Footprints of worldwide adaptation in structured populations of Drosophila melanogaster through the expanded DEST 2.0 genomic resource

Joaquin C B Nunez; Marta Coronado-Zamora; Mathieu Gautier; Martin Kapun; Sonja Steindl; Lino Ometto; Katja Hoedjes; Julia Beets; R Axel W Wiberg; Giovanni R Mazzeo; David J Bass; Denys Radionov; Iryna Kozeretska; Mariia Zinchenko; Oleksandra Protsenko; Svitlana V Serga; Cristina Amor-Jimenez; Sònia Casillas; Alejandro Sánchez-Gracia; Aleksandra Patenkovic; Amanda Glaser-Schmitt; Antonio Barbadilla; Antonio J Buendia-Ruíz; Astra Clelia Bertelli; Balázs Kiss; Banu Sebnem Önder; Bélen Roldán Matrín; Bregje Wertheim; Candice Deschamps; Carlos E Arboleda-Bustos; Carlos Tinedo; Christian Feller; Christian Schlötterer; Clancy Lawler; Claudia Fricke; Cristina P Vieira; Cristina Vieira; Darren J Obbard; Dorcas Juana Orengo; Doris Vela; Eduardo Amat; Elgion Loreto; Envel Kerdaffrec; Esra Durmaz Mitchell; Eva Puerma; Fabian Staubach; M Florencia Camus; Hervé Colinet; Jan Hrcek; Jesper Givskov Sørensen; Jessica Abbott; Joan Torro; John Parsch; Jorge Vieira; Jose Luis Olmo; Khalid Khfif; Krzysztof Wojciechowski; Lilian Madi-Ravazzi; Maaria Kankare; Mads F Schou; Emmanuel D Ladoukakis; M Josefa Gómez-Julián; M Luisa Espinosa-Jimenez; Maria Pilar Garcia Guerreiro; Maria-Eleni Parakatselaki; Marija Savic Veselinovic; Marija Tanaskovic; Marina Stamenkovic-Radak; Margot Paris; Marta Pascual; Michael G Ritchie; Michel Rera; Mihailo Jelić; Mina Hojat Ansari; Mina Rakic; Miriam Merenciano; Natalia Hernandes; Nazar Gora; Nicolas Rode; Omar Rota-Stabelli; Paloma Sepulveda; Patricia Gibert; Pau Carazo; Pinar Kohlmeier; Priscilla A Erickson; Renaud Vitalis; Jorge Roberto Torres; Sara Guirao-Rico; Sebastian E Ramos-Onsins; Silvana Castillo; Tânia F Paulo; Venera Tyukmaeva; Zahara Alonso; Vladimir E Alatortsev; Elena Pasyukova; Dmitry V Mukha; Dmitri A Petrov; Paul Schmidt; Thomas Flatt; Alan O Bergland; Josefa Gonzalez

doi:10.1093/molbev/msaf132

Footprints of worldwide adaptation in structured populations of Drosophila melanogaster through the expanded DEST 2.0 genomic resource

