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2. Temperature synchronizes temporal variation in laying dates across European hole-nesting passerines

Author

Vriend, S. J. (Stefan J. G.), Grotan, V. (Vidar), Gamelon, M. (Marlene), Adriaensen, F. (Frank), Ahola, M. P. (Markus P.), Alvarez, E. (Elena), Bailey, L. D. (Liam D.), Barba, E. (Emilio), Bouvier, J.-C. (Jean-Charles), Burgess, M. D. (Malcolm D.), Bushuev, A. (Andrey), Camacho, C. (Carlos), Canal, D. (David), Charmantier, A. (Anne), Cole, E. F. (Ella F.), Cusimano, C. (Camillo), Doligez, B. F. (Blandine F.), Drobniak, S. M. (Szymon M.), Dubiec, A. (Anna), Eens, M. (Marcel), Eeva, T. (Tapio), Erikstad, K. E. (Kjell Einar), Ferns, P. N. (Peter N.), Goodenough, A. E. (Anne E.), Hartley, I. R. (Ian R.), Hinsley, S. A. (Shelley A.), Ivankina, E. (Elena), Juskaitis, R. (Rimvydas), Kempenaers, B. (Bart), Kerimov, A. B. (Anvar B.), Kalas, J. A. (John Atle), Lavigne, C. (Claire), Leivits, A. (Agu), Mainwaring, M. C. (Mark C.), Martinez-Padilla, J. (Jesus), Matthysen, E. (Erik), van Oers, K. (Kees), Orell, M. (Markku), Pinxten, R. (Rianne), Reiertsen, T. K. (Tone Kristin), Rytkönen, S. (Seppo), Senar, J. C. (Juan Carlos), Sheldon, B. C. (Ben C.), Sorace, A. (Alberto), Torok, J. (Janos), Vatka, E. (Emma), Visser, M. E. (Marcel E.), Saether, B.-E. (Bernt-Erik), Vriend, S. J. (Stefan J. G.), Grotan, V. (Vidar), Gamelon, M. (Marlene), Adriaensen, F. (Frank), Ahola, M. P. (Markus P.), Alvarez, E. (Elena), Bailey, L. D. (Liam D.), Barba, E. (Emilio), Bouvier, J.-C. (Jean-Charles), Burgess, M. D. (Malcolm D.), Bushuev, A. (Andrey), Camacho, C. (Carlos), Canal, D. (David), Charmantier, A. (Anne), Cole, E. F. (Ella F.), Cusimano, C. (Camillo), Doligez, B. F. (Blandine F.), Drobniak, S. M. (Szymon M.), Dubiec, A. (Anna), Eens, M. (Marcel), Eeva, T. (Tapio), Erikstad, K. E. (Kjell Einar), Ferns, P. N. (Peter N.), Goodenough, A. E. (Anne E.), Hartley, I. R. (Ian R.), Hinsley, S. A. (Shelley A.), Ivankina, E. (Elena), Juskaitis, R. (Rimvydas), Kempenaers, B. (Bart), Kerimov, A. B. (Anvar B.), Kalas, J. A. (John Atle), Lavigne, C. (Claire), Leivits, A. (Agu), Mainwaring, M. C. (Mark C.), Martinez-Padilla, J. (Jesus), Matthysen, E. (Erik), van Oers, K. (Kees), Orell, M. (Markku), Pinxten, R. (Rianne), Reiertsen, T. K. (Tone Kristin), Rytkönen, S. (Seppo), Senar, J. C. (Juan Carlos), Sheldon, B. C. (Ben C.), Sorace, A. (Alberto), Torok, J. (Janos), Vatka, E. (Emma), Visser, M. E. (Marcel E.), and Saether, B.-E. (Bernt-Erik)

Abstract

Identifying the environmental drivers of variation in fitness-related traits is a central objective in ecology and evolutionary biology. Temporal fluctuations of these environmental drivers are often synchronized at large spatial scales. Yet, whether synchronous environmental conditions can generate spatial synchrony in fitness-related trait values (i.e., correlated temporal trait fluctuations across populations) is poorly understood. Using data from long-term monitored populations of blue tits (Cyanistes caeruleus, n = 31), great tits (Parus major, n = 35), and pied flycatchers (Ficedula hypoleuca, n = 20) across Europe, we assessed the influence of two local climatic variables (mean temperature and mean precipitation in February-May) on spatial synchrony in three fitness-related traits: laying date, clutch size, and fledgling number. We found a high degree of spatial synchrony in laying date but a lower degree in clutch size and fledgling number for each species. Temperature strongly influenced spatial synchrony in laying date for resident blue tits and great tits but not for migratory pied flycatchers. This is a relevant finding in the context of environmental impacts on populations because spatial synchrony in fitness-related trait values among populations may influence fluctuations in vital rates or population abundances. If environmentally induced spatial synchrony in fitness-related traits increases the spatial synchrony in vital rates or population abundances, this will ultimately increase the risk of extinction for populations and species. Assessing how environmental conditions influence spatiotemporal variation in trait values improves our mechanistic understanding of environmental impacts on populations.

