Research webpage
Dr. Ir. Colinet Hervé (CNRS researcher, Habilitation HDR)
UMR ECOBIO CNRS 6553, Bât14A
Bio & Research
Education & Professional record
Sept. 2002 : Agricultural Bioengineer, University of Louvain
Dec. 2007 : Ph.D. in Agricultural Bioengineering, University of Louvain
June 2019 : Habilitation (HDR), University of Rennes 1
2002-2003 : Research assisant (convention RW), University of Louvain
2003-2007 : Research assisant (convention FIRST-Europe Objectif 3), University of Louvain
2008-2012 : Postdoc researcher, Fonds de la Recherche Scientifique (FNRS)
2012-2013 : Temporary whole-time Lecturer, University of Rennes
From 2013 : Permanent CNRS researcher (CR1), University of Rennes
Editorial responsibilities for Journals
Member of the Editorial board of Journal of Thermal Biology and of The Canadian Entomologist
Previous & current funded projects
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FUNDING SOURCE |
RESPONSABILITY (PI OR PARTNER) ; CALL ; DATES ; TITLE ; ACRONYM |
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Univ Rennes |
PI. Défis émergent 2014: La phosphoprotéomique : une approche novatrice de l’écophysiologie du stress. Projet « PHOSPHO » |
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FAO/IAEA |
PI. IAEA/FAO CRP D41025 - 2014-2019: Coordinated Research Project on Dormancy Management to Enable Mass-rearing and Increase Efficacy of Sterile Insects and Natural Enemies. |
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ANR |
PI. ANR (PRCI) - 2012-2019: Managing cold tolerance and quality of mass-produced Drosophila suzukii flies to facilitate the application of biocontrol through incompatible and sterile insect techniques. Project « SUZUKILL» |
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Rennes Metropole |
PI. AIS call 2015: Impact des variations complexes de la température sur la biologie des organismes ectothermes |
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Rennes Metropole |
PI. AES call 2017: Soutien à l’acquisition d’un respiromètre de haute résolution |
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Biosit |
Co-PI. BIOSIT call 2018: High throughput Fly Gut Microbiote Assay. Project « FlyGutAssay » |
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FranceAgriMer |
Partner. FranceAgriMer 2017-2019: Mieux comprendre les causes des pullulations de petits ténébrions en élevage de volailles pour réduire l’utilisation des insecticides de synthèse. Projet « TENEBLIMIT » |
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CNRS |
Co-PI. International Research Project IRP (LIA) 2019-2023: Phenomic responses of Invertebrates to changing environment and multi-stress. Project « LIA IRP - PRICES » |
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Région Bretagne |
PI. Boost’Europ call 2019: Metabolic programming of lifespan and stress tolerance by the developmental diet in Drosophila. Project « MetaPro » |
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Univ Rennes |
PI. Défis émergent 2020: Comment résister à la congélation et la déshydration extrême ? Le cas du seul insecte de l’Antarctique Projet « ExtremeInsecte» |
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Région Bretagne |
PI. Dispositif ARED (2020-2023): Impact des changements climatiques sur les communautés de pucerons en France et en Chine : réponses physiologiques et moléculaires à la température ». Projet « ClimPuce » |
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ANR |
PI. ANR (PRC) - 2021-2024: What makes Drosophila suzukii such a successful invader? An integrative analysis of its thermal ecology Project « Drothermal» |
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CNRS |
PI. Projets Exploratoires Premier Soutien (PEPS) INEE-2021: Biodégradation du plastique: la reconversion d’un insecte indésirable en un nouvel agent utile. Projet « BioDegrad »
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EcoPhyto |
Partner. (2021-2024) Controlling the pest Drosophila suzukii with the sterile insect technique: maturation and efficacy. Project « SuzuKIISS.ME » |
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ANSES |
Partner. (2022-2025) La face cachée des impacts biologiques des nano-plastiques, de leurs co-contaminants et des changements climatiques sur les espèces animales», Projet « PLASTICIDE » |
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ANR |
Partner & WP leader. (2024-2028) : Thermal niche diversification and vulnerability to climate change: a mechanistic approach». Projet « ANR DIVCLIM ». |
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Région Bretagne |
PI. (2025-2027): La Bretagne, un des derniers refuges de la vipère péliade : Diversité génétique et résilience au stress climatique». Project « VIP-BZH » |
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MASA & FranceAgriMer |
Partner & WP leader (2025-2029) Quantification des infestations et recommandations de gestion des réservoirs de Drosophila suzukii initiant les premières contaminations des cerisiers à l’échelle du paysage et locale» Project « QUANDINSKII ». |
PhDs, Postdocs & Visiting fellows
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Year |
Name |
Level |
Model |
Topic |
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2015-2018 |
Youn Henry |
PhD |
Drosophila (D.mel) |
Influence des facteurs alimentaires et du microbiote sur la tolérance au stress des insectes |
