Continent-wide differentiation of fitness traits and patterns of climate adaptation among European populations of Drosophila melanogaster

Esra Durmaz Mitchell; Envel Kerdaffrec; Ewan Harney; Tânia F. Paulo; Marija Savic Veselinovic; Marija Tanaskovic; Venera Tyukmaeva; Teresa Abaurrea Fernandez De Arcaya; Cansu Aksoy; Eliza Argyridou; Tiphaine P.M. Bailly; Dogus Can; Ezgi Cobanoglu; Nicola Cook; Seda Coşkun; Slobodan Davidovic; Ekin Demir; Tânia Dias; Somayeh Rasouli-Dogaheh; Pedro Duque; Katarina Eric; Pavle Eric; Priscilla Erickson; Filip Filipovski; Bettina Fishman; Amanda Glaser-Schmitt; August Goldfischer; Llewellyn Green; Sonia Janillon; Mihailo Jelic; Hristina Kostic; Lucas E. Kreiman; Natacha Kremer; Manolis Lyrakis; Oleksandr M. Maistrenko; Sapho Lou Marti; Megan McGunnigle; Miriam Merenciano; Mário S. Mira; Vincent Montbel; Laurence Mouton; Dmitry V. Mukha; Siddharth Murali; Aleksandra Patenkovic; Oleksandra Protsenko; Florencia A. Putero; Micael Reis; Natalia V. Roshina; Olga Y. Rybina; Mads F. Schou; Thibault Schowing; Senel Selin Senkal; Svitlana Serga; Virginie Trieu; Alexander V. Symonenko; Mikhail V. Trostnikov; Evgenia A. Tsybul'ko; Joost Van Den Heuvel; David Van Waarde; Ekaterina R. Veselkina; Cristina P. Vieira; Xiaocui Wang; Jelle Zandveld; Jessica Abbott; Jean Christophe Billeter; Hervé Colinet; Mehregan Ebrahimi; Patricia Gibert; Jan Hrcek; Maaria Kankare; Iryna Kozeretska; Volker Loeschcke; Julián Mensch; Banu Sebnem Onder; John Parsch; Elena G. Pasyukova; Marina Stamenkovic-Radak; Eran Tauber; Cristina Vieira; Christian Wegener; Katja M. Hoedjes; Bas J. Zwaan; Andrea J. Betancourt; Claudia Fricke; Sonja Grath; Nico Posnien; Jorge Vieira; Martin Kapun; Christian Schlötterer; Paul Schmidt; Élio Sucena; Josefa González; Alan Bergland; Michael G. Ritchie; Thomas Flatt

doi:10.1093/evlett/qraf014

Continent-wide differentiation of fitness traits and patterns of climate adaptation among European populations of Drosophila melanogaster

Esra Durmaz Mitchell^*
, Envel Kerdaffrec
, Ewan Harney
, Tânia F. Paulo
, Marija Savic Veselinovic
, Marija Tanaskovic
, Venera Tyukmaeva
, Teresa Abaurrea Fernandez De Arcaya
, Cansu Aksoy
, Eliza Argyridou
, Tiphaine P.M. Bailly
, Dogus Can
, Ezgi Cobanoglu
, Nicola Cook
, Seda Coşkun
, Slobodan Davidovic
, Ekin Demir
, Tânia Dias
, Somayeh Rasouli-Dogaheh
, Pedro Duque

