Directeur de Recherche CNRS

luis-miguel.chevin[at]cefe.cnrs.fr

I am interested in adaptive evolution in response to changing environments: its ecological causes, phenotypic and genetic underpinnings, and demographic consequences. 

 

Chargée de recherche au CNRS CEFE UMR5175 Campus du CNRS 1919, route de Mende F-34293 Montpellier cedex 5 France Tél : +33 4 67 61 32 19 Fax : +33 (0) 4 67 61 33 36 Courriel : Cette adresse e-mail est protégée contre les robots spammeurs. Vous devez activer le JavaScript pour la visualiser. ORCID 0000-0002-2227-0410 bureau 2-C-203

 

 

 

 

 

 

 

 

 

 

 

Mots-clés :
Interdisciplinarity, Chemical ecology, Sensory ecology, Specialized metabolism, Volatile organic compounds, Plant-insect interactions, Pollination ecology, Adaptation of interactions to global change, Atmospheric pollution, fig-fig wasp interactions, Mediterranean region, Tropical Region.

 

Mes recherches portent sur les interactions interspécifiques, plus particulièrement entre plantes et insectes. Mes projets de recherche s´intègrent dans le domaine de l´écologie chimique. En favorisant une approche interdisciplinaire combinant la chimie analytique, l’écologie comportementale, la physiologie sensorielle et la biologie évolutive, j’ai étudié le rôle de la médiation chimique, particulièrement via les composés organiques volatils (COVs), dans le fonctionnement d’interactions de différents types : pollinisation, herbivorie, parasitisme et reconnaissance entre partenaires sexuels. Je travaille aussi bien dans des écosystèmes méditerranéens que tropicaux.

 

My research focuses on interspecific interactions, particularly between plants and insects. My research projects are in the field of chemical ecology. Favoring an interdisciplinary approach combining analytical chemistry, behavioral l ́ecology, sensory physiology and evolutionary biology, I have studied the role of chemical mediation, particularly via volatile organic compounds (VOCs), in the functioning of different types of interactions: pollination, herbivory, parasitism and recognition between sexual partners. I work in both Mediterranean and tropical ecosystems.

Thématiques français

Je consacre une partie de mes activités de recherche à la caractérisation des mécanismes évolutifs impliqués dans la nature des messagers chimiques ainsi que la détection de ces composés dans les interactions plantes-pollinisateurs. L’autre axe de mes recherches porte sur l ́impact des changements environnementaux globaux, principalement climatiques et de concentrations en polluants atmosphériques, sur la communication chimique plantes-pollinisateurs. Ces deux axes de recherches sont abordés de manière originale et intégrative car je m’intéresse aussi bien aux pressions de sélections qu’aux sources de variations proximales qui peuvent affecter l’émission des COVs, leur stabilité dans l’atmosphère que leur détection par les pollinisateurs. Une originalité forte de mon approche est que je cherche à connecter différentes disciplines afin d’étudier conjointement les deux fonctions principales des COVs émis par les plantes : défenses contre des stress (abiotiques et biotiques) et reproduction.

 

Anglais

I dedicate part of my research activities to characterizing the evolutionary mechanisms involved in the nature of chemical messengers and the detection of these compounds in plant-pollinator interactions. The other part of my research focuses on the impact of global environmental changes, mainly climatic and atmospheric pollutant concentration changes, on plant-pollinator chemical communication. These two areas of research are approached in an original and integrative way, as I am interested in both selection pressures and sources of proximal variations that can affect the emission of VOCs, their stability in the atmosphere and their detection by pollinators. A strong originality of my approach is that I attempt to connect different disciplines in order to jointly study the two main functions of VOCs emitted by plants: defense against stresses (abiotic and biotic), and reproduction.

 

Projects since 2019

POLLURISK project, MUSE (Montpellier University of Excellence): Impact of ozone POLLUtion, in the context of climate change, on plant-pollinator chemical communication: RISQue pour la résilience des services écosystémiques (2018-2022, 150 k€, PI).

ExpOz project, ANSES: Determination of ozone exposure threshold values for the resilience of plant-insect chemical communication (2019-2022, 200 k€, PI).

