Mélanie Gaillard scite author profile

Energy status was analyzed in glass eels captured during two early waves of arrival at the mouths of the Mersey River, Nova Scotia, Canada (MR), and Grande-Rivière-Blanche, Québec, Canada (GRB), and according to their salinity preference (freshwater, brackish, or saltwater). Glass eels captured in the GRB estuary were larger, more pigmented, and exhibited higher whole-body glycogen, phospholipid, and sterol and wax ester contents. Those from MR had a higher condition index and a higher whole-body triacylglycerol content, suggesting different patterns of storage and/or use of energy reserves. Within a river, a delay of two weeks in estuarine arrival was characterized by significantly lower energy reserves. No differences in energy storage were observed according to salinity preference. Thus, the results revealed the occurrence of different energy storage strategies according to glass eel migration distance and duration, but not according to salinity preference.

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Regional variation of gene regulation associated with storage lipid metabolism in American glass eels (Anguilla rostrata)

Gaillard

Pavey

Côté

et al. 2016

Comparative Biochemistry and Physiology Part A: Molecular &

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Variation in gene regulation may be involved in the differences observed for life history traits within species. American eel (Anguilla rostrata) is well known to harbor distinct ecotypes within a single panmictic population. We examined the expression of genes involved in the regulation of appetite as well as lipid and glycogen among glass eels migrating to different locations on the Canadian east coast and captured at two different periods of upstream migration. Gene expression levels of three reference and five candidate genes were analyzed by real-time PCR with Taqman probes in recently captured wild glass eels. All gene transcripts were detected in glass eels. Of the five candidate genes, bile salt activated and triacylglycerol lipases were respectively 7.65 and 3.25 times more expressed in glass eels from the St. Lawrence estuary than in those from Nova Scotia, and there was no effect related to the two-week difference in capture date. These two genes explained 82.41% of the dissimilarity between the two rivers. In contrast, glycogen phosphorylase, ghrelin, and leptin receptor genes showed no significant differences in gene transcription. These results confirmed at the molecular level an observation that was recently made at the phenotypic level that glass eels from the St. Lawrence estuary have a greater capacity to use lipid reserves to sustain their metabolic needs. These observations add to the body of evidence supporting the hypothesis that regional phenotypic variation observed in American eel is determined early in life and that part of this variation is likely under genetic control.

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Regards interdisciplinaires pour une meilleure adaptation territoriale aux changements climatiques

et al. 2019

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Un colloque réunissant chercheurs en sciences sociales et naturelles, agents territoriaux et élus de la région Nouvelle-Aquitaine s’est intéressé à l’articulation des sciences et des sociétés dans le défi de l’adaptation des changements climatiques. Des expérimentations locales et des avancées de la recherche ont été présentées et des différents points de vue ont été partagés. De jeunes chercheurs ont discuté de la nouvelle place des scientifiques dans l’action climatique et de la vision anthropocentrée, de la dimension économique de l’adaptation et des verrous à la prise de décision. La nécessité de structurer des espaces d’échanges entre acteurs territoriaux, de créer un langage commun, de tenir compte du vivant et de la dimension socioculturelle a émergé de cette rencontre, visant à renforcer les moyens de l’efficience des stratégies d’adaptation territoriales.

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River‐Specific Gene Expression Patterns Associated with Habitat Selection for Key Hormone‐Coding Genes in Glass Eel‐Stage American Eels

et al. 2018

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The glass eel stage of the American Eel Anguilla rostrata marks the onset of the catadromous migration into estuarine or freshwater habitats, and the endocrine mechanisms underlying this habitat selection are still not well understood. Using a candidate genes approach, the aim of this study was to test for different patterns of gene expression related to (1) salinity preferences and/or (2) capture site to predict physiological differences between migratory behaviors. We performed analyses revealing the expression of genes coding for key hormonal factors or their receptors on glass eel‐stage American Eels collected at the mouths of three rivers on the east coast of Canada (Grande‐Rivière‐Blanche, St. Lawrence estuary; Rivière‐Saint‐Jean, Gaspé Peninsula; and the Mersey River, Nova Scotia); eels from the three systems displayed different salinity preferences (brackish water/salt water/freshwater) under laboratory conditions. Transcripts from genes coding for prolactin (PRL), thyroid‐stimulating hormone β subunit, type‐2 iodothyronine deiodinase (DIO‐2), thyroid hormone receptors αa and αb (THRαa and THRαb), growth hormone (GH), insulin‐like growth factor 1 (IGF‐1), and their respective receptors (GH‐R1 and IGF‐1R) were all detected in glass eels. No differences in the expression patterns were detected pertaining to salinity preference, but strong differences were found among rivers. Rivière‐Saint‐Jean glass eels, which were the longest and the least pigmented among the three rivers, were characterized by the highest expression of PRL, DIO‐2, and THRαb. Those from Grande‐Rivière‐Blanche showed an increase in IGF‐1R. Glass eels captured from these two rivers also exhibited the highest expression of GH and GH‐R1. Overall, these results confirm gene × environment interactions at the gene expression level when glass eels settle into their continental habitat. As such, our results also support the concept of the presence of different ecotypes in the Atlantic Canadian coast and in the estuary and Gulf of St. Lawrence.

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New insights into detecting alizarin from autofluorescence in marked glass eels

Gaillard

Parlanti

Sourzac

et al. 2022

Sci Rep

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Alizarin detection in fish fins is extensively employed because it is easy to use. However, in eels, the eelGFP fluorescent protein may impede the detection of the fluorescent markers in the eel tissues. The study tests the effectiveness of three of the most up-to-date alizarin-detecting technologies on the living body and fins of European glass eels (Anguilla anguilla L.). The findings demonstrated that the control group had a high autofluorescence at alizarin and eelGFP maxima bands. With fluorescence reflectance imaging (FRI), the eel living body autofluorescence impeded the detection of the marked eels. In contrast with experimental excitation-emission-matrix (EEM) fluorescence analyses, 99% of the marked eels were correctly assigned to their group from fluorescence analyses of their fin cellular contents. With epifluorometry (EPI), 100% of the marked eels were detected with the caudal fin tips when excited at 450–490 nm wavelengths due to a weaker autofluorescence signal. EEM and FRI assays unveiled an average fluorescence quenching 60% and 44% of the marked group respectively, in the alizarin and eelGFP maxima bands. The fluorescence quenching observed is discussed. Results will benefit experimental design by examining autofluorescence effects on mark detection and the development of non-invasive detection methods in this critically endangered species.

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