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2016-2019 |
Thomas Enriquez |
PhD |
Drosophila (D.suz) |
Etude écophysiologique de la tolérance au froid de la mouche, Drosophila suzukii, pour faciliter la mise en place d’un contrôle biologique |
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2018 (visiting) |
Jan LUBAWY |
Postdoc |
Cockroach |
Physiology of cold tolerance in a cockroach: transcriptomic aspects. |
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2018 (visiting) |
Szymon CHOWANSKI |
Postdoc |
Cockroach |
Physiology of cold tolerance in a cockroach: transcriptomic aspects. |
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2020-2023 |
Yuanjie LI |
PhD |
Aphids |
Impact of climate change on aphid communities in France and China: physiological and molecular responses to temperature |
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2021-2022 |
Fatemeh SAEIDI |
Postdoc |
Drosophila (D.mel) |
Apoptosis, autophagy or necrosis? Which is the main player in cell death related to thermal injury in insects |
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2021-2024 |
Bréa RAYNAUD-BERTON |
PhD |
Drosophila (D.suz) |
Phenotypical and ecophysiological consequences of short- and long-term temporal variations on the thermal ecology of the invasive spotted wing Drosophila |
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2020-2026 |
Madelena DE RO |
PhD |
Drosophila (D.suz) |
Knowledge-based field-oriented strategies for the protection of fruit production against Drosophila suzukii in Flanders (Belgium) |
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2022-2023 |
Mélissa ANNE |
Ingeneer |
Drosophila (D.suz) |
Managing cold storage and transport for SIT applications in Drosophila suzukii |
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2025 (visiting) |
Jonas WESSELTOFT |
PhD |
Drosophila (D.suz) |
Metabolomic analysis to characterize thermal tolerance of Drosophila suzukii |
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2025 (visiting) |
Jan LUBAWY |
Ass. Prof. |
Cockroach |
Physiology of stress tolerance insects |
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2022-2025 |
Chloé RICHARD |
PhD |
Drosophila (D.mel) |
Analysis and quantification of the impacts of plastic pollution on the health of biodiversity and terrestrial environments |
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2025-2027 |
Nadège BELOUARD |
Postdoc |
Snakes |
Bretagne, un des derniers refuges de la vipère péliade : Diversité génétique et résilience au stress climatique |
Internships
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Name |
Level |
Model |
Topic |
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2003 |
Laurence Bonvarlet |
M2 |
Aphids |
Contrôle des populations de pucerons Macrosiphum euphorbiae grâce à l'utilisation de microhyménoptères parasitoïdes Aphidius ervi : comparaison de l'efficacité des parasitoïdes selon leur mode de production. |
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2006 |
Joachim Van de Put |
M2 |
Aphids |
Etude de l’effet du type de plante hôte sur le puceron, Myzus persicae, et de l’effet maternel suite à une exposition au froid de son parasitoïde, Aphidius colemani. |
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2007 |
Christian Michel |
M2 |
paraistoides |
Etude générale de l’impact du froid sur la survie et la morphologie du système reproducteur d’Aphidius (Hymenoptera: Aphidiinae). |
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2007 |
Laurent Natalis |
M2 |
paraistoides |
Impact des fluctuations thermiques sur la fitness d’Aphidius colemani. |
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2011 |
Richard Brieuc |
M1 |
Drosophila (D.mel) |
Influence de la sénescence sur la résistance au stress hypothermique chez Drosophila melanogaster. |
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2012 |
Raphaël Bical |
DES |
Drosophila (D.mel) |
Influence d’un régime trophique sur les capacités de résistance à un stress thermique chez Drosophila melanogaster. |
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2013 |
Amandine Juhel |
M1 |
Drosophila (D.mel) |
Analyse écophysiologique du stress thermique et de l’acclimatation chez la mouche du fruit (D. melanogaster) : stabilité des protéines et rôle de la protéolyse. |
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2013 |
Charly Jehan |
L3 |
Drosophila (D.mel) |
Fluctuations thermiques chez la drosophile. |
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2014 |
Marion Javal |
M2 |
Drosophila (D.mel) |
Impact des fluctuations thermiques sur les performances des insectes dans un contexte de changement climatique. |
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2014 |
Marine Philibert |
M1 |
Drosophila (D.mel) |
Impact de la sur-population sur la tolérance au stress thermique chez la drosophile. |
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2015 |
Youn Henry |
M2 |
Gammares |
Comparaison de la réponse moléculaire au stress environnementaux chez des crustacés amphipodes invasifs vs natifs. |
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2015 |
Charly Jehan |
M2 |
Tenebrionid Beetle |
Caractérisation écophysiologique de la résistance aux traitements insecticides chez le petit ténébrion |
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2015 |
Morgane Ourry |
M1 |
Drosophila (D.mel) |
Impact des fluctuations thermiques sur les performances des insectes dans un contexte de changement climatique. |