Partners: IMBE; LCE; LBVpam; FLP-UAE (Morocco).

The aim of these two projects was to characterize the effect of ozone pollution (O₃) on chemical communication in two types of plant-pollinator interactions: the highly specialized and obligatory interaction between the cultivated fig tree and its pollinating wasp, and the generalist interaction between lavender and the honey bee. At the end of this project, we will define tolerance thresholds for the resilience of these two interactions to a major pollutant.

IRP Chine MOST project, CNRS-INEE: "Figs and fig-wasps: a model system to investigate biotic interaction network responses to global change" (2018-2022 then 2025-2029, 100 k€, PI). Partners: XTBG ; SCBG.

The aim of the IRP was to generate basic knowledge on the impact of increasing levels of carbon dioxide (CO₂) and O₃on the stability of interaction networks and, more specifically, on the ecosystem services of pollination. For this, we used a model system, the specific mutualism between Ficus and fig insects. We studied how insects' attraction to the VOCs produced by their specific host plant was affected by high concentrations of O₃and CO₂through comparative studies conducted between three regions with high and variable tropospheric O₃ concentrations, southern France, southern Yunnan and Guangdong.

Chime2 project, PRIME 80 CNRS-INEE-IC: Biochemical constraints and ecological selection pressures in the evolution of volatile organic compounds responsible for pollinator attraction (2019-2022, 150 k€, PI) Partners: XTBG; LBVpam ; ICN.

The main objective of this project was to understand the evolutionary dynamics of floral VOC emission. Using fig trees, the aim was to understand the involvement of biochemical constraints, linked to volatile biosynthesis pathways, as well as ecological selection pressures in the establishment of VOCs responsible for attracting specialized pollinators. This approach will enable more general conclusions to be drawn on the mechanisms of co-evolution and co-adaptation at the level of chemical communication in plant-pollinator mutualistic interactions.

ASPI project, ANSES: Wild bees in the city: effects of urban pollutants on insect health and plant-pollinator interactions (2020-2024, 200 k€, WP manager). Partners: EEP; University of Mons (Belgium).

Thisproject aims to understand the effects of exposure of wild pollinators to urban pollutants (PAHs and phthalates), by combining several approaches. This will involve: (Axis 1) determining the nature and levels of contamination of wild bees living in cities (Axis 2) exploring the effects of living in low vs. highly polluted sites on pollinator health, the attractiveness of floral resources and the quality of pollen produced (Axis 3) characterizing the individual and colonial effects of exposure under controlled conditions to realistic mixtures of families of these contaminants.

COMIX project, French Embassy in China: Comparative study of the effect of O₃ concentration on the behavior of different species of fig tree pollinators (2019-2020, 13 k€, PI). Partners: XTBG; SCBG (China).

The aim of the project was to compare the sensitivity of different species of fig pollinators to different concentrations of O₃.

PolluCom project, ANR: "Effects of ozone pollution on plant-pollinator chemical communication under global warming, consequences for their interactions" (2023-2026, 702 k€, PI) Partners: LBVpam; IEES and Ecotron de Montpellier.

The aim of this project is to test the individual and combined effects of the two stress factors, O₃and temperature, on two pollination systems with different levels of specialization and with a focus on studying the mechanisms of action of O₃, using a broadly interdisciplinary approach. Both environmental stressors are expected to have an impact on plant and pollinator physiology, affecting, respectively, the emission of VOCs and their perception. These effects would emerge in particular from changes in the expression of genes involved in VOC biosynthesis and olfaction. We predict that these changes will disrupt plant-pollinator chemical communication and thus their interaction, with the generalist pollination system being more resilient than the specialist.

BeeMed project, ANSES: Resilience of bees to global changes through the prism of self-medication (2023-2025, 200 k€, P). Partners: ECOBIO; IMBE.

This project aims to define the capacity of different wild bee species to adapt to air pollution and climate change. More specifically, we will test the nutritional and self-medication resilience of bees by considering the spatiotemporal heterogeneity of environmental stressors and characterizing antioxidant resources within flowering plant pollen.

IRP Thailand SPECIFLY, CNRS-INEE project: "Characterization little-known of biodiversity: Ecology and evolution of specialized pollination by flies" (2023-2027, 10k€/year P). Partner: Chulalongkorn University.

