Your search keyword '"Ferraton F"' showing total 7 results

1. Shedding light on the migratory patterns of the Amazonian goliath catfish, Brachyplatystoma platynemum, using otolith Sr-87/Sr-86 analyses

Author

Hauser, M., Doria, C. R. C., Santos, R. V., Garcia-Vasquez, A., Pouilly, Marc, Pecheyran, C., Ponzevera, E., Torrente-Vilara, G., Berail, S., Panfili, Jacques, Darnaude, A., Renno, Jean-François, Garcia-Davila, C., Nunez Rodriguez, Jesus, Ferraton, F., Vargas, G., and Duponchelle, Fabrice

Subjects

fish, hydroelectric dams, river, catchment, migration, conservation evaluation, fishing

Abstract

In the Amazon, migratory catfishes of the genus Brachyplatystoma are apex predators that are important for fisheries and conservation. The life cycle of Brachyplatystoma platynemum Boulenger, 1898 is poorly known, although it has been hypothesized to be very similar to that of Brachyplatystoma rousseauxii Castelnau, 1855, which uses the entire length of the Amazon basin to complete its life cycle (from the Andes to the estuary). This study provides the first data on the migratory patterns of B.platynemum at the individual level using otolith microchemistry. In total, 94 individuals were sampled close to major breeding areas in the Amazon basin (78 fish from the middle and upper Madeira River and 14 fish from the upper Amazon), and their lifetime movements were assessed by measuring variations in Sr-87/Sr-86 along transverse sections of their otoliths (ear stones), using laser ablation multi-collector mass spectrometry (LA-MC-ICP-MS). The migrations of B.platynemum are not as extensive as those of B.rousseauxii, and do not involve natal homing. Furthermore, the estuary is not a nursery area, at least for fish hatched in the Madeira. Nevertheless, B.platynemum migrates several thousand kilometres within the Amazon basin, with transboundary displacements between at least Bolivia, Brazil, and Peru. Current and planned hydroelectric development in the Amazon basin will severely disrupt both migration and access to breeding grounds, ultimately affecting the recruitment and population dynamics of these apex predators. The conservation of B.platynemum is crucial for the stability of the Amazonian aquatic food webs. This requires building effective fish passage on the two existing Madeira dams and considering alternative options to the large-scale hydropower development in the Amazon basin.

Published

2019

2. Does spatio-temporal variation in diet affect condition and abundance of European hake (/Merluccius merluccius/) juveniles in the Gulf of Lions (NW Mediterranean) ?

Author

Ferraton, F., Harmelin-Vivien, M., Mellon-Duval, C., Souplet, A., Diversité, évolution et écologie fonctionnelle marine (DIMAR), Université de la Méditerranée - Aix-Marseille 2-Centre National de la Recherche Scientifique (CNRS), and Centre National de la Recherche Scientifique (CNRS)-Université de la Méditerranée - Aix-Marseille 2

Subjects

[SDE.BE]Environmental Sciences/Biodiversity and Ecology

Published

2007

3. Nutrient recycling by coastal macrofauna: intra- versus interspecific differences

Author

Villéger, S, primary, Ferraton, F, additional, Mouillot, D, additional, and de Wit, R, additional

Published

2012

4. Spatio-temporal variation in diet may affect condition and abundance of juvenile European hake in the Gulf of Lions (NW Mediterranean)

Author

Ferraton, F, primary, Harmelin-Vivien, M, additional, Mellon-Duval, C, additional, and Souplet, A, additional

Published

2007

5. An invasive herbivorous fish (Siganus rivulatus) influences both benthic and planktonic microbes through defecation and nutrient excretion.

Author

Escalas A, Avouac A, Belmaker J, Bouvier T, Clédassou V, Ferraton F, Rieuvilleneuve F, Rilov G, Rovirosa Mulet A, Shapiro Goldberg D, and Villéger S