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2015 |
Corentin Sochard |
M1 |
Drosophila (D.mel) |
Impact des fluctuations thermiques et de la photopériode sur la thermotolérance des insectes. |
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2016 |
David Ruel |
M2 |
Drosophila (D.suz) |
La conservation au froid, une étape cruciale permettant de faciliter l’application du contrôle biologique contre Drosophila suzukii par les méthodes insectes stériles et incompatibles. |
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2017 |
Nicolas Meyer |
M2 |
Drosophila (D.mel) |
Influence de l'historique thermique et des contraintes physiologiques sur les températures préférées chez un insecte |
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2017 |
Clayre Grumiaux |
M1 |
Drosophila (D.mel) |
Suppression pharmacologique de l’ovogenèse et thermotolérance. |
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2017 |
Gaëtan Cormy |
L3 |
Drosophila (D.suz) |
Etude de l’impact du stockage sur une espèce invasive, Drosophila suzukii, pour faciliter la mise en place d’un contrôle biologique. |
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2018 |
Alexia Devignes |
M2 |
Tenebrionid Beetle |
Détection et quantification de la résistance aux insecticides chez un insecte invasif Alphitobius diaperinus (Tenebrionid Beetleidae) des agro-écosystèmes |
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2018 |
Alexiane Kustre |
M2 |
Drosophila (D.suz) |
Etude de la thermotolérance d’une espèce invasive, Drosophila suzukii, pour faciliter la mise en place d’un contrôle biologique |
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2018 |
Pénélope Tarapacki |
M1 |
Drosophila (D.mel) |
Conséquences intra- et trans-générationnelles de la surpopulation chez Drosophila melanogaster |
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2019 |
Sapho Lou Marti |
M2 |
Drosophila (D.mel) |
Reacting to stress : Chaperome networks analysis in Drosophila. |
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2019 |
Kevin Noort |
M2 |
Tenebrionid Beetle |
Behavioural, physiological and molecular basis of insecticide resistance in an invasive insect Alphitobius diaperinus (Tenebrionid Beetleidae) in agro-ecosystems. |
|
2019 |
Alexandre Alavoine |
M1 |
Drosophila (D.suz) |
Norme de réaction thermique du taux métabolique chez Drosophila suzukii. |
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2019 |
Marie Bouilloud |
M2 |
Drosophila (D.suz) |
Etude de l’impact du stress thermique sur la relation Wolbachia wSuz - Drosophila suzukii. |
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2020 |
Eugène Maurey |
M1 |
Drosophila |
Méthodes et Identification des gènes de références pour les études thermo-biologiques en Entomologie. |
|
2020 |
Audrey Lerenard |
M1 |
Drosophila (D.mel) |
Coût métabolique de la résistance aux insecticides : le taux métabolique est-il un bon biomarqueur de la résistance ? |
|
2021 |
Chloé Richard |
M2 |
Tenebrionid Beetle |
Feeding on polystyrene : effects on lesser mealworm growth and survival |
|
2022 |
Estelle Dupré |
L3 |
Drosophila (D.suz) |
Decrypting phenotypical and ecophysiological consequences of short-term temporal variations and repeated stress exposures on Drosophila suzukii development and thermotolerance |
|
2022 |
Romane Gout |
M1 |
Drosophila (D.mel) |
Drosophila melanogaster’s reproductive cost when undergoing a cold thermal stress. |
|
2022 |
Maud Launoy |
M2 |
Cloporte |
Thermal preference of two arthropod species in an Urban Heat Island (UHI) context: Oniscus asellus (Isopoda: Oniscidea) & Pardosa saltans (Lycosidae: Pardosa) |
|
2023 |
UGO Pindeler |
M2 |
Drosophila (D.suz) |
Décrypter les conséquences phénotypiques et écophysiologiques de l’exposition répétée à un stress chez la mouche des fruits invasive Drosophila Suzukii. |
|
2023 |
Jakob Wiil |
M2 |
Drosophila (D.mel) |
The functional significance of turandot genes for inducible cross tolerance response in Drosophila melanogaster |
|
2023 |
Romane Gout |
M2 |
Drosophila (D.suz) |
Exploration of thermal injury and repair responses in Drosophila suzukii using Thermal Death Time (TDT) |
|
2023 |
Léa NICOLAS |
M2 |
Coelopa frigida |
Le rôle des variations structurales du génome dans l’adaptation chez la mouche du varech |
|
2023 |
Jeanne TILL |
L3 |
Drosophila (D.suz) |
Contribution à l’acquisition de données phénotypiques utiles au développement d’un modèle de dynamique des populations pour Drosophila suzukii. |
|
2024 |
Colinet Lehnhoff |
M2 |
Drosophila (D.suz) |
Exploring the impact of thermal conditions and dormancy on the often-neglected male fertility potential in Drosophila suzukii |
|
2024 |
Théo LAGUILLIEZ |
M2 |
Drosophila (D.mel) |
Multigenerational effects of polystyrene-based nanoplastics on fitness and oxidative stress in Drosophila melanogaster |
|
2024 |
Damien GOURMELON |
M1 |
Drosophila (D.suz) |
Détermination des communautés de Drosophiles provenant de compteurs lors des suivis annuels. |
|
2025 |
Louison Le Duff |
M2 |
Drosophila (D.suz) |
Thermal acclimation landscape, a new conceptual approach to study thermal tolerance |
Publications
Link to Scholar google profile here
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Legrand, M.A., Colinet, H., Vernon, P., Hance, T. 2004. Autumn, winter and spring dynamics of aphid Sitobion avenae and parasitoid Aphidius rhopalosiphi interactions. Annals of Applied Biology. 145 : 139-144. |