This project aims to compare pollinator attraction strategies in two phylogenetically distant plant genera,Ceropegia (Thailand) andAristolochia (France), some of whose species have converged on the same deceptive pollination strategy. In addition to establishing a solid collaboration with the Thai team, this project opens up new prospects for understanding the factors governing the evolution of floral specialization.

Air pollution project, CAS: "Effects of air pollution on chemical communication between species - a case study of figs and fig wasps".  (2023-2026, 400 k€/ WP manager).  Partner: SCBG.

The aim of the project is to provide basic knowledge on the impact of air pollution on the stability of the interaction network between insects and plants. To this end, the effects of major pollutants (O₃, NO_X) on fig odor and the response of fig wasps to this variation in the Guangdong-Hong Kong-Macao Bay regionwill be investigated.

IRN China project, Virtual Institute on Biodiversity, CAS-CNRS (2024-2028, 15k€/year PI). Partners:  researchers from 25 different units.

The virtual institute comprises a steering committee and around 15 pairs of principal investigators from CAS and CNRS institutes. The main objective of this IRN is to strengthen and develop Franco-Chinese collaboration on various aspects of biodiversity research through a network of scientists from both countries, and to set up an educational program for young scientists.

Blastosome project, Exposome-CNRS: A novel component of the fig exposome: its pollinator, the blastophage (2025-2026, 25k€ PI). Partners CRBM Montpellier (CNRS-INSB).

Our project is to study the disruptive effect of ozone pollution and rising temperatures on fig tree-blastophaga-Wolbachia-nematode interactions. We will draw on the complementary skills of a CNRS Biology team specializing in Wolbachia, nematodes and insect reproduction, and a CNRS Ecology & Environment team specializing in the chemical ecology and evolutionary biology of the Ficus-pollinator system.

 

Liste de publications

Blatrix R., Kidyoo A., Matrougui I., Samsungnoen P., McKey D., Proffit M., 2024. Mechanical stimulation of the stigmas triggers switch from female to male phase in the protogynous trap flower of Aristolochia rotunda (Aristolochiaceae). Mediterranean Botany, 45, e85906. https://doi.org/10.5209/mbot.85906

Dubuisson C, Worthan H, Garinie T, Hossaert-McKey M, Lapeyre B, Buatois B, Temime-Roussel B, Ormeño E, Staudt M, Proffit M. 2024. Ozone alters the chemical signal required for plant – insect pollination: the case of the Mediterranean fig tree and its specific pollinator. Science of the total environment 827.

Démares F, Gibert L, Lapeyre B, Creusot P, Renault D, Proffit M. 2024. Ozone exposure induces metabolic stress and olfactory memory disturbance in honey bees. Chemosphere, 140647.

Hmimsa Y, ·Ramet A, · Dubuisson C, · El Fatehi S, Hossaert-McKey M, · Kahi H, · Munch J, · Proffit M, · Salpeteur M, ·  Aumeeruddy-Thomas Y. 2024. Pollination of the Mediterranean fig tree, Ficus carica L.: Caprification practices and social networks of exchange of caprifigs among Jbala Farmers in Northern Morocco. Human Ecology 52, 289–302

Kidyoo A., Kidyoo M., Ekkaphan P., Blatrix R., McKey D, Proffit M., 2024. Specialized pollination by cecidomyiid flies and associated floral traits in Vincetoxicum sangyojarniae (Apocynaceae, Asclepiadoideae). Plant Biology, 26, 166-180. https://doi.org/10.1111/plb.13607

Cao L, Hmimsa Y, El fatehi S, Buatois B, Dubois MP, Le Moigne M, Hossaert‑McKey M, Aumeeruddy‑Thomas Y, Bagnères AG, Proffit M. 2023. Floral scent of the Mediterranean fig tree: significant inter‑varietal difference but strong conservation of the signal responsible for pollinator attraction. Scientific Reports | (2023) 13:5642 https://doi.org/10.1038/s41598-023-32450-6

Deng X, Buatois B, Peng YQ, Yu H, Cheng Y, Ge X, Proffit M, Kjellberg F. 2023. Plants are the drivers of geographic variation of floral odours in brood site pollination mutualisms: a case study of Ficus hirta. Acta Oecologica, 121,103952.