Joaquin C B Nunez^*, Marta Coronado-Zamora^*, Mathieu Gautier, Martin Kapun, Sonja Steindl, Lino Ometto, Katja Hoedjes, Julia Beets, R Axel W Wiberg, Giovanni R Mazzeo, David J Bass, Denys Radionov, Iryna Kozeretska, Mariia Zinchenko, Oleksandra Protsenko, Svitlana V Serga, Cristina Amor-Jimenez, Sònia Casillas, Alejandro Sánchez-Gracia, Aleksandra PatenkovicAmanda Glaser-Schmitt, Antonio Barbadilla, Antonio J Buendia-Ruíz, Astra Clelia Bertelli, Balázs Kiss, Banu Sebnem Önder, Bélen Roldán Matrín, Bregje Wertheim, Candice Deschamps, Carlos E Arboleda-Bustos, Carlos Tinedo, Christian Feller, Christian Schlötterer, Clancy Lawler, Claudia Fricke, Cristina P Vieira, Cristina Vieira, Darren J Obbard, Dorcas Juana Orengo, Doris Vela, Eduardo Amat, Elgion Loreto, Envel Kerdaffrec, Esra Durmaz Mitchell, Eva Puerma, Fabian Staubach, M Florencia Camus, Hervé Colinet, Jan Hrcek, Jesper Givskov Sørensen, Jessica Abbott, Joan Torro, John Parsch, Jorge Vieira, Jose Luis Olmo, Khalid Khfif, Krzysztof Wojciechowski, Lilian Madi-Ravazzi, Maaria Kankare, Mads F Schou, Emmanuel D Ladoukakis, M Josefa Gómez-Julián, M Luisa Espinosa-Jimenez, Maria Pilar Garcia Guerreiro, Maria-Eleni Parakatselaki, Marija Savic Veselinovic, Marija Tanaskovic, Marina Stamenkovic-Radak, Margot Paris, Marta Pascual, Michael G Ritchie, Michel Rera, Mihailo Jelić, Mina Hojat Ansari, Mina Rakic, Miriam Merenciano, Natalia Hernandes, Nazar Gora, Nicolas Rode, Omar Rota-Stabelli, Paloma Sepulveda, Patricia Gibert, Pau Carazo, Pinar Kohlmeier, Priscilla A Erickson, Renaud Vitalis, Jorge Roberto Torres, Sara Guirao-Rico, Sebastian E Ramos-Onsins, Silvana Castillo, Tânia F Paulo, Venera Tyukmaeva, Zahara Alonso, Vladimir E Alatortsev, Elena Pasyukova, Dmitry V Mukha, Dmitri A Petrov^*, Paul Schmidt^*, Thomas Flatt^*, Alan O Bergland^*, Josefa Gonzalez^*

^*Corresponding author for this work

Research output: Contribution to journal › Article › peer-review

Abstract

Large-scale genomic resources can place genetic variation into an ecologically informed context. To advance our understanding of the population genetics of the fruit fly Drosophila melanogaster, we present an expanded release of the community-generated population genomics resource Drosophila Evolution over Space and Time (DEST 2.0; https://dest.bio/). This release includes 530 high-quality pooled libraries from flies collected across six continents over more than a decade (2009 to 2021), most at multiple time points per year; 211 of these libraries are sequenced and shared here for the first time. We used this enhanced resource to elucidate several aspects of the species' demographic history and identify novel signs of adaptation across spatial and temporal dimensions. For example, we showed that the spatial genetic structure of populations is stable over time, but that drift due to seasonal contractions of population size causes populations to diverge over time. We identified signals of adaptation that vary between continents in genomic regions associated with xenobiotic resistance, consistent with independent adaptation to common pesticides. Moreover, by analyzing samples collected during spring and fall across Europe, we provide new evidence for seasonal adaptation related to loci associated with pathogen response. Furthermore, we have also released an updated version of the DEST genome browser. This is a useful tool for studying spatiotemporal patterns of genetic variation in this classic model system.

Original language	English
Article number	msaf132
Pages (from-to)	1-28
Number of pages	28
Journal	Molecular Biology and Evolution
Volume	42
Issue number	8
Early online date	18 Aug 2025
DOIs	https://doi.org/10.1093/molbev/msaf132
Publication status	Published - Aug 2025

Keywords

Seasonal selection
Ecological genomics
Dataset
Drosophila melanogaster
Local adaptation
Population structure

Access to Document

10.1093/molbev/msaf132Licence: CC BY-NC

Nunez_et_al_2025_Footprints_of_worldwide_adaptation_MBE_42_msaf132_CCBYNC
Copyright © The Author(s) 2025. Published by Oxford University Press on behalf of Society for Molecular Biology and Evolution. This is an Open Access article distributed under the terms of the Creative Commons Attribution-NonCommercial License (https://creativecommons.org/licenses/by-nc/4.0/), which permits non-commercial re-use, distribution, and reproduction in any medium, provided the original work is properly cited.
Final published version, 10.3 MBLicence: CC BY-NC