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Colinet, H., Salin, S., Boivin, G., Hance, T. 2005. Host age and fitness-related traits in a koinobiont aphid parasitoïd. Ecological Entomology. 30 : 473-479. |
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Colinet, H., Hance, T., Vernon, P. 2006. Water relations, fat reserves, survival, and longevity of a cold-exposed parasitic wasp Aphidius colemani (Hymenoptera: Aphidiinae). Environmental Entomology. 35 : 228-236. |
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Colinet, H., Renault, D., Hance, T., Vernon, P. 2006. The impact of fluctuating thermal regimes on the survival of a cold-exposed parasitic wasp, Aphidius colemani. Physiological Entomology. 31 : 234-240. |
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Colinet, H., Vernon, P., Hance, T. 2007. Does thermal-related plasticity in size and fat reserves influence supercooling abilities and cold-tolerance in Aphidius colemani (Hymenoptera: Aphidiinae) mummies? Journal of Thermal Biology. 32 : 374-382. |
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Colinet, H., Hance, T., Vernon, P., Bouchereau, A., Renault, D. 2007. Does fluctuating thermal regime trigger free amino acid production in the parasitic wasp Aphidius colemani (Hymenoptera: Aphidiinae)? Comparative Biochemistry and Physiology Part A: Molecular & Integrative Physiology. 147 : 484-492. |
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Colinet, H., Boivin, G., Hance, T. 2007. Manipulation of parasitoid size using temperature-size rule: fitness consequences. Oecologia. 152 : 425-433. |
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Lalouette, L., Koštál, V., Colinet, H., Gagneul, D., Renault, D. 2007. Cold-exposure and associated metabolic changes in adult tropical beetles exposed to fluctuating thermal regimes. FEBS Journal. 274 : 1759-1767. |
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Colinet, H., Nguyen, T.T.A., Cloutier, C., Michaud, D., Hance, T. 2007. Proteomic profiling of a parasitic wasp exposed to constant and fluctuating cold exposure. Insect Biochemistry and Molecular Biology. 37 : 1177-1188. |
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Colinet, H., Th, Hance. 2009. Male reproductive potential of Aphidius colemani (Hymenoptera: Aphidiinae) exposed to constant or fluctuating thermal regimes. Environmental Entomology. 38(1) : 242-249. |
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Colinet, H., Th, Hance. 2010. Inter-specific variation in the response to low temperature storage in different aphid parasitoids. Annals of Applied Biology. 156 : 147-156. |
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Colinet, H., Lee S.F., Hoffmann, A. 2010. Temporal expression of heat shock genes during cold stress and recovery from chill coma in adult Drosophila melanogaster. FEBS Journal. 277 : 174-185. |
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Colinet, H., Hoffmann, A. 2010. Gene and protein expression of Drosophila Starvin during cold stress and recovery from chill coma. Insect Biochemistry and Molecular Biology. 40 : 425-428. |
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Colinet, H., Lee S.F., Hoffmann, A. 2010. Functional characterization of the Frost Gene in Drosophila melanogaster: Importance for Recovery from Chill Coma. PLoS ONE 5(6) : e10925. |
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Colinet, H., Muratori, F., Hance, T. 2010. Cold-induced expression of diapause in Praon volucre: fitness cost and morpho-physiological characterization. Physiological Entomology. 35 : 301-307. |
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Colinet, H., Lee S.F., Hoffmann, A. 2010. Knocking down expression of Hsp22 and Hsp23 by RNA interference affects recovery from chill coma in Drosophila melanogaster. Journal of Experimental Biology. 213 : 4146-4150. |
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Colinet, H., Boivin, G. 2011. Insect parasitoids cold storage: a comprehensive review of factors of variability and consequences. Biological Control. 58 : 83-95. |
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Colinet, H. 2011. Disruption of ATP homeostasis during chronic cold stress and recovery in the chill susceptible beetle (Alphitobius diaperinus). Comparative Biochemistry and Physiology - Part A: Molecular & Integrative Physiology. 160 : 63-67. |
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Colinet, H., Lalouette, L., Renault, D. 2011. A model for time-temperature-mortality relationship in the chill-susceptible beetle, Alphitobius diaperinus, exposed to fluctuating thermal regimes. Journal of Thermal Biology. 36 : 403–408. |
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Colinet, H., Hoffmann, A. 2012. Comparing phenotypic effects and molecular correlates of developmental, gradual and rapid cold acclimation responses in Drosophila melanogaster. Functional Ecology. 26 : 84–93. |
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Colinet, H., Larvor, V., Laparie, M., Renault, D. 2012. Exploring plastic response to acclimation through metabolomics. Functional Ecology. 26 : 711–722. |
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Colinet, H., Renault, D., Guével, B., Com, E. 2012. Metabolic and proteomic profiling of diapause in the aphid parasitoid Praon volucre. PLoS ONE 7(2) : e32606. |