Fernandez C, Saunier A, Wortham H, Ormeño E, Proffit M, Lecareux C, Greff S, Van Tan D, Tuan MS, Hoan HD, et al. 2023. Mangrove’s species are weak isoprenoid emitters. Estuarine, Coastal and Shelf Science 283: 108256.

Demares F, Gibert L, Creusot P, Lapeyre B, Proffit M. 2022. Acute ozone exposure impairs detection of floral odor, learning, and memory of honey bees, through olfactory generalization. Science of the total environment 827.

Dubuisson C, Nicolè F, Buatois B, Hossaert-Mckey M, Proffit M. 2022. Tropospheric ozone alters the chemical signal emitted by an emblematic plant of the mediterranean region: the true lavender (Lavandula angustifolia Mill.). Frontiers in Ecology and Evolution, 10, ff10.3389/fevo.2022.795588ff. ffhal-03871592f

Kidyoo A., Kidyoo M., McKey D., Proffit M., Deconninck G., Wattana P., Uamjan N., Ekkaphan P., Blatrix, R., 2022. Pollinator and floral odor specificity among four synchronopatric species of Ceropegia (Apocynaceae) suggests ethological isolation that prevents reproductive interference. Scientific Reports, 12, 13788. https://doi.org/10.1038/s41598-022-18031-z

Kidyoo A, Kidyoo M, Blatrix R, Deconninck G, McKey D, Ekkaphan P, Proffit M. 2021. Molecular phylogenetic analysis and taxonomic reconsideration of Ceropegia hirsuta (Apocynaceae, Asclepiadoideae) reveal a novelty in Thailand, Ceropegia citrina sp. nov., with notes on its pollination ecology. Plant systematics and evolution 307.

Vanderplanck M., Lapeyre B., Brondani M., Opsommer M., Dufay M., Hossaert-McKey M., Proffit M. 2021. Ozone pollution alters olfaction and behavior of pollinators. Antioxidants 2021, 10, 636. https://doi.org/10.3390/antiox10050636

Vanderplanck M, Lapeyre B, Lucas S, Proffit M. 2021. Ozone induces distress behaviors in fig wasps with a reduced chance of recovery. INSECTS 12.

Dormont L, Fort T, Bessiere J, Proffit M, Hidalgo E, Buatois B, Schatz B. 2020. Sources of floral scent variation in the food-deceptive orchid Orchis mascula.Acta oecologica 107.

Proffit M., LapeyreB., Buatois B., Deng X.X., Arnal P., Gouzerh F., Carrasco D., Hossaert-McKey M. 2020. Chemical signal is in the blend: bases of plant-pollinator encounter in a highly specialized interaction. Scientific Reports 10:10071

Conchou L., Lucas P., Meslin C., Proffit M., Staudt M., Renou M. 2019. Insect odorscapes: from plant volatiles to natural olfactory scenes. Frontiers in Physiology, 10:972. doi: 10.3389/fphys.2019.00972 

Carrasco D.^*, Desurmont G.A.^*, Laplanche D., Proffit M., Gols R., Becher P.G., Larsson M.C., Turlings T.C.J., Anderson P. 2018. With or without you: effects of the concurrent range expansion of an herbivore and its natural enemy on native species interactions. Global Change Biology, 24(2):631-643.

Proffit M., Bessière J.M., Schatz B., Hossaert-McKey M. 2018. Can fine-scale post-pollination variation of fig volatile compounds explain some steps of the temporal succession of fig wasps associated with Ficus racemosa? Acta Oecologica, https://doi.org/10.1016/j.actao.2017.08.009.

Souto-Vilarós D., Proffit M., Buatois B., Rindos M., Sisol M., Kuyaiva T., Michalek J., Darwell C.T. , Hossaert-McKey M., Weiblen G. D. , Novotny V., Segar S.T. 2018 Pollination along an elevational gradient mediated both by floral scent and pollinator compatibility in the fig and fig-wasp mutualism. Journal of Ecology, 106:2256-2273.