Subjects

Animals, Defecation, Fishes, Mediterranean Sea, Nutrients, Ecosystem, Plankton

Abstract

Direct and indirect impacts by invasive animals on plants and other animals through predation and competition have been evidenced in many ecosystems. For instance, the rabbitfish Siganus rivulatus, originating from the Red Sea, is now the most abundant species in costal habitats of South-Eastern Mediterranean Sea where it overgrazes algae. However, little is known about its impacts on microbes through release of metabolic wastes and feces. We used a mesocosm experiment to test the effect of S. rivulatus on planktonic and benthic microbial communities. Excretion of dissolved nutrients by fish resulted in higher concentrations of dissolved inorganic nitrogen (NH 4 , NO 2 /NO 3 ). This increase in availability of N was associated with higher N content in macroalgae, higher biomass of phytoplankton, higher abundance of bacterioplankton and shift in the structure of planktonic bacterial communities. The feces released mostly under the shelters where the fish rest at night, led to significant increases in diversity of sediment bacterial communities and shifts in their structure. The impact of S. rivulatus on planktonic microbes was related to the indirect bottom-up effect induced by excreted dissolved nutrients while its effect on benthic microbes was due to the direct release of both organic matter and microbes present in feces. Overall, this first evidence of the impacts of invasive species on planktonic and benthic microbes highlights that ongoing changes in fish biodiversity could have ecosystem-wide consequences., Competing Interests: Declaration of competing interest The authors declare that they are not competing any interests relative to this work., (Copyright © 2022 Elsevier B.V. All rights reserved.)

Published

2022

6. Species ecology explains the spatial components of genetic diversity in tropical reef fishes.

Author

Donati GFA, Zemp N, Manel S, Poirier M, Claverie T, Ferraton F, Gaboriau T, Govinden R, Hagen O, Ibrahim S, Mouillot D, Leblond J, Julius P, Velez L, Zareer I, Ziyad A, Leprieur F, Albouy C, and Pellissier L

Subjects

Animals, Biodiversity, Body Size, Evolution, Molecular, Genetic Variation, Coral Reefs, Fishes genetics

Abstract

Generating genomic data for 19 tropical reef fish species of the Western Indian Ocean, we investigate how species ecology influences genetic diversity patterns from local to regional scales. We distinguish between the α , β and γ components of genetic diversity, which we subsequently link to six ecological traits. We find that the α and γ components of genetic diversity are strongly correlated so that species with a high total regional genetic diversity display systematically high local diversity. The α and γ diversity components are negatively associated with species abundance recorded using underwater visual surveys and positively associated with body size. Pelagic larval duration is found to be negatively related to genetic β diversity supporting its role as a dispersal trait in marine fishes. Deviation from the neutral theory of molecular evolution motivates further effort to understand the processes shaping genetic diversity and ultimately the diversification of the exceptional diversity of tropical reef fishes.

Published

2021

7. Within-Generation Polygenic Selection Shapes Fitness-Related Traits across Environments in Juvenile Sea Bream.

Author

Rey C, Darnaude A, Ferraton F, Guinand B, Bonhomme F, Bierne N, and Gagnaire PA

Subjects

Animals, Ecosystem, Environment, Gene Frequency, Multifactorial Inheritance genetics, Polymorphism, Single Nucleotide genetics, Quantitative Trait Loci genetics, Gene-Environment Interaction, Genetic Fitness genetics, Sea Bream genetics, Selection, Genetic genetics

Abstract

Understanding the genetic underpinnings of fitness trade-offs across spatially variable environments remains a major challenge in evolutionary biology. In Mediterranean gilthead sea bream, first-year juveniles use various marine and brackish lagoon nursery habitats characterized by a trade-off between food availability and environmental disturbance. Phenotypic differences among juveniles foraging in different habitats rapidly appear after larval settlement, but the relative role of local selection and plasticity in phenotypic variation remains unclear. Here, we combine phenotypic and genetic data to address this question. We first report correlations of opposite signs between growth and condition depending on juvenile habitat type. Then, we use single nucleotide polymorphism (SNP) data obtained by Restriction Associated DNA (RAD) sequencing to search for allele frequency changes caused by a single generation of spatially varying selection between habitats. We found evidence for moderate selection operating at multiple loci showing subtle allele frequency shifts between groups of marine and brackish juveniles. We identified subsets of candidate outlier SNPs that, in interaction with habitat type, additively explain up to 3.8% of the variance in juvenile growth and 8.7% in juvenile condition; these SNPs also explained significant fraction of growth rate in an independent larval sample. Our results indicate that selective mortality across environments during early-life stages involves complex trade-offs between alternative growth strategies.

Published

2020