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Teets, N.M., Peyton, J.T., Ragland, G. J., Colinet, H., Renault, D., Hahn, D.A., Denlinger, D.L. 2012. Combined transcriptomic and metabolomic approach uncovers molecular mechanisms of cold tolerance in a temperate flesh fly. Physiological Genomics. 44 : 764–777. |
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Colinet, H., Renault, D. 2012. Metabolic effects of CO2 anaesthesia in Drosophila melanogaster. Biology Letters. 8 : 1050–1054 |
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Teets, N.M., Peyton, J.T., Colinet, H., Renault, D., Kelley, J.L., Kawarasaki, Y., Lee, Jr., R.E., Denlinger, D.L. 2012. Gene expression changes governing extreme dehydration tolerance in an Antarctic insect. Proceedings of the National Academy of Sciences of USA. 109 : 20744-20749. |
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Foray, V., Desouhant, E., Voituron, Y., Larvor,V., Renault, D., Colinet, H., Gibert, P. 2013. Does cold tolerance plasticity correspond with the thermal environment and metabolic profiles of a parasitoid wasp? Comparative Biochemistry and Physiology - Part A: Molecular & Integrative Physiology. 164 : 77-83. |
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Colinet, H., Siaussat, D., Bozzolan, F., Bowler, K. 2013. Rapid decline of cold tolerance at young age is associated with expression of stress genes in Drosophila melanogaster. Journal of Experimental Biology. 216 : 253-259. |
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Colinet, H., Larvor, V., Bical, R., Renault, D. 2013. Dietary sugars affect cold tolerance of Drosophila melanogaster. Metabolomics. 9 : 608-622. |
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Colinet, H., Overgaard, J., Com, E., Sørensen, J.G. 2013. Proteomic profiling of thermal acclimation in Drosophila melanogaster. Insect Biochemistry and Molecular Biology 43: 352-365. |
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Khodayari, S., Colinet, H., Moharramipour, S., Renault, D. 2013. Seasonal Change in the Cold Hardiness of the Two-Spotted Spider Mite Females (Acari: Tetranychidae) - Environmental Entomology. 42: 1415-1421. |
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Colinet, H., Renault, D. 2014. Dietary live yeast alters metabolic profiles, protein biosynthesis and thermal stress tolerance of Drosophila melanogaster. Comparative Biochemistry and Physiology - Part A: Molecular & Integrative Physiology. 170: 6-14. |
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Overgaard, J., Sørensen, J.G., Com, E., Colinet, H. 2014. The rapid cold hardening response of Drosophila melanogaster: Complex regulation across different levels of biological organization. Journal of Insect Physiology. 62: 46-53. |
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Colinet, H., Sinclair, B.J., Vernon, P., Renault, D. 2015. Insects in Fluctuating Thermal Environments. Annual Review of Entomology, 60: 123-140. |
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Renault D., Henry Y., Colinet H. 2015. Exposure to desiccating conditions and cross-tolerance with thermal stress in the lesser Mealworm Alphitobius Diaperinus (Coleoptera: Tenebrionidae). Revue d’Ecologie. Sup 12 « Espèces invasives » 70: 33-41. |
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Le Bourg, E., Gauthier, T., Colinet, H. 2015. Feeding on frozen live yeast has some deleterious effects in Drosophila melanogaster. Experimental Gerontology. 69 : 202-210. |
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Colinet, H., Chertemps, T., Boulogne, I., Siaussat, D. 2016. Age-related decline of abiotic stress tolerance in young Drosophila melanogaster adults. Journals of Gerontology Series A: Biological Sciences and Medical Sciences. 71, 1574-1580 |
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Koštál, V., Korbelova, J., Stetina, T., Poupardin, R., Colinet, H., Zahradnickova, H., Opekarova, I., Moos, M., Šimek, P. 2016. Physiological basis for low-temperature survival and storage of quiescent larvae of the fruit fly Drosophila melanogaster. Scientific Reports 6:32346. |
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Colinet, H., Renault, D., Javal, M.,Berková, P., Šimek, P., Koštál, V. 2016. Uncovering the benefits of fluctuating thermal regimes on cold tolerance of Drosophila flies by combined metabolomic and lipidomic approach. BBA - Molecular and Cell Biology of Lipids. 1861: 1736-1745. |
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Javal, M., Renault, D., Colinet, H. 2016. Impact of fluctuating thermal regimes on Drosophila melanogaster survival to cold stress. Animal Biology. 66. 427–444. |
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Henry, Y., Piscart, C., Charles, S., Colinet, H. 2017. Combined effect of temperature and ammonia on survival and molecular response of the freshwater crustacean Gammarus pulex. Ecotoxicology and Environmental Safety. 137, 42–48 |
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Colinet, H., Renault, D., Roussel, D. 2017. Cold acclimation allows Drosophila flies to maintain mitochondrial functioning under cold stress. Insect Biochemistry and Molecular Biology. 80: 52-60. |
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Enriquez, T & Colinet, H. 2017. Basal tolerance to heat and cold exposure of the spotted wing Drosophila, Drosophila suzukii. Peer Journal. 5:e3112. |