Karlsson M.F., Proffit M., Birgersson. 2017. Host-plant location by the Guatemalan potato moth Tecia solanivora is assisted by floral volatiles.Chemoecology. 27(5):187-198.

Santonja M., Fernandez C., Proffit M., Gers C., Gauquelin T., Reiter I.M., Cramer W., Baldy V. 2017. Plant litter mixture partly mitigates the negative effects of extended drought on soil biota and litter decomposition in a Mediterranean oak forest. Journal of Ecology, doi: 10.1111/1365-2745.12711.

Hossaert-McKey M., Proffit M., Soler C., Chen C., Bessière J.M., Schatz B., Borges R.M. (2016). How to be a dioecious fig: Chemical mimicry between sexes matters only when both sexes flower synchronously. Scientific Reports 6, 21236.

Kjellberg F., Proffit M. (2016). Tracking the elusive history of diversification in plant-herbivorous insect-parasitoid food webs: insights from figs and fig-wasps.Molecular Ecology, 25, 843-845.

Proffit M., Khallaf M., Carrasco D., Larsson M. & Anderson P. (2015). Do you remember the first time? Host plant preference in a moth is modulated by experiences during larval and adult mating.Ecology Letters, 18, 365-374.

Schatz B., Proffit M., Kjellberg F., Hossaert-McKey M. (2013). Un réseau trophique complexe: le cas des figuiers associés à différentes communautés d’insectes.in : Des insectes et des plantes. Ed. Quae.

Charpentier M.J.E., Barthes N., Proffit M., Bessière J.M., Buatois B., Grison C. (2012). Critical thinking in the chemical ecology of mammalian communication: Roadmap for future studies.Functional Ecology, 26, 769-774.

Clavijo McCormick A.L., Karlsson M.F., Bosa C.F., Proffit M., Bengtsson M., Zuluaga M.V., Fukumoto T., Oehlschlager C., Cotes Prado A.L., Witzgall P. (2012). Mating disruption of Guatemalan Potato Moth Tecia solanivora by attractive and non-attractive pheromone blends.Journal of Chemical Ecology, 38, 63-70.

Cornille A., Underhill J.G., Cruaud A., Hossaert-McKey M., Johnson S.D., Tolley K.A., Kjellberg F., van Noort S., Proffit M. (2012). Floral volatiles, pollinator sharing and diversification in the fig–wasp mutualism: insights from Ficus natalensis, and its two wasp pollinators (South Africa).Proceedings of the royal society-B, 279, 1731-1739.

Soler C., Proffit M., Bessière J.M., Hossaert-McKey M., Schatz B. (2012). When males change their scents in presence of females, the case of the plant Ficus carica.Ecology letters, 15, 978-985.

Witzgall P., Proffit M., Rozpedowska E., Becher PG., Andreadis S., Coracini M., Lindblom TU., Rearn LJ., Hagman A., Bengtsson M., Kurtzman CP., Piskur J., Knight A. (2012). "This is not an Apple"-yeast mutualism in codling moth.Journal of Chemical Ecology, 38, 949-957.

Proffit M., Birgersson G., Bengtsson M., Witzgall P., Lima E. (2011). Attraction and oviposition of Tuta absoluta females (Lepidoptera: Gelechiidae) in response to tomato leave volatiles.Journal of Chemical Ecology, 37, 565-574.

Soler C., Hossaert-McKey M., Buatois B., Bessière J.M., Schatz B., Proffit M. (2011). Geographic variation of floral scent in a highly specialized pollination mutualism.Phytochemistry, 72, 74-81.

Hossaert-McKey M., Soler C., Schatz B., Proffit M. (2010). Floral scents: their roles in nursery pollination mutualisms.Chemoecology, 20, 75-88.

Soler C., Proffit M., Chen C., Hossaert-McKey M. (2010). Private channels in plant-pollinator mutualisms. Plant Signaling & Behavior, 7, 893-895.

Chen C., Song Q., Proffit M., Bessière J.M., Li Z., Hossaert-McKey M. (2009). Private channel: a single unusual compound assures specific pollinator attraction in Ficus semicordata.Functional Ecology, 23, 941-950.