Published
2023

3. SCHEER (Scientific Committee on Health, Environmental and Emerging Risks), Revision of Annexes III and IV 13 of Directive 2010/63/EU on the protection of animals used for 14 scientific purposes regarding accommodation parameters and 15 methods of killing for zebrafish, and accommodation parameters 16 for Passerine birds

Author

Borges, T., De Jong, W., Testai, E., Vighi, M., Bakkers, J., Fiedler, W., Hawkins, P., Ohnesorge, N., Parker, M., Schroeder, J., Van Oers, K., and Vergauwen, L.

Published
2023

4. Bird populations most exposed to climate change are less sensitive to climatic variation

Author

Bailey, L. D. (Liam D.), van de Pol, M. (Martijn), Adriaensen, F. (Frank), Arct, A. (Aneta), Barba, E. (Emilio), Bellamy, P. E. (Paul E.), Bonamour, S. (Suzanne), Bouvier, J.-C. (Jean-Charles), Burgess, M. D. (Malcolm D.), Charmantier, A. (Anne), Cusimano, C. (Camillo), Doligez, B. (Blandine), Drobniak, S. M. (Szymon M.), Dubiec, A. (Anna), Eens, M. (Marcel), Eeva, T. (Tapio), Ferns, P. N. (Peter N.), Goodenough, A. E. (Anne E.), Hartley, I. R. (Ian R.), Hinsley, S. A. (Shelley A.), Ivankina, E. (Elena), Juskaitis, R. (Rimvydas), Kempenaers, B. (Bart), Kerimov, A. B. (Anvar B.), Lavigne, C. (Claire), Leivits, A. (Agu), Mainwaring, M. C. (Mark C.), Matthysen, E. (Erik), Nilsson, J.-A. (Jan-Ake), Orell, M. (Markku), Rytkönen, S. (Seppo), Carlos Senar, J. (Juan), Sheldon, B. C. (Ben C.), Sorace, A. (Alberto), Stenning, M. J. (Martyn J.), Torok, J. (Janos), van Oers, K. (Kees), Vatka, E. (Emma), Vriend, S. J. (Stefan J. G.), Visser, M. E. (Marcel E.), Bailey, L. D. (Liam D.), van de Pol, M. (Martijn), Adriaensen, F. (Frank), Arct, A. (Aneta), Barba, E. (Emilio), Bellamy, P. E. (Paul E.), Bonamour, S. (Suzanne), Bouvier, J.-C. (Jean-Charles), Burgess, M. D. (Malcolm D.), Charmantier, A. (Anne), Cusimano, C. (Camillo), Doligez, B. (Blandine), Drobniak, S. M. (Szymon M.), Dubiec, A. (Anna), Eens, M. (Marcel), Eeva, T. (Tapio), Ferns, P. N. (Peter N.), Goodenough, A. E. (Anne E.), Hartley, I. R. (Ian R.), Hinsley, S. A. (Shelley A.), Ivankina, E. (Elena), Juskaitis, R. (Rimvydas), Kempenaers, B. (Bart), Kerimov, A. B. (Anvar B.), Lavigne, C. (Claire), Leivits, A. (Agu), Mainwaring, M. C. (Mark C.), Matthysen, E. (Erik), Nilsson, J.-A. (Jan-Ake), Orell, M. (Markku), Rytkönen, S. (Seppo), Carlos Senar, J. (Juan), Sheldon, B. C. (Ben C.), Sorace, A. (Alberto), Stenning, M. J. (Martyn J.), Torok, J. (Janos), van Oers, K. (Kees), Vatka, E. (Emma), Vriend, S. J. (Stefan J. G.), and Visser, M. E. (Marcel E.)