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Colinet, H., Pineau, C., Com, E. 2017. Large scale phosphoprotein profiling to explore Drosophila cold acclimation regulatory mechanisms. Scientific Reports 7:1713. |
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Colinet, H., Renault D. 2018. Post-stress metabolic trajectories in young and old flies. Experimental Gerontology. 102: 43-50. |
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Nikolouli K., Colinet, H., Renault, D., Enriquez, T., Mouton, L., Gibert, P., Sassu, F., Caceres, C., Stauffer, C.,Cardos o-Pereira, R., Bourtzis, K. 2018. Sterile insect technique and Wolbachia symbiosis as potential tools for the control of the invasive species Drosophila suzukii. Journal of Pest Science. 91: 489-503. |
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Henry, Y., Renault, D., Colinet, H. 2018. Hormesis-like effect of mild larval crowding on thermotolérance in Drosophila flies. Journal of Experimental Biology. 221, jeb169342. |
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Heys, C., Lizé, A., Colinet, H., Price, T., Prescott, M., Ingleby, F., Lewis, Z. 2018. Evidence that the microbiota counteracts male outbreeding strategy by inhibiting sexual signaling in females. Frontiers in Ecology and Evolution. 6:29. |
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Colinet, H., Rinehart, J., Yocum, G., Greenlee, K. 2018. Mechanisms underpinning the beneficial effects of fluctuating thermal regimes in insect cold tolerance. Journal of Experimental Biology. 221, jeb164806. |
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Henry, Y. & Colinet, H. 2018. Microbiota disruption leads to reduced cold tolerance in Drosophila flies. The Science of Nature. 105:59. |
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Enriquez, T., Renault, D., Charrier, M., Colinet, H. 2018. Cold acclimation favors metabolic stability in Drosophila suzukii. Frontiers in Physiology. 9:1506. |
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Grumiaux, C., Andersen, M.K., Colinet, H., Overgaard, J. 2019. Fluctuating thermal regime preserves physiological homeostasis and reproductive capacity in Drosophila suzukii. Journal of Insect Physiology. 113: 33-41. |
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Enriquez T., Colinet, H. 2019. Cold acclimation triggers lipidomic and metabolic adjustments in the spotted wing Drosophila Drosophila suzukii (Matsumara). American Journal of Physiology-Regulatory, Integrative and Comparative Physiology. 316: R751–R763. |
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Enriquez T., Colinet, H. 2019. Cold acclimation triggers major transcriptional changes in Drosophila suzukii. BMC Genomics. BMC Genomics. 20:413. |
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Lubawy, J., Daburon, V., Chowański, S., Słocińska, M., Colinet, H. 2019. Thermal stress causes DNA damage and mortality in a tropical insect. Journal of Experimental Biology: 222: jeb213744 |
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Enriquez, T., Ruel, D., Charrier, M., Colinet, H. 2020. Effects of fluctuating thermal regimes on cold survival and life history traits of the spotted wing Drosophila (Drosophila suzukii, Matsumara). Insect Science. 27, 317–335. |
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Henry Y., Overgaard, J. Colinet, H. 2020. Dietary nutrient balance shapes phenotypic traits of Drosophila melanogaster in interaction with gut microbiota. Comparative Biochemistry and Physiology, Part A. 241: 110626. |
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Henry, Y., Tarapacki, P. Colinet, H. 2020. Larval density affects phenotype and surrounding bacterial community without altering gut microbiota in Drosophila melanogaster. FEMS Microbiology Ecology. 96: fiaa055. |
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Lubawy, J., Urbański, A., Colinet, H., Pflueger, H., Marciniak, P. 2020. Role of the insect neuroendocrine system in the response to cold stress. Frontiers in Physiology. 11: 376. |
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Thiébaut, G., Tarayre, M., Jambon, O., Le Bris, N., Colinet, H., Renault, D. 2020. Comparison of the thermal plasticity of morphological and physiological traits among populations of an invasive aquatic plant sampled from different climatic regions. Hydrobiologia. https://doi.org/10.1007/s10750-020-04452-2 |
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Enriquez, T., Sassù, F., Cáceres, C., Colinet, H. 2020. Severe hypoxia combined with chilling maintains quality of irradiated Drosophila flies: a simulated shipment experiment. Bulletin of Entomological Research. In press. https://doi.org/10.1017/S0007485321000146 |
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De Ro, M., Enriquez, T., Bonte, J., Ebrahimi, N., Casteels, H., De Clercq, P., Colinet, H. 2021. Effect of starvation on the cold tolerance of adult Drosophila suzukii (Diptera: Drosophilidae). Bulletin of Entomological Research. In press. DOI: https://doi.org/10.1017/S0007485321000377 |
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Monsimet, J., Colinet, H., Devineau, O., Lafage, D., Pétillon, J. 2021. Biogeographic position and body size jointly set lower thermal limits of wandering spiders. Ecology and Evolution. 11:3347–3356. |
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Engell Dahl, J., Sapho-Lou Marti, SL., Colinet, H., Wiegand, C., Holmstrup, M., Renault, D. 2021. Thermal plasticity and sensitivity to insecticides in populations of an invasive beetle: Cyfluthrin increases vulnerability to extreme temperature. Chemosphere. 274, 129905. |