Katarina Eric, Pavle Eric, Priscilla Erickson, Filip Filipovski, Bettina Fishman, Amanda Glaser-Schmitt, August Goldfischer, Llewellyn Green, Sonia Janillon, Mihailo Jelic, Hristina Kostic, Lucas E. Kreiman, Natacha Kremer, Manolis Lyrakis, Oleksandr M. Maistrenko, Sapho Lou Marti, Megan McGunnigle, Miriam Merenciano, Mário S. Mira, Vincent Montbel, Laurence Mouton, Dmitry V. Mukha, Siddharth Murali, Aleksandra Patenkovic, Oleksandra Protsenko, Florencia A. Putero, Micael Reis, Natalia V. Roshina, Olga Y. Rybina, Mads F. Schou, Thibault Schowing, Senel Selin Senkal, Svitlana Serga, Virginie Trieu, Alexander V. Symonenko, Mikhail V. Trostnikov, Evgenia A. Tsybul'ko, Joost Van Den Heuvel, David Van Waarde, Ekaterina R. Veselkina, Cristina P. Vieira, Xiaocui Wang, Jelle Zandveld, Jessica Abbott, Jean Christophe Billeter, Hervé Colinet, Mehregan Ebrahimi, Patricia Gibert, Jan Hrcek, Maaria Kankare, Iryna Kozeretska, Volker Loeschcke, Julián Mensch, Banu Sebnem Onder, John Parsch, Elena G. Pasyukova, Marina Stamenkovic-Radak, Eran Tauber, Cristina Vieira, Christian Wegener, Katja M. Hoedjes, Bas J. Zwaan, Andrea J. Betancourt, Claudia Fricke, Sonja Grath, Nico Posnien, Jorge Vieira, Martin Kapun, Christian Schlötterer, Paul Schmidt, Élio Sucena, Josefa González, Alan Bergland, Michael G. Ritchie, Thomas Flatt^*

^*Corresponding author for this work

Ecology & Evolution

Research output: Contribution to Journal › Article › Academic › peer-review

Abstract

A particularly well-studied evolutionary model is the vinegar fly Drosophila melanogaster, a cosmopolitan insect of ancestral southern-central African origin. Recent work suggests that it expanded out of Africa ∼9,000 years ago, and spread from the Middle East into Europe ∼1,800 years ago. During its global expansion, this human commensal adapted to novel climate zones and habitats. Despite much work on phenotypic differentiation and adaptation on several continents (especially North America and Australia), typically in the context of latitudinal clines, little is known about phenotypic divergence among European populations. Here, we sought to provide a continent-wide study of phenotypic differentiation among European populations of D. melanogaster. In a consortium-wide phenomics effort, we assayed 16 fitness-related traits on a panel of 173 isofemale lines from 9 European populations, with the majority of traits measured by several groups using semi-standardized protocols. For most fitness-related traits, we found significant differentiation among populations on a continental scale. Despite inevitable differences in assay conditions among labs, the reproducibility and hence robustness of our measurements were overall remarkably good. Several fitness components (e.g., viability, development time) exhibited significant latitudinal or longitudinal clines, and populations differed markedly in multivariate trait structure. Notably, populations experiencing higher humidity/rainfall and lower maximum temperature showed higher viability, fertility, starvation resistance, and lifespan at the expense of lower heat-shock survival, suggesting a pattern of local adaptation. Our results indicate that derived populations of this tropical fly have been shaped by pervasive spatially varying multivariate selection and adaptation to different climates on the European continent.

Original language	English
Pages (from-to)	473-490
Number of pages	18
Journal	Evolution Letters
Volume	9
Issue number	4
Early online date	8 Jul 2025
DOIs	https://doi.org/10.1093/evlett/qraf014
Publication status	Published - Aug 2025

Bibliographical note

Publisher Copyright:
© 2025 The Author(s). Published by Oxford University Press on behalf of The Society for the Study of Evolution (SSE) and European Society for Evolutionary Biology (ESEB).