Identifying the genetic targets of sexua: Identifying the genetic targets of sexual selection
Ritchie, M. (PI) & Cook, N. (CoI)
NERC
1/11/20 → 31/10/23
Project: Standard

Cite this

Nunez, J. C. B., Coronado-Zamora, M., Gautier, M., Kapun, M., Steindl, S., Ometto, L., Hoedjes, K., Beets, J., Wiberg, R. A. W., Mazzeo, G. R., Bass, D. J., Radionov, D., Kozeretska, I., Zinchenko, M., Protsenko, O., Serga, S. V., Amor-Jimenez, C., Casillas, S., Sánchez-Gracia, A., ... Gonzalez, J. (2025). Footprints of worldwide adaptation in structured populations of Drosophila melanogaster through the expanded DEST 2.0 genomic resource. Molecular Biology and Evolution, 42(8), 1-28. Article msaf132. https://doi.org/10.1093/molbev/msaf132

@article{6191405639464e6ca86a7aa3d640f7f2,

title = "Footprints of worldwide adaptation in structured populations of Drosophila melanogaster through the expanded DEST 2.0 genomic resource",

abstract = "Large-scale genomic resources can place genetic variation into an ecologically informed context. To advance our understanding of the population genetics of the fruit fly Drosophila melanogaster, we present an expanded release of the community-generated population genomics resource Drosophila Evolution over Space and Time (DEST 2.0; https://dest.bio/). This release includes 530 high-quality pooled libraries from flies collected across six continents over more than a decade (2009 to 2021), most at multiple time points per year; 211 of these libraries are sequenced and shared here for the first time. We used this enhanced resource to elucidate several aspects of the species' demographic history and identify novel signs of adaptation across spatial and temporal dimensions. For example, we showed that the spatial genetic structure of populations is stable over time, but that drift due to seasonal contractions of population size causes populations to diverge over time. We identified signals of adaptation that vary between continents in genomic regions associated with xenobiotic resistance, consistent with independent adaptation to common pesticides. Moreover, by analyzing samples collected during spring and fall across Europe, we provide new evidence for seasonal adaptation related to loci associated with pathogen response. Furthermore, we have also released an updated version of the DEST genome browser. This is a useful tool for studying spatiotemporal patterns of genetic variation in this classic model system.",

keywords = "Seasonal selection, Ecological genomics, Dataset, Drosophila melanogaster, Local adaptation, Population structure",

author = "Nunez, {Joaquin C B} and Marta Coronado-Zamora and Mathieu Gautier and Martin Kapun and Sonja Steindl and Lino Ometto and Katja Hoedjes and Julia Beets and Wiberg, {R Axel W} and Mazzeo, {Giovanni R} and Bass, {David J} and Denys Radionov and Iryna Kozeretska and Mariia Zinchenko and Oleksandra Protsenko and Serga, {Svitlana V} and Cristina Amor-Jimenez and S{\`o}nia Casillas and Alejandro S{\'a}nchez-Gracia and Aleksandra Patenkovic and Amanda Glaser-Schmitt and Antonio Barbadilla and Buendia-Ru{\'i}z, {Antonio J} and Bertelli, {Astra Clelia} and Bal{\'a}zs Kiss and {\"O}nder, {Banu Sebnem} and Matr{\'i}n, {B{\'e}len Rold{\'a}n} and Bregje Wertheim and Candice Deschamps and Arboleda-Bustos, {Carlos E} and Carlos Tinedo and Christian Feller and Christian Schl{\"o}tterer and Clancy Lawler and Claudia Fricke and Vieira, {Cristina P} and Cristina Vieira and Obbard, {Darren J} and Orengo, {Dorcas Juana} and Doris Vela and Eduardo Amat and Elgion Loreto and Envel Kerdaffrec and Mitchell, {Esra Durmaz} and Eva Puerma and Fabian Staubach and Camus, {M Florencia} and Herv{\'e} Colinet and Jan Hrcek and S{\o}rensen, {Jesper Givskov} and Jessica Abbott and Joan Torro and John Parsch and Jorge Vieira and Olmo, {Jose Luis} and Khalid Khfif and Krzysztof Wojciechowski and Lilian Madi-Ravazzi and Maaria Kankare and Schou, {Mads F} and Ladoukakis, {Emmanuel D} and G{\'o}mez-Juli{\'a}n, {M Josefa} and Espinosa-Jimenez, {M Luisa} and {Garcia Guerreiro}, {Maria Pilar} and Maria-Eleni Parakatselaki and {Savic Veselinovic}, Marija and Marija Tanaskovic and Marina Stamenkovic-Radak and Margot Paris and Marta Pascual and Ritchie, {Michael G} and Michel Rera and Mihailo Jeli{\'c} and Ansari, {Mina Hojat} and Mina Rakic and Miriam Merenciano and Natalia Hernandes and Nazar Gora and Nicolas Rode and Omar Rota-Stabelli and Paloma Sepulveda and Patricia Gibert and Pau Carazo and Pinar Kohlmeier and Erickson, {Priscilla A} and Renaud Vitalis and Torres, {Jorge Roberto} and Sara Guirao-Rico and Ramos-Onsins, {Sebastian E} and Silvana Castillo and Paulo, {T{\^a}nia F} and Venera Tyukmaeva and Zahara Alonso and Alatortsev, {Vladimir E} and Elena Pasyukova and Mukha, {Dmitry V} and Petrov, {Dmitri A} and Paul Schmidt and Thomas Flatt and Bergland, {Alan O} and Josefa Gonzalez",