Abstract

The phenology of many species shows strong sensitivity to climate change; however, with few large scale intra-specific studies it is unclear how such sensitivity varies over a species’ range. We document large intra-specific variation in phenological sensitivity to temperature using laying date information from 67 populations of two co-familial European songbirds, the great tit (Parus major) and blue tit (Cyanistes caeruleus), covering a large part of their breeding range. Populations inhabiting deciduous habitats showed stronger phenological sensitivity than those in evergreen and mixed habitats. However, populations with higher sensitivity tended to have experienced less rapid change in climate over the past decades, such that populations with high phenological sensitivity will not necessarily exhibit the strongest phenological advancement. Our results show that to effectively assess the impact of climate change on phenology across a species’ range it will be necessary to account for intra-specific variation in phenological sensitivity, climate change exposure, and the ecological characteristics of a population.

Published
2022

5. Test data for epiGBS

Author

Gawehns, Fleur, Postuma, Maarten, van Antro, Morgane, Nunn, Adam, Sepers, Bernice, Fatma, Samar, van Gurp, Thomas, Wagemaker, Niels C.A.M., Mateman, Christa, Milanovic-Ivanovic, Slavica, Grosse, Ivo, van Oers, K., Vergeer, Philippine, Verhoeven, Koen J.F., Gawehns, Fleur, Postuma, Maarten, van Antro, Morgane, Nunn, Adam, Sepers, Bernice, Fatma, Samar, van Gurp, Thomas, Wagemaker, Niels C.A.M., Mateman, Christa, Milanovic-Ivanovic, Slavica, Grosse, Ivo, van Oers, K., Vergeer, Philippine, and Verhoeven, Koen J.F.

Abstract

Test data for use with the epiGBS2 pipeline. Includes R1 and R2 reads and a barcode file. Can be used to see if the installation has worked correctly and output will be created as expected.

Published
2022

7. Reorganization of molecular networks associated with DNA methylation and changes in the rearing environments of the house wren (Troglodytes aedon)

Author

Koen J. F. Verhoeven, Bridgett M. vonHoldt, Jenny Q. Ouyang, van Oers K, and Kartzinel Ry

Subjects
Genetics, Phenotypic plasticity, Offspring, DNA methylation, Troglodytes, Methylation, Epigenetics, Biology, Adaptation, biology.organism_classification, Gene
Abstract

Environmental change, such as increased rates of urbanization, can induce shifts in phenotypic plasticity with some individuals adapting to city life while others are displaced. A key trait that can facilitate adaptation is the degree at which animals respond to stress. This stress response has a heritable component and exhibits intra- and inter-individual variation. However, the mechanisms behind this variability and whether they might be responsible for adaptation to different environments are not known. Variation in DNA methylation can be a potential mechanism that mediates environmental effects on the stress response. We used an inter- and intra-environmental cross-foster experiment to analyze the contribution of DNA methylation to early-life phenotypic variation. We found that at hatching, urban house wren (Troglodytes aedon) offspring had increased methylation as compared to their rural counterparts, and observed plasticity in methylation as offspring aged, indicating developmental effects of the rearing environment on methylation. Differential methylation analyses showed that cellular respiration genes were differentially expressed at hatching and behavioral and metabolism genes were differentially expressed at fledgling. Lastly, hyper-methylation of a single gene (CNTNAP2) is associated with increased glucocorticoid levels. These differential methylation patterns linked to a specific physiological phenotype suggest that DNA methylation may be a mechanism by which individuals adapt to novel environments. Characterizing genetic and environmental influences on methylation is critical for understanding the role of epigenetic mechanisms in evolutionary adaptation.

Published
2021
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8. No reproductive fitness benefits of dear enemy behaviour in a territorial songbird

Author

O’Neill J, van Oers K, Sexton C, Gabrielle L. Davidson, John L. Quinn, Ipek G. Kulahci, Michael S. Reichert, Dillane E, and Jodie M. S. Crane

Subjects
Reproductive success, biology, Aggression, medicine, Dear enemy effect, Too quickly, Habituation, medicine.symptom, Adversary, biology.organism_classification, Psychology, Demography, Songbird
Abstract

Territorial animals often respond less aggressively to neighbours than strangers. This ‘dear enemy’ effect is hypothesized to be adaptive by reducing unnecessary aggressive interactions with non-threatening individuals. A key prediction of this hypothesis, that individual fitness will be affected by variation in the speed and the extent to which individuals reduce their aggression towards neighbours relative to strangers, has never been tested. We used a series of song playbacks to measure the change in response of male great tits to a simulated establishment of a neighbour on an adjacent territory during early stages of breeding, as an assay of individuals’ tendencies to form dear enemy relationships. Males reduced their approach to the speaker and sang fewer songs on later playback repetitions. However, only some males exhibited dear enemy behaviour by responding more strongly to a subsequent stranger playback, and when the playback procedure was repeated on a subset of males, there was some indication for consistent differences among individuals in the expression of dear enemy behaviour. We monitored nests and analysed offspring paternity to determine male reproductive success. Individuals that exhibited dear enemy behaviour towards the simulated neighbour did not suffer any costs associated with loss of paternity, but there was also no evidence of reproductive benefits, and no net effect on reproductive fitness. The general ability to discriminate between neighbours and strangers is likely adaptive, but benefits are probably difficult to detect because of the indirect link between individual variation in dear enemy behaviour and reproductive fitness, and because of the complex range of mechanisms affecting relations with territorial neighbours.