Funding

We are grateful to two anonymous reviewers and Erik Svensson for valuable comments on our manuscript. We are indebted to the members of the DrosEU community for their support and collaboration over the years, and we thank the European Society for Evolutionary Biology (ESEB) for having generously funded our activities between 2016 and 2022 with a Special Topic Networks (STN) grant. We also wish to thank Yonatan Babore, Luis Cas- taneda, Patrick Favre, Liam Forsythe, Anna Grandchamp, Lennart H-per, Shahzad Khan, Ozan Kiratli, Melissa Erika Klug, Susanne Kl-hspies, Nadine Landgraf Koelln, Qinyang Li, Liam Miller, Mar- got Paris, Marisa A. Rodrigues, and Axel Wiberg for their help with our project as well as Pavlo A. Kovalenko for his assistance with collecting flies in 2018. This research was supported by a Special Topics Network (STN) grant from the European Society of Evolutionary Biol- ogy (ESEB) to the DrosEU consortium as well as by individ- ual grants and fellowships (grantees in alphabetical order): J.A.: Swedish Research Council (VR) grants 2015-04680 and 2020- 05412; A.J.B.: European Research Council (ERC CoG TE_INVASION); S.D.: Ministry of Science, Technological Development and Inno- vation of the Republic of Serbia (NITRA) grant 451-03-66/2024- 03/200007; K.E.: Ministry of Science, Technological Development and Innovation of the Republic of Serbia (NITRA) grant 451-03- 66/2024-03/200007; P.E.: Ministry of Science, Technological De- velopment and Innovation of the Republic of Serbia (NITRA) grant 451-03-66/2024-03/200007; P.E.: Jane Coffin Childs Memo- rial Fund for Medical Research 61-1673: T.F.: Swiss National Sci- ence Foundation (SNSF) grants 31003A-182262, 310030_219283, FZEB-0-214654; C.F.: Deutsche Forschungsgemeinschaft (DFG) grants 2973/5-1 and 2973/11; J.G.: Ministerio de Ciencia, Inno- vaci-n y Universidades/Agencia Estatal de Investigaci-n (MI- CIU/AEI/10.13039/501100011033/) grant PID2020-115874GB-I00; Ministerio de Ciencia, Innovaci-n y Universidades/Agencia Estatal de Investigaci-n (MICIU/AEI/10.13039/501100011033 and FEDER, UE) grant PID2023-148838NB-I00; Departament de Recerca i Uni- versitats Generalitat de Catalunya grant 2021 SGR 00417; S.G.: Deutsche Forschungsgemeinschaft (DFG) grants 271330745 and 514085304; K.M.H.: Marie Sklodowska-Curie Individual Fellowship (H2020-MSCA-IF-2015) 701949; J.H.: Czech Ministry of Education, grant; European Research Council (ERC CZ LL2001); M.J.: Min- istry of Science, Technological Development and Innovation of the Republic of Serbia (NITRA) grant 451-03-65/2024-03/200178; M.K.: Academy of Finland grant 322980; E.K.: European Molecular Biology Organization (EMBO) ALTF 248-2018; M.S.M.: ALW Open Programme grant 101185; J.P.: Deutsche Forschungsgemeinschaft (DFG) grants 255619725 (GR 4495/2-2) and 503272152 (GR 4495/4- 1); E.G.P.: Russian state budget, assignment NRC -KI-; A.P.: Min- istry of Science, Technological Development and Innovation of the Republic of Serbia (NITRA) grant 451-03-66/2024-03/200007; N.P.: Deutsche Forschungsgemeinschaft (DFG) grants PO 1648/7- 1, PO 1648/3-1, PO 1648/3-2; M.S.V.: Ministry of Science, Techno- logical Development and Innovation of the Republic of Serbia (NI- TRA) grant 451-03-65/2024-03/200178; C.S.: Austrian Science Fund (FWF) grants 10.55776/P32935, 10.55776/W1225, 10.55776/P33734; P.S.: National Institutes of Health (NIH) R01GM137430; M.S.