note = "Funding: M.Kap. was supported by the Horizon Europe project FAIRiCUBE (grant #101059238). S.S. was supported by the Horizon Europe project FAIRiCUBE (grant #101059238). D.O. was supported by the UK Biotechnology and Biological Sciences Research Council (BBSRC) grant BB/T007516/1. M.G.R. was supported by Natural Environment Research Council (NERC), UK award NE/V001566/1.",

year = "2025",

month = aug,

doi = "10.1093/molbev/msaf132",

language = "English",

volume = "42",

pages = "1--28",

journal = "Molecular Biology and Evolution",

issn = "0737-4038",

publisher = "Oxford University Press",

number = "8",

}

Nunez, JCB, Coronado-Zamora, M, Gautier, M, Kapun, M, Steindl, S, Ometto, L, Hoedjes, K, Beets, J, Wiberg, RAW, Mazzeo, GR, Bass, DJ, Radionov, D, Kozeretska, I, Zinchenko, M, Protsenko, O, Serga, SV, Amor-Jimenez, C, Casillas, S, Sánchez-Gracia, A, Patenkovic, A, Glaser-Schmitt, A, Barbadilla, A, Buendia-Ruíz, AJ, Bertelli, AC, Kiss, B, Önder, BS, Matrín, BR, Wertheim, B, Deschamps, C, Arboleda-Bustos, CE, Tinedo, C, Feller, C, Schlötterer, C, Lawler, C, Fricke, C, Vieira, CP, Vieira, C, Obbard, DJ, Orengo, DJ, Vela, D, Amat, E, Loreto, E, Kerdaffrec, E, Mitchell, ED, Puerma, E, Staubach, F, Camus, MF, Colinet, H, Hrcek, J, Sørensen, JG, Abbott, J, Torro, J, Parsch, J, Vieira, J, Olmo, JL, Khfif, K, Wojciechowski, K, Madi-Ravazzi, L, Kankare, M, Schou, MF, Ladoukakis, ED, Gómez-Julián, MJ, Espinosa-Jimenez, ML, Garcia Guerreiro, MP, Parakatselaki, M-E, Savic Veselinovic, M, Tanaskovic, M, Stamenkovic-Radak, M, Paris, M, Pascual, M, Ritchie, MG, Rera, M, Jelić, M, Ansari, MH, Rakic, M, Merenciano, M, Hernandes, N, Gora, N, Rode, N, Rota-Stabelli, O, Sepulveda, P, Gibert, P, Carazo, P, Kohlmeier, P, Erickson, PA, Vitalis, R, Torres, JR, Guirao-Rico, S, Ramos-Onsins, SE, Castillo, S, Paulo, TF, Tyukmaeva, V, Alonso, Z, Alatortsev, VE, Pasyukova, E, Mukha, DV, Petrov, DA, Schmidt, P, Flatt, T, Bergland, AO & Gonzalez, J 2025, 'Footprints of worldwide adaptation in structured populations of Drosophila melanogaster through the expanded DEST 2.0 genomic resource', Molecular Biology and Evolution, vol. 42, no. 8, msaf132, pp. 1-28. https://doi.org/10.1093/molbev/msaf132

