Your search keyword '"Geffroy, Benjamin"' showing total 12 results

1. Thermal modulation of energy allocation during sex determination in the European sea bass (Dicentrarchus labrax)

Author

Tovar-Bohórquez, Oswaldo, McKenzie, David, Crestel, Damien, Vandeputte, Marc, and Geffroy, Benjamin

Published

2024

2. Post-larval exposure to warm temperature enhances female ratio, while starvation and photoperiod do not: The case of European seabass, Dicentrarchus labrax

Author

Clota, Frédéric, Goikoetxea, Alexander, Vergnet, Alain, Blanc, Marie-Odile, Lallement, Stéphane, Ruelle, François, Leitwein, Maeva, Allal, François, Geffroy, Benjamin, and Vandeputte, Marc

Published

2024

3. Altered ovarian transcriptome is linked to early mortality and abnormalities in zebrafish embryos after maternal exposure to gamma irradiation

Author

Guirandy, Noëmie, Armant, Olivier, Frelon, Sandrine, Pierron, Fabien, Geffroy, Benjamin, Daffe, Guillemine, Houdelet, Camille, Gonzalez, Patrice, and Simon, Olivier

Published

2023

4. A novel method to individually track spawning females in aquaculture tanks using the European sea bass (Dicentrarchus labrax) as a model

Author

Lallement, Stephane, Bengue, Allan, and Geffroy, Benjamin

Published

2022

5. Energy as the cornerstone of environmentally driven sex allocation.

Author

Geffroy, Benjamin

Subjects

*SEX allocation, *ENVIRONMENTAL sex determination, *GENETIC sex determination, *SEX (Biology), *CARBOHYDRATE metabolism

Abstract

In recent years, observations of distinct organisms have linked the quality of the environment experienced by a given individual and the sex it will develop. In most described cases, facing relatively harsh conditions resulted in masculinization, while thriving in favorable conditions promoted the development of an ovary. This was shown indistinctively in some species presenting a genetic sex determination (GSD), which were able to sex-reverse, and in species with an environmental sex determination (ESD) system. However, this pattern strongly depends on evolutionary constrains and is detected only when females need more energy for reproduction. Here, I describe the mechanisms involved in this environmentally driven sex allocation (EDSA), which involves two main energy pathways, lipid and carbohydrate metabolism. These pathways act through various enzymes and are not necessarily independent of the previously known transducers of environmental signals in species with ESD: calcium–redox, epigenetic, and stress regulation pathways. Overall, there is evidence of a link between energy level and the sexual fate of individuals of various species, including reptiles, fish, amphibians, insects, and nematodes. As energy pathways are evolutionarily conserved, this knowledge opens new avenues to advance our understanding of the mechanisms that allow animals to adapt their sex according to the local environment. The quality of the environment directly or indirectly influences the sex of a variety of species. The phenotypic sex of some animals is linked to energy level at a given, key moment. Regulation of lipid and carbohydrate metabolism is involved in the process. This change in metabolism is accompanied by changes in stress hormone levels and epigenetic modifications. Findings in invertebrates, fish, amphibians, and reptiles open new avenues in our understanding of sex allocation in mammals. [ABSTRACT FROM AUTHOR]

Published

2022

6. The Adaptive Sex in Stressful Environments.

Author

Geffroy, Benjamin and Douhard, Mathieu

Subjects

*ANIMAL offspring sex ratio, *ECOLOGY, *SCIENTISTS, *SEX ratio, *SEX determination, *GLUCOCORTICOIDS, *SEX differentiation (Embryology)

Abstract

The impact of early stress on juvenile development has intrigued scientists for decades, but the adaptive significance of such effects remains an ongoing debate. This debate has largely ignored some characteristics of the offspring, such as their sex, despite strong evolutionary and demographic implications of sex-ratio variation. We review recent studies that examine associations between glucocorticoids (GCs), the main class of stress hormones, and offspring sex. Whereas exposure to GCs at around the time of sex determination in fish consistently produces males, the extent and direction of sex-ratio bias in response to stress vary in reptiles, birds, and mammals. We propose proximate and ultimate explanations for most of these trends. Offspring sex ratios have been shown to correlate with environmental stressors and maternal stress in many vertebrate species. There is an adaptive advantage for parents to produce the sex that is more likely to survive and reproduce in a future hazardous environment. In the fastest life histories, there is more likely to be a close good match between the environment around sex determination and the future environment of the offspring. GCs are key messengers of environmental contexts that likely influence the sex-determination processes of various species. A combination of field and laboratory studies will be necessary to understand the extent to which stress influences offspring sex from conception to birth. [ABSTRACT FROM AUTHOR]