-R.: Ministry of Science, Technological Development and Innovation of the Republic of Serbia (NITRA) grant 451-03-47/2023-01/200178; M.T.: Ministry of Science, Technological Development and Inno- vation of the Republic of Serbia (NITRA) grant 451-03-66/2024- 03/200007; E.T.: Israel Science Foundation (ISF) 2121/23; C.V.: Agence Nationale de la Recherche (ANR) grant Longevity ANR-20-CE02-0015, J.V.: Funda-o para a Ci-ncia e a Tecnologia (FCT) UIDB/04293/2020; C.W.: Deutsche Forschungsgemeinschaft (DFG) grant WE 2652/7-1. This research was supported by a Special Topics Network (STN) grant from the European Society of Evolutionary Biology (ESEB) to the DrosEU consortium as well as by individual grants and fellowships (grantees in alphabetical order): J.A.: Swedish Research Council (VR) grants 2015-04680 and 2020-05412; A.J.B.: European Research Council (ERC CoG TE_INVASION); S.D.: Ministry of Science, Technological Development and Innovation of the Republic of Serbia (NITRA) grant 451-03-66/2024-03/200007; K.E.: Ministry of Science, Technological Development and Innovation of the Republic of Serbia (NITRA) grant 451-03-66/2024-03/200007; P.E.: Ministry of Science, Technological Development and Innovation of the Republic of Serbia (NITRA) grant 451-03-66/2024-03/200007; P.E.: Jane Coffin Childs Memorial Fund for Medical Research 61-1673: T.F.: Swiss National Science Foundation (SNSF) grants 31003A-182262, 310030_219283, FZEB-0-214654; C.F.: Deutsche Forschungsgemeinschaft (DFG) grants 2973/5-1 and 2973/11; J.G.: Ministerio de Ciencia, Innovación y Universidades/Agencia Estatal de Investigación (MICIU/AEI/10.13039/501100011033/) grant PID2020-115874GB-I00; Ministerio de Ciencia, Innovación y Universidades/Agencia Estatal de Investigación (MICIU/AEI/10.13039/501100011033 and FEDER, UE) grant PID2023-148838NB-I00; Departament de Recerca i Universitats Generalitat de Catalunya grant 2021 SGR 00417; S.G.: Deutsche Forschungsgemeinschaft (DFG) grants 271330745 and 514085304; K.M.H.: Marie Skłodowska-Curie Individual Fellowship (H2020-MSCA-IF-2015) 701949; J.H.: Czech Ministry of Education, grant; European Research Council (ERC CZ LL2001); M.J.: Ministry of Science, Technological Development and Innovation of the Republic of Serbia (NITRA) grant 451-03-65/2024-03/200178; M.K.: Academy of Finland grant 322980; E.K.: European Molecular Biology Organization (EMBO) ALTF 248-2018; M.S.M.: ALW Open Programme grant 101185; J.P.: Deutsche Forschungsgemeinschaft (DFG) grants 255619725 (GR 4495/2-2) and 503272152 (GR 4495/4-1); E.G.P.: Russian state budget, assignment NRC “KI”; A.P.: Ministry of Science, Technological Development and Innovation of the Republic of Serbia (NITRA) grant 451-03-66/2024-03/200007; N.P.: Deutsche Forschungsgemeinschaft (DFG) grants PO 1648/7-1, PO 1648/3-1, PO 1648/3-2; M.S.V.: Ministry of Science, Technological Development and Innovation of the Republic of Serbia (NITRA) grant 451-03-65/2024-03/200178; C.S.: Austrian Science Fund (FWF) grants 10.55776/P32935, 10.55776/W1225, 10.55776/P33734; P.S.: National Institutes of Health (NIH) R01GM137430; M.S.-R.: Ministry of Science, Technological Development and Innovation of the Republic of Serbia (NITRA) grant 451-03-47/2023-01/200178; M.T.: Ministry of Science, Technological Development and Innovation of the Republic of Serbia (NITRA) grant 451-03-66/2024-03/200007; E.T.: Israel Science Foundation (ISF) 2121/23; C.V.: Agence Nationale de la Recherche (ANR) grant Longevity ANR-20-CE02-0015, J.V.: Fundação para a Ciência e a Tecnologia (FCT) UIDB/04293/2020; C.W.: Deutsche Forschungsgemeinschaft (DFG) grant WE 2652/7-1.

