling, Dawson
Nonnamaker, Lee Emily
Subalusky, Amanda
collection PubMed - marine biology
contents Bioreactors on the Move: How Animals Contribute to Microbial Community Coalescence and Shape Ecosystem Function. Dutton, Christopher L Goeckner, Audrey Goldwire, Tavis Grupstra, Carsten G B Houghtaling, Dawson Nonnamaker, Lee Emily Subalusky, Amanda Animals Microbiota Ecosystem Bioreactors Fishes Oligochaeta Bacteria Soil Microbiology Microbiome community coalescence-the mixing of separate microbial communities and their environments resulting in a novel community-represents an important but understudied ecological process at the animal-environment interface. Here, we propose that animals function as "mobile bioreactors" across landscapes, ingesting environmental microbes that undergo selective filtering within the animal gut that are then deposited back into the environment alongside the animal's native microbiota. This coalescence of animal and environmental microbiomes can significantly alter ecosystem processes including nutrient cycling, organic matter decomposition, and trophic interactions. We synthesize emerging evidence from terrestrial, freshwater, and marine ecosystems demonstrating how animal-facilitated microbial coalescence influences ecosystem functioning. Through case studies of hippos in African rivers, fish on coral reefs, and earthworms in soil, we illustrate how these coalescence events create novel microbial communities with distinct functional capabilities. We identify methodological approaches for investigating these phenomena and outline key knowledge gaps, particularly regarding the persistence of animal microbiota in environmental settings and their quantitative contribution to ecosystem processes. Here we highlight the importance of studying animal-environmental coalescence events with far reaching implications for our understanding of ecosystem processes, animal health, and environmental resilience.
format Artículo científico
id pubmed_41912274
institution PubMed
language en
publishDate 2026
publisher Environmental microbiology
record_format pubmed
spellingShingle Bioreactors on the Move: How Animals Contribute to Microbial Community Coalescence and Shape Ecosystem Function.
Dutton, Christopher L
Goeckner, Audrey
Goldwire, Tavis
Grupstra, Carsten G B
Houghtaling, Dawson
Nonnamaker, Lee Emily
Subalusky, Amanda
Animals
Microbiota
Ecosystem
Bioreactors
Fishes
Oligochaeta
Bacteria
Soil Microbiology
Bioreactors on the Move: How Animals Contribute to Microbial Community Coalescence and Shape Ecosystem Function. Dutton, Christopher L Goeckner, Audrey Goldwire, Tavis Grupstra, Carsten G B Houghtaling, Dawson Nonnamaker, Lee Emily Subalusky, Amanda Animals Microbiota Ecosystem Bioreactors Fishes Oligochaeta Bacteria Soil Microbiology Microbiome community coalescence-the mixing of separate microbial communities and their environments resulting in a novel community-represents an important but understudied ecological process at the animal-environment interface. Here, we propose that animals function as "mobile bioreactors" across landscapes, ingesting environmental microbes that undergo selective filtering within the animal gut that are then deposited back into the environment alongside the animal's native microbiota. This coalescence of animal and environmental microbiomes can significantly alter ecosystem processes including nutrient cycling, organic matter decomposition, and trophic interactions. We synthesize emerging evidence from terrestrial, freshwater, and marine ecosystems demonstrating how animal-facilitated microbial coalescence influences ecosystem functioning. Through case studies of hippos in African rivers, fish on coral reefs, and earthworms in soil, we illustrate how these coalescence events create novel microbial communities with distinct functional capabilities. We identify methodological approaches for investigating these phenomena and outline key knowledge gaps, particularly regarding the persistence of animal microbiota in environmental settings and their quantitative contribution to ecosystem processes. Here we highlight the importance of studying animal-environmental coalescence events with far reaching implications for our understanding of ecosystem processes, animal health, and environmental resilience.
title Bioreactors on the Move: How Animals Contribute to Microbial Community Coalescence and Shape Ecosystem Function.
topic Animals
Microbiota
Ecosystem
Bioreactors
Fishes
Oligochaeta
Bacteria
Soil Microbiology
url https://pubmed.ncbi.nlm.nih.gov/41912274/