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Bojadzija Savic, G., Colinet, H., Bormans, M., Edwards, C., Lawton, L.A., Briand, E., Wiegand, C. 2021. Cell free Microcystis aeruginosa spent medium affects Daphnia magna survival and stress response. TOXICON. 195, 37-57. |
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Wallace, MA., Coffman, KA., Gilbert, C., Ravindran, S., Albery, G., Abbott, J., Argyridou, E., Bellosta, P., Betancourt, AJ., Colinet, H. et al. 2021. The discovery, distribution and diversity of DNA viruses associated with Drosophila melanogaster in Europe. Virus Evolution. In press. doi: 10.1093/ve/veab031 |
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Renault, D. & Colinet, H. 2021. Large differences in the susceptibility to commercial insecticides among several populations of the lesser mealworm (Alphitobius diaperinus) collected from poultry houses in France. Insects. 12, 309. |
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Mensch, J., Kreiman, L., Schilman, P.E., Hasson, E., Renault, D., Colinet, H. 2021. Divergent metabolomic profiles of cold-exposed mature and immature females of tropical versus temperate Drosophila species. Comparative Biochemistry and Physiology Part A: Molecular & Integrative Physiology. 258, 110995. |
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Tarapacki, P., Jørgensen, L.B., Sørensen, J., Andersen, M., Colinet, H., Overgaard, J. 2021. Acclimation, duration and intensity of cold exposure determine the rate of cold stress accumulation and mortality in Drosophila suzukii. Journal of Insect Physiology. 135, 104323 |
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Noer, N., Sørensen, M.H., Colinet, H., Renault, D., Bahrndorff, S., Kristensen, T.N. 2022. Rapid adjustments in thermal tolerance and the metabolome to daily environmental changes – a field study on the Arctic seed bug Nysius groenlandicus. Frontiers in Physiology. doi:10.3389/fphys.2022.818485 |
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Ulmer, R., Couty, A., Eslin, P., Catterou, M., Baliteau, L., Bonis, A., Borowiec, N., Colinet, H. et al. 2022. Macroecological patterns of fruit infestation rates by the invasive fly Drosophila suzukii in the wild reservoir host plant Sambucus nigra. Agricultural and Forest Entomology. 24: 548-563 |
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Nikolouli, K., Colinet, H., Stauffer, C., Bourtzis, K. 2022. How the mighty have adapted: Genetic and microbiome changes during laboratory adaptation of a wild Drosophila suzukii population. Entomologia Generalis. 42: 723 -732 |
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Huisamen, E.J. Colinet, H., Karsten, M., Terblanche, J.S. 2022. Dietary salt supplementation adversely affects thermal acclimation responses of flight ability in Drosophila melanogaster. Journal of Insect Physiology. 140: 104403 |
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Renault D., Leclerc C., Colleu M.A., Boutet A., Hotte H., Colinet H., Chown S.L., Convey P. 2022. The rising threat of climate change for arthropods from Earth’s cold regions: Taxonomic rather than biogeographic status drives species sensitivity. Global Change Biology. 28: 5914-5927 |
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Morimoto, J., Wenzel, M., Derous, D., Henry, Y., Colinet, H. 2022. The transcriptomic signature of responses to larval crowding in Drosophila melanogaster". Insect Science. 30: 539-554 |
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Colinet, H., Devignes-Labarthe, A., Gouesbet, G., Rousset, N. Renault, D. 2023. Resistance to ß-cyfluthrin in populations of the pest lesser mealworm, Alphitobius diaperinus. Trends in Entomology. In press. |
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LI, Y., Chen, S.Y., Jørgensen, L.B., Overgaard, J., Renault, D., Colinet, H., Ma, C.S. 2023. Interspecific differences in thermal tolerance landscape explain aphid community abundance under climate change. Journal of Thermal Biology. doi.org/10.1016/j.jtherbio.2023.103583 |
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LI, Y., Ma, C.S., Yan, Y., Renault, D., Colinet, H. 2023. The interspecific variations in molecular responses to various doses of heat and cold stress: the case of cereal aphids. Journal of Insect Physiology. 147: 104520. |
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Hayward, S.L., Colinet, H. 2023. Metabolomics as a tool to elucidate biochemical cold adaptation in insects. Current Opinion in Insect Science. 58:101061 |
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Lubawy, J., Chowanski, S., Colinet, H., Slocinska, M. 2023. Mitochondrial metabolism and oxidative stress in tropical cockroach under fluctuating thermal regimes. Journal of Experimental Biology. 226: jeb.246287. |
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Cabon, V., Pincebourde, V., Colinet, H., Dubreuil, V., Georges, R., Launoy, M., Pétillon, J., Quénol, H., Bergerot, B. 2023. Preferred temperature in the warmth of cities: body size, sex and development stage matter more than urban climate in a ground-dwelling spider. Journal of Thermal Biology. 117: 103706 |
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Wiil, J., Sørencen, J.G., Colinet, H. 2023. Exploring cross protective effects between cold and immune stress in Drosophila melanogaster. Parasite. 30: 54 |