Published
2021
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10. epiGBS2: Improvements and evaluation of highly demultiplexed, epiGBS-based RRBS

Author

Gawehns, Fleur, Postuma, Maarten, van Antro, Morgane, Nunn, Adam, Sepers, Bernice, Fatma, Samar, van Gurp, Thomas, Wagemaker, Niels C.A.M., Mateman, A.C., Milanovic-Ivanovic, Slavica, van Oers, K., Vergeer, Philippine, Verhoeven, Koen J.F., Gawehns, Fleur, Postuma, Maarten, van Antro, Morgane, Nunn, Adam, Sepers, Bernice, Fatma, Samar, van Gurp, Thomas, Wagemaker, Niels C.A.M., Mateman, A.C., Milanovic-Ivanovic, Slavica, van Oers, K., Vergeer, Philippine, and Verhoeven, Koen J.F.

Abstract

This dataset was create to test the performance capabilities of the epiGBS 2.0 pipeline. We created a epiGBS dataset containing 44 A.thaliana individuals from 6 different accessions.

Published
2021

11. Connecting the data landscape of long-term ecological studies:The SPI-Birds data hub

Author

Culina, A., Adriaensen, F., Bailey, L.D., Burgess, M.D., Charmantier, A., Cole, E.F., Eeva, T., Matthysen, E., Nater, C.R., Sheldon, B.C., Sæther, B.-E., Vriend, S.J.G., Zajkova, Z., Adamík, P., Aplin, L.M., Angulo, E., Artemyev, A., Barba, E., Barišić, S., Belda, E., Bilgin, C.C., Bleu, J., Both, C., Bouwhuis, S., Branston, C.J., Broggi, J., Burke, T., Bushuev, A., Camacho, C., Campobello, D., Canal, D., Cantarero, A., Caro, S.P., Cauchoix, M., Chaine, A., Cichoń, M., Ćiković, D., Cusimano, C.A., Deimel, C., Dhondt, A.A., Dingemanse, N.J., Doligez, B., Dominoni, D.M., Doutrelant, C., Drobniak, S.M., Dubiec, A., Eens, M., Einar Erikstad, K., Espín, S., Farine, D.R., Figuerola, J., Kavak Gülbeyaz, P., Grégoire, A., Hartley, I.R., Hau, M., Hegyi, G., Hille, S., Hinde, C.A., Holtmann, B., Ilyina, T., Isaksson, C., Iserbyt, A., Ivankina, E., Kania, W., Kempenaers, B., Kerimov, A., Komdeur, J., Korsten, P., Král, M., Krist, M., Lambrechts, M., Lara, C.E., Leivits, A., Liker, A., Lodjak, J., Mägi, M., Mainwaring, M.C., Mänd, R., Massa, B., Massemin, S., Martínez-Padilla, J., Mazgajski, T.D., Mennerat, A., Moreno, J., Mouchet, A., Nakagawa, S., Nilsson, J.-Å., Nilsson, J.F., Cláudia Norte, A., van Oers, K., Orell, M., Potti, J., Quinn, J.L., Réale, D., Kristin Reiertsen, T., Rosivall, B., Russell, A.F., Rytkönen, S., Sánchez-Virosta, P., Santos, E.S.A., Schroeder, J., Senar, J.C., Seress, G., Slagsvold, T., Szulkin, M., Teplitsky, C., Tilgar, V., Tolstoguzov, A., Török, J., Valcu, M., Vatka, E., Verhulst, S., Watson, H., Yuta, T., Zamora-Marín, J.M., Visser, M.E., Culina, A., Adriaensen, F., Bailey, L.D., Burgess, M.D., Charmantier, A., Cole, E.F., Eeva, T., Matthysen, E., Nater, C.R., Sheldon, B.C., Sæther, B.-E., Vriend, S.J.G., Zajkova, Z., Adamík, P., Aplin, L.M., Angulo, E., Artemyev, A., Barba, E., Barišić, S., Belda, E., Bilgin, C.C., Bleu, J., Both, C., Bouwhuis, S., Branston, C.J., Broggi, J., Burke, T., Bushuev, A., Camacho, C., Campobello, D., Canal, D., Cantarero, A., Caro, S.P., Cauchoix, M., Chaine, A., Cichoń, M., Ćiković, D., Cusimano, C.A., Deimel, C., Dhondt, A.A., Dingemanse, N.J., Doligez, B., Dominoni, D.M., Doutrelant, C., Drobniak, S.M., Dubiec, A., Eens, M., Einar Erikstad, K., Espín, S., Farine, D.R., Figuerola, J., Kavak Gülbeyaz, P., Grégoire, A., Hartley, I.R., Hau, M., Hegyi, G., Hille, S., Hinde, C.A., Holtmann, B., Ilyina, T., Isaksson, C., Iserbyt, A., Ivankina, E., Kania, W., Kempenaers, B., Kerimov, A., Komdeur, J., Korsten, P., Král, M., Krist, M., Lambrechts, M., Lara, C.E., Leivits, A., Liker, A., Lodjak, J., Mägi, M., Mainwaring, M.C., Mänd, R., Massa, B., Massemin, S., Martínez-Padilla, J., Mazgajski, T.D., Mennerat, A., Moreno, J., Mouchet, A., Nakagawa, S., Nilsson, J.-Å., Nilsson, J.F., Cláudia Norte, A., van Oers, K., Orell, M., Potti, J., Quinn, J.L., Réale, D., Kristin Reiertsen, T., Rosivall, B., Russell, A.F., Rytkönen, S., Sánchez-Virosta, P., Santos, E.S.A., Schroeder, J., Senar, J.C., Seress, G., Slagsvold, T., Szulkin, M., Teplitsky, C., Tilgar, V., Tolstoguzov, A., Török, J., Valcu, M., Vatka, E., Verhulst, S., Watson, H., Yuta, T., Zamora-Marín, J.M., and Visser, M.E.