TY - JOUR

T1 - Footprints of worldwide adaptation in structured populations of Drosophila melanogaster through the expanded DEST 2.0 genomic resource

AU - Nunez, Joaquin C B

AU - Coronado-Zamora, Marta

AU - Gautier, Mathieu

AU - Kapun, Martin

AU - Steindl, Sonja

AU - Ometto, Lino

AU - Hoedjes, Katja

AU - Beets, Julia

AU - Wiberg, R Axel W

AU - Mazzeo, Giovanni R

AU - Bass, David J

AU - Radionov, Denys

AU - Kozeretska, Iryna

AU - Zinchenko, Mariia

AU - Protsenko, Oleksandra

AU - Serga, Svitlana V

AU - Amor-Jimenez, Cristina

AU - Casillas, Sònia

AU - Sánchez-Gracia, Alejandro

AU - Patenkovic, Aleksandra

AU - Glaser-Schmitt, Amanda

AU - Barbadilla, Antonio

AU - Buendia-Ruíz, Antonio J

AU - Bertelli, Astra Clelia

AU - Kiss, Balázs

AU - Önder, Banu Sebnem

AU - Matrín, Bélen Roldán

AU - Wertheim, Bregje

AU - Deschamps, Candice

AU - Arboleda-Bustos, Carlos E

AU - Tinedo, Carlos

AU - Feller, Christian

AU - Schlötterer, Christian

AU - Lawler, Clancy

AU - Fricke, Claudia

AU - Vieira, Cristina P

AU - Vieira, Cristina

AU - Obbard, Darren J

AU - Orengo, Dorcas Juana

AU - Vela, Doris

AU - Amat, Eduardo

AU - Loreto, Elgion

AU - Kerdaffrec, Envel

AU - Mitchell, Esra Durmaz

AU - Puerma, Eva

AU - Staubach, Fabian

AU - Camus, M Florencia

AU - Colinet, Hervé

AU - Hrcek, Jan

AU - Sørensen, Jesper Givskov

AU - Abbott, Jessica

AU - Torro, Joan

AU - Parsch, John

AU - Vieira, Jorge

AU - Olmo, Jose Luis

AU - Khfif, Khalid

AU - Wojciechowski, Krzysztof

AU - Madi-Ravazzi, Lilian

AU - Kankare, Maaria

AU - Schou, Mads F

AU - Ladoukakis, Emmanuel D

AU - Gómez-Julián, M Josefa

AU - Espinosa-Jimenez, M Luisa

AU - Garcia Guerreiro, Maria Pilar

AU - Parakatselaki, Maria-Eleni

AU - Savic Veselinovic, Marija

AU - Tanaskovic, Marija

AU - Stamenkovic-Radak, Marina

AU - Paris, Margot

AU - Pascual, Marta

AU - Ritchie, Michael G

AU - Rera, Michel

AU - Jelić, Mihailo

AU - Ansari, Mina Hojat

AU - Rakic, Mina

AU - Merenciano, Miriam

AU - Hernandes, Natalia

AU - Gora, Nazar

AU - Rode, Nicolas

AU - Rota-Stabelli, Omar

AU - Sepulveda, Paloma

AU - Gibert, Patricia

AU - Carazo, Pau

AU - Kohlmeier, Pinar

AU - Erickson, Priscilla A

AU - Vitalis, Renaud

AU - Torres, Jorge Roberto

AU - Guirao-Rico, Sara

AU - Ramos-Onsins, Sebastian E

AU - Castillo, Silvana

AU - Paulo, Tânia F

AU - Tyukmaeva, Venera

AU - Alonso, Zahara

AU - Alatortsev, Vladimir E

AU - Pasyukova, Elena

AU - Mukha, Dmitry V

AU - Petrov, Dmitri A

AU - Schmidt, Paul

AU - Flatt, Thomas

AU - Bergland, Alan O

AU - Gonzalez, Josefa

N1 - Funding: M.Kap. was supported by the Horizon Europe project FAIRiCUBE (grant #101059238). S.S. was supported by the Horizon Europe project FAIRiCUBE (grant #101059238). D.O. was supported by the UK Biotechnology and Biological Sciences Research Council (BBSRC) grant BB/T007516/1. M.G.R. was supported by Natural Environment Research Council (NERC), UK award NE/V001566/1.

PY - 2025/8

Y1 - 2025/8

