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Sebastien Herve2026-04-15 14:23:422026-04-15 14:23:42Trophées de la valorisation UBO 2026 : des chercheurs du LEMAR récompensés
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Sebastien Herve2026-04-15 14:23:422026-04-15 14:23:42Trophées de la valorisation UBO 2026 : des chercheurs du LEMAR récompensés
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Sebastien Herve2026-04-08 08:14:292026-04-08 17:03:15Inauguration de la chaire partenariale OCEAN LEAVES
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Sebastien Herve
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Sebastien Herve2026-03-26 12:10:192026-03-26 12:10:49Le ballet journalier des organismes marins
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Sebastien Herve2026-02-17 11:36:502026-02-17 11:42:30Typologie des habitats benthiques de Saint-Pierre et Miquelon
© Guichard Benjamin (2018) - Ifremer
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Sebastien Herve
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Sebastien Herve2026-01-16 12:31:202026-01-16 12:31:20Delmoges : Mieux comprendre les captures accidentelles de dauphins dans le golfe de Gascogne pour pouvoir les réduire.
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Sebastien Herve
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Sebastien Herve2026-01-16 11:39:512026-01-16 13:49:59Thomas Burel et Jacques Grall conseillers d’un documentaire sur ARTE
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Sebastien Herve
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Sebastien Herve2026-04-15 14:23:422026-04-15 14:23:42Trophées de la valorisation UBO 2026 : des chercheurs du LEMAR récompensés
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Sebastien Herve
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Sebastien Herve2026-04-08 08:14:292026-04-08 17:03:15Inauguration de la chaire partenariale OCEAN LEAVES
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Sebastien Herve
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Sebastien Herve2026-03-26 12:10:192026-03-26 12:10:49Le ballet journalier des organismes marins
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Sebastien Herve
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Sebastien Herve2026-02-17 11:36:502026-02-17 11:42:30Typologie des habitats benthiques de Saint-Pierre et Miquelon
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Sebastien Herve2026-02-04 15:41:402026-02-04 15:43:00Semaines arts et sciences de la ville de Plouzané
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Sebastien Herve
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Sebastien Herve2026-01-21 11:23:532026-02-09 08:29:062ème réunion annuelle du RT ECHOSPublications
Publications récentes
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Benestan, L., Massault, C., Vigouroux, E., Chevalier, O., Jones, D. B., Jerry, D. R., & Le Luyer, J. (2026). Using a comprehensive donor and host dataset to decipher the heritability and genetic architecture of pearl traits in the black-lipped oyster (Pinctada margaritifera). Aquaculture, 610, 742837. https://doi.org/10.1016/j.aquaculture.2025.742837
Lopez-Rodriguez, A., Gonzalez-Gonzalez, B., Garcia-Prieto, C., Mas, J. l, Le Moigne, F. a c, Giering, S. l c, Hurtado-Bermudez, S., & Villa-Alfageme, M. (2026). Improving 210Po low level measurements in seawater. Talanta, 308, 129812. https://doi.org/10.1016/j.talanta.2026.129812
Kremer, T., d’Orbcastel, E. R., Raherimino, R., Galgani, F., Andrianantenaina, L., Crucitti, T., Rasoamananto, I., Bidault, A., Paul-Pont, I., & Bouvier, T. (2026). Floating macroplastics concentrate culturable human pathogens but do not amplify their antibiotic resistance in a polluted tropical reef. Marine Pollution Bulletin, 230, 119789. https://doi.org/10.1016/j.marpolbul.2026.119789
Arzul, I., Garcia, C., Fleury, E., Gueguen, Y., Lecadet, C., Berland, C., Chollet, B., Serpin, D., Noyer, M., Rondier, M., Vidal-Dupiol, J., Gawra, J., Romatif, O., Pouzadoux, J., Blin, J.-L., & Lupo, C. (2026). Infection dynamics, spatial distribution and diversity of the oyster parasite Haplosporidium costale along French coasts. Aquaculture Reports, 48, 103600. https://doi.org/10.1016/j.aqrep.2026.103600
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Sebastien Herve2025-11-12 14:35:002025-11-12 14:36:39Les Efflorescences phytoplanctoniques subantarctiques dans l’ouest de l’océan Indien sont fertilisées par des eaux riches en fer du courant des Aiguilles