Keywords

adaptation
D. melanogaster
Europe
fitness traits
phenotypic variation
population differentiation

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Cite this

Durmaz Mitchell, E., Kerdaffrec, E., Harney, E., Paulo, T. F., Veselinovic, M. S., Tanaskovic, M., Tyukmaeva, V., De Arcaya, T. A. F., Aksoy, C., Argyridou, E., Bailly, T. P. M., Can, D., Cobanoglu, E., Cook, N., Coşkun, S., Davidovic, S., Demir, E., Dias, T., Rasouli-Dogaheh, S., ... Flatt, T. (2025). Continent-wide differentiation of fitness traits and patterns of climate adaptation among European populations of Drosophila melanogaster. Evolution Letters, 9(4), 473-490. https://doi.org/10.1093/evlett/qraf014

@article{6fdf23b4a8ce4b4c80004798beeb2336,

title = "Continent-wide differentiation of fitness traits and patterns of climate adaptation among European populations of Drosophila melanogaster",

abstract = "A particularly well-studied evolutionary model is the vinegar fly Drosophila melanogaster, a cosmopolitan insect of ancestral southern-central African origin. Recent work suggests that it expanded out of Africa ∼9,000 years ago, and spread from the Middle East into Europe ∼1,800 years ago. During its global expansion, this human commensal adapted to novel climate zones and habitats. Despite much work on phenotypic differentiation and adaptation on several continents (especially North America and Australia), typically in the context of latitudinal clines, little is known about phenotypic divergence among European populations. Here, we sought to provide a continent-wide study of phenotypic differentiation among European populations of D. melanogaster. In a consortium-wide phenomics effort, we assayed 16 fitness-related traits on a panel of 173 isofemale lines from 9 European populations, with the majority of traits measured by several groups using semi-standardized protocols. For most fitness-related traits, we found significant differentiation among populations on a continental scale. Despite inevitable differences in assay conditions among labs, the reproducibility and hence robustness of our measurements were overall remarkably good. Several fitness components (e.g., viability, development time) exhibited significant latitudinal or longitudinal clines, and populations differed markedly in multivariate trait structure. Notably, populations experiencing higher humidity/rainfall and lower maximum temperature showed higher viability, fertility, starvation resistance, and lifespan at the expense of lower heat-shock survival, suggesting a pattern of local adaptation. Our results indicate that derived populations of this tropical fly have been shaped by pervasive spatially varying multivariate selection and adaptation to different climates on the European continent.",

keywords = "adaptation, D. melanogaster, Europe, fitness traits, phenotypic variation, population differentiation",