N2 - Large-scale genomic resources can place genetic variation into an ecologically informed context. To advance our understanding of the population genetics of the fruit fly Drosophila melanogaster, we present an expanded release of the community-generated population genomics resource Drosophila Evolution over Space and Time (DEST 2.0; https://dest.bio/). This release includes 530 high-quality pooled libraries from flies collected across six continents over more than a decade (2009 to 2021), most at multiple time points per year; 211 of these libraries are sequenced and shared here for the first time. We used this enhanced resource to elucidate several aspects of the species' demographic history and identify novel signs of adaptation across spatial and temporal dimensions. For example, we showed that the spatial genetic structure of populations is stable over time, but that drift due to seasonal contractions of population size causes populations to diverge over time. We identified signals of adaptation that vary between continents in genomic regions associated with xenobiotic resistance, consistent with independent adaptation to common pesticides. Moreover, by analyzing samples collected during spring and fall across Europe, we provide new evidence for seasonal adaptation related to loci associated with pathogen response. Furthermore, we have also released an updated version of the DEST genome browser. This is a useful tool for studying spatiotemporal patterns of genetic variation in this classic model system.

AB - Large-scale genomic resources can place genetic variation into an ecologically informed context. To advance our understanding of the population genetics of the fruit fly Drosophila melanogaster, we present an expanded release of the community-generated population genomics resource Drosophila Evolution over Space and Time (DEST 2.0; https://dest.bio/). This release includes 530 high-quality pooled libraries from flies collected across six continents over more than a decade (2009 to 2021), most at multiple time points per year; 211 of these libraries are sequenced and shared here for the first time. We used this enhanced resource to elucidate several aspects of the species' demographic history and identify novel signs of adaptation across spatial and temporal dimensions. For example, we showed that the spatial genetic structure of populations is stable over time, but that drift due to seasonal contractions of population size causes populations to diverge over time. We identified signals of adaptation that vary between continents in genomic regions associated with xenobiotic resistance, consistent with independent adaptation to common pesticides. Moreover, by analyzing samples collected during spring and fall across Europe, we provide new evidence for seasonal adaptation related to loci associated with pathogen response. Furthermore, we have also released an updated version of the DEST genome browser. This is a useful tool for studying spatiotemporal patterns of genetic variation in this classic model system.

KW - Seasonal selection

KW - Ecological genomics

KW - Dataset

KW - Drosophila melanogaster

KW - Local adaptation

KW - Population structure

U2 - 10.1093/molbev/msaf132

DO - 10.1093/molbev/msaf132

M3 - Article

SN - 0737-4038

VL - 42

SP - 1

EP - 28

JO - Molecular Biology and Evolution

JF - Molecular Biology and Evolution

IS - 8

M1 - msaf132

ER -

Footprints of worldwide adaptation in structured populations of Drosophila melanogaster through the expanded DEST 2.0 genomic resource

Abstract

Keywords

Access to Document

Fingerprint

Projects

Identifying the genetic targets of sexua: Identifying the genetic targets of sexual selection

Cite this