Using a metabolomics approach to investigate the sensitivity of a potential Arctic-invader and its Arctic sister-species to marine heatwaves and traditional harvesting disturbances

Beaudreau, Nicholas, Page, Tessa M., Drolet, David, McKindsey, Christopher W., Howland, Kimberly L. et Calosi, Piero ORCID logoORCID: https://orcid.org/0000-0003-3378-2603 (2024). Using a metabolomics approach to investigate the sensitivity of a potential Arctic-invader and its Arctic sister-species to marine heatwaves and traditional harvesting disturbances. Science of the Total Environment, 917 .

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Résumé

Coastal species are threatened by fishing practices and changing environmental conditions, such as marine heatwaves (MHW). The mechanisms that confer tolerance to such stressors in marine invertebrates are poorly understood. However, differences in tolerance among different species may be attributed to their geographical distribution. To test the tolerance of species occupying different thermal ranges, we used two closely related bivalves the softshell clam Mya arenaria (Linnaeus, 1758), a cold-temperate invader with demonstrated potential for establishment in the Arctic, and the blunt gaper Mya truncata (Linnaeus, 1758), a native polar species. Clams were subjected to a thermal stress, mimicking a MHW, and harvesting stress in a controlled environment. Seven acute temperature changes (2, 7, 12, 17, 22, 27, and 32 °C) were tested at two harvesting disturbance intensities (with, without). Survival was measured after 12 days and three tissues (gills, mantle, and posterior adductor muscle) collected from surviving individuals for targeted metabolomic profiling. MHW tolerance differed significantly between species: 26.9 °C for M. arenaria and 17.8 °C for M. truncata, with a negligeable effect of harvesting. At the upper thermal limit, M. arenaria displayed a more profound metabolomic remodelling when compared to M. truncata, and this varied greatly between tissue types. Network analysis revealed differences in pathway utilization at the upper MHW limit, with M. arenaria displaying a greater reliance on multiple DNA repair and expression and cell signalling pathways, while M. truncata was limited to fewer pathways. This suggests that M. truncata is ill equipped to cope with warming environments. MHW patterning in the Northwest Atlantic may be a strong predictor of population survival and future range shifts in these two clam species. As polar environments undergo faster rates of warming compared to the global average, M. truncata may be outcompeted by M. arenaria expanding into its native range.

Type de document : Article
Validation par les pairs : Oui
Mots-clés : Conservation ; Physiologie de la conservation ; Reprogrammation métabolomique ; Changement global ; Changement climatique ; Pêche ; Bivalves ; Mollusques / Conservation ; Conservation physiology ; Metabolomic reprogramming ; Global change ; Climate change ; Fisheries ; Bivalves ; Molluscs.
Départements et unités départementales : Département de biologie, chimie et géographie
Date de dépôt : 05 mai 2025 20:19
Dernière modification : 05 mai 2025 20:20
URI : https://semaphore.uqar.ca/id/eprint/3297
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