author = "\{Durmaz Mitchell\}, Esra and Envel Kerdaffrec and Ewan Harney and Paulo, \{T{\^a}nia F.\} and Veselinovic, \{Marija Savic\} and Marija Tanaskovic and Venera Tyukmaeva and \{De Arcaya\}, \{Teresa Abaurrea Fernandez\} and Cansu Aksoy and Eliza Argyridou and Bailly, \{Tiphaine P.M.\} and Dogus Can and Ezgi Cobanoglu and Nicola Cook and Seda Co{\c s}kun and Slobodan Davidovic and Ekin Demir and T{\^a}nia Dias and Somayeh Rasouli-Dogaheh and Pedro Duque and Katarina Eric and Pavle Eric and Priscilla Erickson and Filip Filipovski and Bettina Fishman and Amanda Glaser-Schmitt and August Goldfischer and Llewellyn Green and Sonia Janillon and Mihailo Jelic and Hristina Kostic and Kreiman, \{Lucas E.\} and Natacha Kremer and Manolis Lyrakis and Maistrenko, \{Oleksandr M.\} and Marti, \{Sapho Lou\} and Megan McGunnigle and Miriam Merenciano and Mira, \{M{\'a}rio S.\} and Vincent Montbel and Laurence Mouton and Mukha, \{Dmitry V.\} and Siddharth Murali and Aleksandra Patenkovic and Oleksandra Protsenko and Putero, \{Florencia A.\} and Micael Reis and Roshina, \{Natalia V.\} and Rybina, \{Olga Y.\} and Schou, \{Mads F.\} and Thibault Schowing and Senkal, \{Senel Selin\} and Svitlana Serga and Virginie Trieu and Symonenko, \{Alexander V.\} and Trostnikov, \{Mikhail V.\} and Tsybul'ko, \{Evgenia A.\} and \{Van Den Heuvel\}, Joost and \{Van Waarde\}, David and Veselkina, \{Ekaterina R.\} and Vieira, \{Cristina P.\} and Xiaocui Wang and Jelle Zandveld and Jessica Abbott and Billeter, \{Jean Christophe\} and Herv{\'e} Colinet and Mehregan Ebrahimi and Patricia Gibert and Jan Hrcek and Maaria Kankare and Iryna Kozeretska and Volker Loeschcke and Juli{\'a}n Mensch and Onder, \{Banu Sebnem\} and John Parsch and Pasyukova, \{Elena G.\} and Marina Stamenkovic-Radak and Eran Tauber and Cristina Vieira and Christian Wegener and Hoedjes, \{Katja M.\} and Zwaan, \{Bas J.\} and Betancourt, \{Andrea J.\} and Claudia Fricke and Sonja Grath and Nico Posnien and Jorge Vieira and Martin Kapun and Christian Schl{\"o}tterer and Paul Schmidt and {\'E}lio Sucena and Josefa Gonz{\'a}lez and Alan Bergland and Ritchie, \{Michael G.\} and Thomas Flatt",

note = "Publisher Copyright: {\textcopyright} 2025 The Author(s). Published by Oxford University Press on behalf of The Society for the Study of Evolution (SSE) and European Society for Evolutionary Biology (ESEB).",

year = "2025",

month = aug,

doi = "10.1093/evlett/qraf014",

language = "English",

volume = "9",

pages = "473--490",

journal = "Evolution Letters",

issn = "2056-3744",

publisher = "Wiley-Blackwell Publishing Ltd",

number = "4",

}

Durmaz Mitchell, E, Kerdaffrec, E, Harney, E, Paulo, TF, Veselinovic, MS, Tanaskovic, M, Tyukmaeva, V, De Arcaya, TAF, Aksoy, C, Argyridou, E, Bailly, TPM, Can, D, Cobanoglu, E, Cook, N, Coşkun, S, Davidovic, S, Demir, E, Dias, T, Rasouli-Dogaheh, S, Duque, P, Eric, K, Eric, P, Erickson, P, Filipovski, F, Fishman, B, Glaser-Schmitt, A, Goldfischer, A, Green, L, Janillon, S, Jelic, M, Kostic, H, Kreiman, LE, Kremer, N, Lyrakis, M, Maistrenko, OM, Marti, SL, McGunnigle, M, Merenciano, M, Mira, MS, Montbel, V, Mouton, L, Mukha, DV, Murali, S, Patenkovic, A, Protsenko, O, Putero, FA, Reis, M, Roshina, NV, Rybina, OY, Schou, MF, Schowing, T, Senkal, SS, Serga, S, Trieu, V, Symonenko, AV, Trostnikov, MV, Tsybul'ko, EA, Van Den Heuvel, J, Van Waarde, D, Veselkina, ER, Vieira, CP, Wang, X, Zandveld, J, Abbott, J, Billeter, JC, Colinet, H, Ebrahimi, M, Gibert, P, Hrcek, J, Kankare, M, Kozeretska, I, Loeschcke, V, Mensch, J, Onder, BS, Parsch, J, Pasyukova, EG, Stamenkovic-Radak, M, Tauber, E, Vieira, C, Wegener, C, Hoedjes, KM, Zwaan, BJ, Betancourt, AJ, Fricke, C, Grath, S, Posnien, N, Vieira, J, Kapun, M, Schlötterer, C, Schmidt, P, Sucena, É, González, J, Bergland, A, Ritchie, MG & Flatt, T 2025, 'Continent-wide differentiation of fitness traits and patterns of climate adaptation among European populations of Drosophila melanogaster', Evolution Letters, vol. 9, no. 4, pp. 473-490. https://doi.org/10.1093/evlett/qraf014