Published

2019

7. Kleptoparasitism and aggressiveness are influenced by standard metabolic rate in eels.

Author

Geffroy, Benjamin, Bolliet, Valérie, and Bardonnet, Agnès

Subjects

*KLEPTOPARASITISM, *ANIMAL aggression, *EELS, *OXYGEN consumption, *FORAGING behavior, *PHYSIOLOGY, *ANIMAL behavior, *REPRODUCTION, *FISHES

Abstract

Kleptoparasitism refers to either interspecific or intraspecific stealing of food already procured by other species or individuals. Within a given species, individuals might differ in their propensity to use such a tactic, in a similar manner to which they differ in their general level of aggressiveness. Standard metabolic rate is often viewed as a proxy for energy requirements. For this reason, it should directly impact on both kleptoparasitism and aggressiveness when individuals have to share the same food source. In the present study we first assessed the standard metabolic rate (SMR) of 128 juvenile European eels ( Anguilla anguilla ) by the determination of oxygen consumption. We then tested how the SMR could influence agonistic behavior of individuals competing for food in three distinct trials evenly distributed over three months. We demonstrate that SMR positively correlates with attacks (sum of bite and push events) in all trials. Similarly SMR correlated positively with kleptoparasitism (food theft), but this was significant only for the third trial (month 3). To our knowledge, the present study is the first reporting a link between kleptoparasitism and SMR in a fish species. This has ecological implications owing to the fact that this species is characterized by an environmental sex determination linked to early growth rate. We discuss theses findings in the light of the producer-scrounger foraging game. [ABSTRACT FROM AUTHOR]

Published

2016

8. How Nature-Based Tourism Might Increase Prey Vulnerability to Predators.

Author

Geffroy, Benjamin, Samia, Diogo S.M., Bessa, Eduardo, and Blumstein, Daniel T.

Subjects

*PREDATION, *WILDLIFE management, *TOURISM, *POPULATION biology, *DEMOGRAPHIC change

Abstract

Tourism can be deleterious for wildlife because it triggers behavioral changes in individuals with cascading effects on populations and communities. Among these behavioral changes, animals around humans often reduce their fearfulness and antipredator responses towards humans. A straightforward prediction is that habituation to humans associated with tourism would negatively influence reaction to predators. This could happen indirectly, where human presence decreases the number of natural predators and thus prey become less wary, or directly, where human-habituated individuals become bolder and thus more vulnerable to predation. Building on ideas from the study of traits associated with domestication and urbanization, we develop a framework to understand how behavioral changes associated with nature-based tourism can impact individual fitness, and thus the demographic trajectory of a population. [ABSTRACT FROM AUTHOR]

Published

2015

9. Multiple working hypotheses for hyperallometric reproduction in fishes under metabolic theory.

Author

Sadoul, Bastien, Geffroy, Benjamin, Lallement, Stephane, and Kearney, Michael

Subjects

*EUROPEAN seabass, *FISH reproduction, *POPULATION dynamics, *REPRODUCTION, *HYPOTHESIS, *LIFE history theory

Abstract

Hyperallometric reproduction, whereby large females contribute relatively more to the renewal of the population than small females, is purported to be widespread in wild populations, especially in fish species. Bioenergetic models derived from a sufficiently general metabolic theory should be able to capture such a relationship but it was recently stated that no existing models adequately capture hyperallometric reproduction. If this were true it would seriously challenge our capacity to develop robust predictions of the life history and population dynamics in changing environments for many species. Here, using the European sea bass (Dicentrarchus labrax) as a test case, we demonstrate multiple ways that hyperallometric reproduction in a population may emerge from the Dynamic Energy Budget (DEB) theory, some inherently related to the metabolism and life history and others related to plastic or genetically based intraspecific variation. In addition, we demonstrate an empirical and modelled hypoallometric scaling of reproduction in this species when environment is controlled. This work shows how complex metabolic responses may underlie apparently simple relationships between weight and reproduction in the wild and provides new and testable hypotheses regarding the factors driving reproductive scaling relationships found in the wild. [ABSTRACT FROM AUTHOR]

Published

2020

10. Nature-Based Tourism and Prey Vulnerability to Predators: A Reply to Fitzgerald and Stronza.

Author

Geffroy, Benjamin, Samia, Diogo S.M., Bessa, Eduardo, and Blumstein, Daniel T.

