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Autores principales: Li, Jiao, Feugere, Lauric, Hardege, Joerg, Vámos, Sofia, Wollenberg Valero, Katharina C
Formato: Artículo científico
Lenguaje:en
Publicado: The Journal of experimental biology 2026
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Acceso en línea:https://pubmed.ncbi.nlm.nih.gov/41668665/
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author Li, Jiao
Feugere, Lauric
Hardege, Joerg
Vámos, Sofia
Wollenberg Valero, Katharina C
author_facet Li, Jiao
Feugere, Lauric
Hardege, Joerg
Vámos, Sofia
Wollenberg Valero, Katharina C
Li, Jiao
Feugere, Lauric
Hardege, Joerg
Vámos, Sofia
Wollenberg Valero, Katharina C
collection PubMed - marine biology
contents Chemical cues and molecular mechanisms suspected in abiotic stress communication. Li, Jiao Feugere, Lauric Hardege, Joerg Vámos, Sofia Wollenberg Valero, Katharina C Stress, Physiological Animals Ocean Acidification Cues Aquatic Organisms Hot Temperature Transcriptome For nearly a century, scientists have tried to resolve the sensory physiology of chemical communication caused by predation stress. Only recently have we evidenced that abiotic stressors from a changing world, such as heat and ocean acidification, also trigger chemical communication between aquatic organisms - which we dubbed abiotic stress communication. Generally, the behavioural and physiological response to stress-induced cues are well understood, whereas the molecular mechanisms - cue identities, pathways of release, and perception - of this stress communication remain unresolved. Here, we propose a framework to organize the existing evidence for candidate mechanisms involved in abiotic stress-induced chemical communication, focusing on heat and acidification as two major abiotic stressors with environmental relevance. Drawing on transcriptomic, metabolomic and behavioural evidence, we propose that stressor-specific communication likely involves multiple cues and parallel routes rather than a single mechanism, such as membrane-related processes. We call for integrative work that links -omics with chemical profiling and ecological function assays to uncover the mechanisms of abiotic stress communication.
format Artículo científico
id pubmed_41668665
institution PubMed
language en
publishDate 2026
publisher The Journal of experimental biology
record_format pubmed
spellingShingle Chemical cues and molecular mechanisms suspected in abiotic stress communication.
Li, Jiao
Feugere, Lauric
Hardege, Joerg
Vámos, Sofia
Wollenberg Valero, Katharina C
Stress, Physiological
Animals
Ocean Acidification
Cues
Aquatic Organisms
Hot Temperature
Transcriptome
Chemical cues and molecular mechanisms suspected in abiotic stress communication. Li, Jiao Feugere, Lauric Hardege, Joerg Vámos, Sofia Wollenberg Valero, Katharina C Stress, Physiological Animals Ocean Acidification Cues Aquatic Organisms Hot Temperature Transcriptome For nearly a century, scientists have tried to resolve the sensory physiology of chemical communication caused by predation stress. Only recently have we evidenced that abiotic stressors from a changing world, such as heat and ocean acidification, also trigger chemical communication between aquatic organisms - which we dubbed abiotic stress communication. Generally, the behavioural and physiological response to stress-induced cues are well understood, whereas the molecular mechanisms - cue identities, pathways of release, and perception - of this stress communication remain unresolved. Here, we propose a framework to organize the existing evidence for candidate mechanisms involved in abiotic stress-induced chemical communication, focusing on heat and acidification as two major abiotic stressors with environmental relevance. Drawing on transcriptomic, metabolomic and behavioural evidence, we propose that stressor-specific communication likely involves multiple cues and parallel routes rather than a single mechanism, such as membrane-related processes. We call for integrative work that links -omics with chemical profiling and ecological function assays to uncover the mechanisms of abiotic stress communication.
title Chemical cues and molecular mechanisms suspected in abiotic stress communication.
topic Stress, Physiological
Animals
Ocean Acidification
Cues
Aquatic Organisms
Hot Temperature
Transcriptome
url https://pubmed.ncbi.nlm.nih.gov/41668665/