TY - JOUR

T1 - Continent-wide differentiation of fitness traits and patterns of climate adaptation among European populations of Drosophila melanogaster

AU - Durmaz Mitchell, Esra

AU - Kerdaffrec, Envel

AU - Harney, Ewan

AU - Paulo, Tânia F.

AU - Veselinovic, Marija Savic

AU - Tanaskovic, Marija

AU - Tyukmaeva, Venera

AU - De Arcaya, Teresa Abaurrea Fernandez

AU - Aksoy, Cansu

AU - Argyridou, Eliza

AU - Bailly, Tiphaine P.M.

AU - Can, Dogus

AU - Cobanoglu, Ezgi

AU - Cook, Nicola

AU - Coşkun, Seda

AU - Davidovic, Slobodan

AU - Demir, Ekin

AU - Dias, Tânia

AU - Rasouli-Dogaheh, Somayeh

AU - Duque, Pedro

AU - Eric, Katarina

AU - Eric, Pavle

AU - Erickson, Priscilla

AU - Filipovski, Filip

AU - Fishman, Bettina

AU - Glaser-Schmitt, Amanda

AU - Goldfischer, August

AU - Green, Llewellyn

AU - Janillon, Sonia

AU - Jelic, Mihailo

AU - Kostic, Hristina

AU - Kreiman, Lucas E.

AU - Kremer, Natacha

AU - Lyrakis, Manolis

AU - Maistrenko, Oleksandr M.

AU - Marti, Sapho Lou

AU - McGunnigle, Megan

AU - Merenciano, Miriam

AU - Mira, Mário S.

AU - Montbel, Vincent

AU - Mouton, Laurence

AU - Mukha, Dmitry V.

AU - Murali, Siddharth

AU - Patenkovic, Aleksandra

AU - Protsenko, Oleksandra

AU - Putero, Florencia A.

AU - Reis, Micael

AU - Roshina, Natalia V.

AU - Rybina, Olga Y.

AU - Schou, Mads F.

AU - Schowing, Thibault

AU - Senkal, Senel Selin

AU - Serga, Svitlana

AU - Trieu, Virginie

AU - Symonenko, Alexander V.

AU - Trostnikov, Mikhail V.

AU - Tsybul'ko, Evgenia A.

AU - Van Den Heuvel, Joost

AU - Van Waarde, David

AU - Veselkina, Ekaterina R.

AU - Vieira, Cristina P.

AU - Wang, Xiaocui

AU - Zandveld, Jelle

AU - Abbott, Jessica

AU - Billeter, Jean Christophe

AU - Colinet, Hervé

AU - Ebrahimi, Mehregan

AU - Gibert, Patricia

AU - Hrcek, Jan

AU - Kankare, Maaria

AU - Kozeretska, Iryna

AU - Loeschcke, Volker

AU - Mensch, Julián

AU - Onder, Banu Sebnem

AU - Parsch, John

AU - Pasyukova, Elena G.

AU - Stamenkovic-Radak, Marina

AU - Tauber, Eran

AU - Vieira, Cristina

AU - Wegener, Christian

AU - Hoedjes, Katja M.

AU - Zwaan, Bas J.

AU - Betancourt, Andrea J.