Proffit M., Chen C., Soler C., Bessière JM., Schatz B., Hossaert-McKey M. (2009). Can chemical signals responsible for mutualistic partner encounter promote the specific exploitation of nursery pollination mutualisms? – The case of figs and fig wasps.Entomologia Experimentalis et Applicata, 131, 46-57.

Proffit M., Johnson S.D. (2009). Specificity of the signal emitted by figs to attract their pollinating wasps: Comparison of the volatile organic compounds produced by receptive syconia of Ficus sur and F. sycomorus in Southern Africa. South African Journal of Botany, 75, 771-777.

Proffit M., Schatz B., Bessière J.M., Chen C., Soler C., Hossaert-McKey M. (2008). Signalling receptivity: comparison of the emission of volatile compounds of figs of Ficus hispida before, during and after the phase of receptivity to pollinators.Symbiosis 45, 15-24.

Roy M., Dubois M.P., Proffit M., Vincenot L., Desmarais E., Selosse M.A. (2008). Evidence from population genetics that the ectomycorrhizal basidiomycete Laccaria amethystina is an actual multihost symbiont.Molecular Ecology 17, 2825-2838.

Proffit M., Schatz B., Borges R.M., Hossaert-McKey M. (2007). Chemical mediation and niche partitioning in non-pollinating fig-wasp communities.Journal of Animal Ecology 76, 296-303.

Schatz B., Proffit M., Rakhi B.V., Borges R.M., Hossaert-McKey M. (2006). Complex interactions on fig trees: ants capturing parasitic wasps as indirect mutualists of the fig-fig wasp interaction.Oikos 113, 344-352.

 

Directeur de recherche au CNRS

CEFE/CNRS
Campus du CNRS
1919, route de Mende
34293 Montpellier cedex 5

Tél : +33/0 4 67 61 33 10
Fax : +33/0 4 67 61 33 36
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Mots clés

Discipline : Ecologie évolutive, Ecologie comportementale, Ecophysiologie
Thématiques : Biologie des populations, Traits d’histoire de vie, Changements environnementaux, Hétérogénéité de l’habitat
Organismes biologiques : Aves, Parus (Mésanges)
Milieux : Région méditerranéenne, Milieux forestiers
Techniques :  Suivi d’individus marqués dans le cadre d’un programme à long terme
Autres mots clés : Interactions entre espèces, Ressources, Climat

Post-doctoral researcher

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I am an evolutionary and behavioural ecologist broadly interested in understanding the causes and consequences of phenotypic variation in behaviour, life-history and physiology across different hierarchical levels of organization. In my current postdoc with Anne Charmantier and Sandra Bouwhuis I focus on the evolutionary genetics of phenotypic plasticityusing a long-term data set of common terns (Sterna hirundo) from the North Coast of Germany.

E-mail: Cette adresse e-mail est protégée contre les robots spammeurs. Vous devez activer le JavaScript pour la visualiser.   Personnal website: http://lebonjourvousva.fr/cv/HOLVECK_Marie/index.php?l=gb#   I study how variation in signal production and perception influences (i) the evolution of signals in multiple sensory modalities (acoustic, visual and chemical domains) and (ii) the adaptation (through phenotypic plasticity and/or genetic variability) to different environments, a topic for which there is nowadays a growing interest in the new field of sensory ecology, notably to understand how species cope with their rapidly changing environment due to anthropogenic activities.

 

PhD candidate – Université de Montpellier

 

I’m a PhD student interested in evolutionary demography and population dynamics of wild populations. I’m currently working on the demography of Svalbard polar bears. I’m relying on 30+ years of data including mark-recapture data, tracking data, and more. I’m mainly using linear models, mark-recapture models and path analysis models in a Bayesian framework to study the determinants of reproductive output, trade-offs between traits, and such.

Supervisors: Sarah Cubaynes (EPHE, CEFE-CNRS), Jon Aars (Norwegian Polar Institute)

 

Contact information

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Orcid: 0000-0003-1489-9363
GitHub: MarwanNaciri

Directeur de Recherche / Senior scientist

I study the evolution of adaptive diversity, using colour patterns in butterflies as a model. In my group, we integrate many different approaches, including ecology, genetics, and modelling, to try and untangle how multiple factors influence the evolution and maintenance of diversity and polymorphisms.