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Georges, R., Yassin, A., Colinet, H. 2024. First record of Zaprionus tuberculatus (Diptera: Drosophilidae) in mainland France. Entomological Research. 54: e12725 |
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Renault, D. Wiegand, C., Balzani, P., Richard, C., Haubrock, P.J., Colinet, H., Davranche, M., Pierson-Wickman, A.C., Derocles, S. 2024. The Plasticene era: current uncertainties in estimates of the hazards posed by tiny plastic particles on soils and terrestrial invertebrates. Science of the Total Environment. 927: 172252 |
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Deconninck, G., Boulembert, M., Eslin, P., Couty, A., Bonis, A., Borowiec, N., Buch, I., Colinet, H. et al. 2024. Environmental factors driving infestations of a keystone winter fruit by an invasive and a native fruit fly. Arthropod-Plant Interactions. https://doi.org/10.1007/s11829-024-10073-6 |
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Raynaud-Berton,B., Gibert, P., Suppo, C., Pincebourde, S., Colinet, H. 2024. Modelling thermal reaction norms for development and viability in Drosophila suzukii under constant, fluctuating and field conditions. Journal of Thermal Biology. 123: 103891 |
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Richard, C., Dejoie, E., Wiegand, C., Gouesbet, G., Colinet, H., Balzani, P., Siaussat, D., Renault, D. 2024. Plastic pollution in terrestrial ecosystems: current knowledge on impacts of micro and nano fragments on invertebrates. The Journal of Hazardous Materials. 77: 135299. ⟨10.1016/j.jhazmat.2024.135299⟩ |
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Gouesbet, G., Renault, D., Derocles, S., Colinet, H. 2025. Strong resistance to β-cyfluthrin in a strain of the beetle Alphitobius diaperinus: a de novo transcriptome analysis. Insect Science, 32, 209–226 |
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Colinet, H. & Kustre, A. 2025.The apparent seasonal biphenism in Drosophila suzukii stems in reality from continuous reaction norms. Pest Management Science 81: 507–517 http://dx.doi.org/10.1002/ps.8452 |
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Larges, J., Deconninck, G., Ulmer, R., Foray, V., Le Bris, N., Chorin, M., Colinet, H., Chabrerie, O., Eslin, P., Couty, A. 2025. Winter fruit contribution to the performance of the invasive fruit fly Drosophila suzukii under different thermal regimes. Insect Science. DOI 10.1111/1744-7917.13494 |
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Richard, C., Renault, C., Wallart, V., Denis, B., Tarapacki, P., Marion-Poll, F., Colinet, H. 2025. Effects of nonionic surfactants on life history traits of Drosophila melanogaster. Environmental Science and Pollution Research, DOI: 10.1007/s11356-025-35932-4. |
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Raynaud-Berton,B., Gibert, P., Colinet, H. 2025. How does ageing affect life history traits and cold tolerance in summer- vs winter-acclimated fruit flies? DOI: 10.1111/een.13437. Ecological Entomology. |
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LI, Y., Ma, C.S., LeBris, N., Colinet, H., Renault, D. 2025. Metabolomics reveals insight into interspecific variations in heat tolerance of three co-existing pest species. Journal of Experimental Biology. https://doi.org/10.1242/jeb.249365 |
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Deconninck, G., Meyer, N., Colinet, H., Pincebourde, S. 2025. Thermal preference plasticity in ectotherms: Integrating temperature affinity and thermoregulation precision. https://doi.org/10.1086/736575. The American Naturalist |
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Chowański S., Lubawy J., Paluch-Lubawa E., Gołębiowski M., Colinet H., Słocińska M. 2025. Metabolism dynamics in tropical cockroach during a cold-induced recovery period. Biological Research. 58: 40. |
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Colinet, H., Lehnhoff, C., Raynaud-Berton, B. 2025. The Critical Impact of Sub‐ and Supraoptimal Temperatures on Male Fertility Potential of an Invasive Fruit Fly. Ecology and Evolution 15:e71515 |
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Richard, C., Renault, D., Colinet, H. 2025. Can the plastic-eating insect Alphitobius diaperinus be used as a new biodegradation agent for synthetic plastic insulator wastes? Environmental Technology & Innovation. 39: 104315 |
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Durmaz Mitchell, [incl. H Colinet] et al. 2025. Continent-wide differentiation of fitness traits and patterns of climate adaptation among European populations of Drosophila melanogaster. Evolution Letters. https://doi.org/10.1093/ve/veab031. |
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Nunez, J.C.B., [incl. H Colinet] et al. 2025. Footprints of worldwide adaptation in structured
populations of D. melanogaster through the expanded DEST 2.0 genomic
resource. 2025. Molecular
Biology and Evolution. |
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OLD but COOL STUFF
In July 2022, we hosted the 9°International Symposium on the Environmental Physiology of Ectotherms
and Plants, ISEPEP9
https://isepep9.sciencesconf.org/
################# GOOD Memories of CEPA 2019 #####################
CEPA4 (4ième Colloque d'Ecophysiologie) was organized in Rennes in Oct 2019.
Abstract book can de downloaded here