AU - Fricke, Claudia

AU - Grath, Sonja

AU - Posnien, Nico

AU - Vieira, Jorge

AU - Kapun, Martin

AU - Schlötterer, Christian

AU - Schmidt, Paul

AU - Sucena, Élio

AU - González, Josefa

AU - Bergland, Alan

AU - Ritchie, Michael G.

AU - Flatt, Thomas

PY - 2025/8

Y1 - 2025/8

N2 - A particularly well-studied evolutionary model is the vinegar fly Drosophila melanogaster, a cosmopolitan insect of ancestral southern-central African origin. Recent work suggests that it expanded out of Africa ∼9,000 years ago, and spread from the Middle East into Europe ∼1,800 years ago. During its global expansion, this human commensal adapted to novel climate zones and habitats. Despite much work on phenotypic differentiation and adaptation on several continents (especially North America and Australia), typically in the context of latitudinal clines, little is known about phenotypic divergence among European populations. Here, we sought to provide a continent-wide study of phenotypic differentiation among European populations of D. melanogaster. In a consortium-wide phenomics effort, we assayed 16 fitness-related traits on a panel of 173 isofemale lines from 9 European populations, with the majority of traits measured by several groups using semi-standardized protocols. For most fitness-related traits, we found significant differentiation among populations on a continental scale. Despite inevitable differences in assay conditions among labs, the reproducibility and hence robustness of our measurements were overall remarkably good. Several fitness components (e.g., viability, development time) exhibited significant latitudinal or longitudinal clines, and populations differed markedly in multivariate trait structure. Notably, populations experiencing higher humidity/rainfall and lower maximum temperature showed higher viability, fertility, starvation resistance, and lifespan at the expense of lower heat-shock survival, suggesting a pattern of local adaptation. Our results indicate that derived populations of this tropical fly have been shaped by pervasive spatially varying multivariate selection and adaptation to different climates on the European continent.

AB - A particularly well-studied evolutionary model is the vinegar fly Drosophila melanogaster, a cosmopolitan insect of ancestral southern-central African origin. Recent work suggests that it expanded out of Africa ∼9,000 years ago, and spread from the Middle East into Europe ∼1,800 years ago. During its global expansion, this human commensal adapted to novel climate zones and habitats. Despite much work on phenotypic differentiation and adaptation on several continents (especially North America and Australia), typically in the context of latitudinal clines, little is known about phenotypic divergence among European populations. Here, we sought to provide a continent-wide study of phenotypic differentiation among European populations of D. melanogaster. In a consortium-wide phenomics effort, we assayed 16 fitness-related traits on a panel of 173 isofemale lines from 9 European populations, with the majority of traits measured by several groups using semi-standardized protocols. For most fitness-related traits, we found significant differentiation among populations on a continental scale. Despite inevitable differences in assay conditions among labs, the reproducibility and hence robustness of our measurements were overall remarkably good. Several fitness components (e.g., viability, development time) exhibited significant latitudinal or longitudinal clines, and populations differed markedly in multivariate trait structure. Notably, populations experiencing higher humidity/rainfall and lower maximum temperature showed higher viability, fertility, starvation resistance, and lifespan at the expense of lower heat-shock survival, suggesting a pattern of local adaptation. Our results indicate that derived populations of this tropical fly have been shaped by pervasive spatially varying multivariate selection and adaptation to different climates on the European continent.

KW - adaptation

KW - D. melanogaster

KW - Europe

KW - fitness traits

KW - phenotypic variation

KW - population differentiation

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U2 - 10.1093/evlett/qraf014

DO - 10.1093/evlett/qraf014

M3 - Article

AN - SCOPUS:105016821004

SN - 2056-3744

VL - 9

SP - 473

EP - 490

JO - Evolution Letters

JF - Evolution Letters

IS - 4

ER -

Continent-wide differentiation of fitness traits and patterns of climate adaptation among European populations of Drosophila melanogaster

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