Subjects

*BIOLOGICAL evolution, *REPRODUCTION, *PREY availability, *NATURE study, *ECOLOGICAL research

Published

2016

11. Coping styles in European sea bass: The link between boldness, stress response and neurogenesis.

Author

Alfonso, Sébastien, Sadoul, Bastien, Gesto, Manuel, Joassard, Lucette, Chatain, Béatrice, Geffroy, Benjamin, and Bégout, Marie-Laure

Subjects

*EUROPEAN seabass, *FISH tagging, *CONFORMANCE testing

Abstract

Coping styles consist of a coherent set of individual physiological and behavioral differences in stress responses that are consistent across time and context. Such consistent inter-individual differences in behavior have already been shown in European sea bass (Dicentrarchus labrax), but the associated mechanisms are still poorly understood. Here, we combine physiological measurements with individual behavioral responses in order to characterize coping styles in fish. Fish were tagged and placed in a tank for group risk-taking tests (GRT) at 8 months of age to evaluate boldness using the proxy latency of leaving a sheltered area towards an open area. A subsample of these fish were individually challenged 16 months later using an open field test (OFT), in which the boldness was assessed after being placed in a shelter within an open arena. Latency to exit the shelter, time spent in the shelter, and distance travelled were recorded for this purpose. The blood and brain were then collected to evaluate plasma cortisol concentration and neurotransmitter levels (dopamine, norepinephrine, serotonin, and related metabolites), as well as brain transcription of key genes involved in stress axis regulation (gr1, gr2 , mr, crf), neurogenesis (neurod1, neurod2, pcna), and neuronal development (egr1). Fish acting bolder in the GRT were not necessarily those acting bolder in the OFT, highlighting the relatively low consistency across different types of tests performed with a 16-months interval. There was, however, a significant correlation between stress markers and boldness. Indeed, mRNA levels of mr, crf, gr2, egr1 , and neurod2 , as well as norepinephrine levels were higher in shy than bold fish, whereas brain serotonergic activity was lower in shy fish. Overall, our study highlights the fact that boldness was not consistent over time when testing context differed (group vs. alone). This is in agreement with previous literature suggesting that social context play a key role in boldness measurement and that the particular life history of each individual may account in shaping the personality fate of a fish. • Boldness is not consistent when characterized using different types of test over an interval period of 16 months (group vs. individual tests). • After open field test, plasma cortisol concentration is similar between bold and shy fish. • Shy fish, however, display higher level of transcription of mr , gr2 , crf , egr1 and neurod2 (trend) in the whole brain. • Shy fish display higher level of norepinephrine and lower turnover ratio between serotonin and s hydroxyindoleacetic acid in the whole brain. [ABSTRACT FROM AUTHOR]

Published

2019

12. Genetic pathways underpinning hormonal stress responses in fish exposed to short- and long-term warm ocean temperatures.

Author

Goikoetxea, Alexander, Sadoul, Bastien, Blondeau-Bidet, Eva, Aerts, Johan, Blanc, Marie-Odile, Parrinello, Hugues, Barrachina, Célia, Pratlong, Marine, and Geffroy, Benjamin

Subjects

*EUROPEAN seabass, *THERMAL stresses, *FISHERIES, *FISH populations, *CLIMATE change, *OCEAN temperature, *BROOD stock assessment, *CORAL bleaching

Abstract

• Small within-day increases in temperature are physiologically stressful. • Whole-fish transcriptomic analysis revealed a signature of warming. • Fish kept at high temperature accumulate more cortisol in scales than those kept at low temperature. • We propose fish scales as a relevant indicator of global warming in wild populations. Changes in ocean water temperature associated with global climate change are bound to enormously affect fish populations, with potential major economic consequences in the aquaculture and fisheries industries. A link between temperature fluctuations and changes in fish stress response is well established. In this study, we aimed to assess the effects of a short- (4 days) or a long-term (4 months) exposure to warm temperature in the stress physiology of European sea bass (Dicentrarchus labrax) larvae and juveniles. First, cortisol (i.e. the main stress hormone in fishes) analysis was used to confirm that a steady and short-term elevation of temperature acts as a physiological stressful event in these fish, and cortisol release is indeed above a metabolic increase linked to temperature. Moreover, our results verified that measurement of cortisol released into the water can be reliably employed as a non-invasive indicator of acute thermal stress in experimental conditions. Secondly, the different effects on the genetic cascade underlying the stress response between long-term low or high thermal treatments were evaluated at two larval development stages via candidate-gene and whole-transcriptome approaches. Interestingly, opposite expression for some key stress genes (nr3c1, nr3c2 and hsd11b2) were observed between developmental stages, highlighting the distinct adaptive mechanisms controlling the primary and secondary responses to a stressor. Surprising expression patterns for some understudied genes involved in the stress axis were also revealed, including crhr1, mc2r, mc5r, trh or trhr, which should be further explored. Finally, evaluation of cortisol content in scales was successfully used as a biomarker of chronic thermal stress, with 10x more cortisol in fish kept at 21 °C vs 16 °C after 4 months, supporting the gene expression results observed. The use of such a method as a proxy of long-term stress, unprecedented in the literature, holds a vast array of applications in further research, in particular, in the investigation of the impact of global warming on wild fish populations. [ABSTRACT FROM AUTHOR]

Published

2021