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Post-doctorant

CEFE/CNRS
Campus du CNRS
1919, route de Mende
34293 Montpellier 5

Fax : +33/0 4 67 61 33 36

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Directeur de recherche ( DR1) CNRS tel : +33 (0)4 67 61 32 28 Cette adresse e-mail est protégée contre les robots spammeurs. Vous devez activer le JavaScript pour la visualiser.   Chercheur en Ecologie Evolutive, j'étudie l'évolution des systèmes de reproduction (sélection sexuelle, hermaphrodisme, autofécondation), et  la dynamique des communautés (bio-invasions, coexistence d'espèces) par des approches expérimentales, moléculaires, de terrain, et théoriques. J'enseigne la Génétique Quantitative à l'Université.    I am an evolutionary biologist. I study the evolution of mating systems (sexual selection, hermaphroditism, self-fertilization) as well as community eco-evolutionary dynamics (bio-invasions, species coexistence) through experimental, molecular, field, and theoretical approaches. I teach Quantitative Genetics.

 

Chargé de recherche au CNRS   Mon activité de recherche porte sur les aspects écologiques et évolutifs des interactions entre espèces. Les deux thèmes principaux que j'étudie sont les interactions entre plantes et insectes (pollinisation, symbioses), et les interactions entre ingénieurs d'écosystèmes dans la structuration du paysage.   My research activity is focused on the ecological and evolutionary aspects of inter-specific interactions. My two main study topics are plant-insect interactions (pollination, symbiosis), and the role of interactions among ecosystem engineers in landscape patterns.   Courriel : Cette adresse e-mail est protégée contre les robots spammeurs. Vous devez activer le JavaScript pour la visualiser.

Chargé de recherche CNRS (CRCN)

Tel : +33 (0)4 67 61 32 15

E-mail : prenom.nom [at] cefe.cnrs.fr

Directeur de recherche CNRS (DR2)

Tel : +33 (0)4 67 61 32 15

E-mail : firstname.name [at] cefe.cnrs.fr

Plus d'information sur mon site web personnel.

More information on my personal web site.

 

Chargée de Recherche, HDR

CEFE/CNRS
Campus du CNRS
1919, route de Mende
34293 Montpellier 5

Tél : +33/0 4 67 61 32 11

Stephanie.bedhomme[at]cefe.cnrs.fr

Founder of the team "Ecologie et Epidémiologie Evolutive"

EVOLEPID website

PUBLICATIONS

Google Scholar

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CURRENT POSITION
(Since 2010)  Director of research at CNRS - CEFE, Montpellier, France

Directeur de Recherche CNRS

CEFE
Campus du CNRS
1919, route de Mende
34293 Montpellier 5
Tél : +33/0 4 67 61 32 91
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@Th_Lenormand

My principal area of research is Evolutionary genetics and evolutionary ecology. I have a broad expertise in evolutionary biology, genetics and ecology.

I have been working on adaptation and mutation, local adaptation, evolution of genetic systems (sex, recombination, sex chromosomes), evolution of gene duplicates, speciation, genetic conflicts, dispersal, biotic interactions (parasites, microbiota), statistics and fitness measures. I have been working with many empirical systems (vertebrates, insects, crustaceans, fungi, plants, helminths, bacteria), in the lab and in the field.

Currently, my scientific activity rests on three axes: first I do theoretical work (theoretical population genetics, statistics, and bioinformatics development). I am particularly interested currently on the evolution of gene expression (on sex chromosomes or in asexuals). Second, I work on small crustaceans Artemia and Daphnia. I’m particularly interested currently on sex-asex transitions, biotic interactions and adaptation to temperature. Third, I do experimental evolution on E. coli. I'm particularly interested on testing fitness landscape models, adaptation to different doses of antibiotics, and coevolution of species coexisting by frequency dependence.

Research interests by keywords
adaptation, local adaptation, migration, speciation, (sex) chromosomes, clines, sex, parthenogenesis, meiosis, recombination, epistasis, dominance, mutations, resistance, duplications, modifiers, mating systems, sexual conflicts, parasites, microbiota.