Abstract

The integration and synthesis of the data in different areas of science is drastically slowed and hindered by a lack of standards and networking programmes. Long-term studies of individually marked animals are not an exception. These studies are especially important as instrumental for understanding evolutionary and ecological processes in the wild. Furthermore, their number and global distribution provides a unique opportunity to assess the generality of patterns and to address broad-scale global issues (e.g. climate change). To solve data integration issues and enable a new scale of ecological and evolutionary research based on long-term studies of birds, we have created the SPI-Birds Network and Database (www.spibirds.org)—a large-scale initiative that connects data from, and researchers working on, studies of wild populations of individually recognizable (usually ringed) birds. Within year and a half since the establishment, SPI-Birds has recruited over 120 members, and currently hosts data on almost 1.5 million individual birds collected in 80 populations over 2,000 cumulative years, and counting. SPI-Birds acts as a data hub and a catalogue of studied populations. It prevents data loss, secures easy data finding, use and integration and thus facilitates collaboration and synthesis. We provide community-derived data and meta-data standards and improve data integrity guided by the principles of Findable, Accessible, Interoperable and Reusable (FAIR), and aligned with the existing metadata languages (e.g. ecological meta-data language). The encouraging community involvement stems from SPI-Bird's decentralized approach: research groups retain full control over data use and their way of data management, while SPI-Birds creates tailored pipelines to convert each unique data format into a standard format. We outline the lessons learned, so that other communities (e.g. those working on other taxa) can adapt our successful model. Creating community-specific hubs (such

Published
2021

12. Connecting the data landscape of long-term ecological studies : The SPI-Birds data hub

Author

Culina, A., Adriaensen, F., Bailey, L.D., Burgess, M.D., Charmantier, A., Cole, E.F., Eeva, T., Matthysen, E., Nater, C.R., Sheldon, B.C., Sæther, B.-E., Vriend, S.J.G., Zajkova, Z., Adamík, P., Aplin, L.M., Angulo, E., Artemyev, A., Barba, E., Barišić, S., Belda, E., Bilgin, C.C., Bleu, J., Both, C., Bouwhuis, S., Branston, C.J., Broggi, J., Burke, T., Bushuev, A., Camacho, C., Campobello, D., Canal, D., Cantarero, A., Caro, S.P., Cauchoix, M., Chaine, A., Cichoń, M., Ćiković, D., Cusimano, C.A., Deimel, C., Dhondt, A.A., Dingemanse, N.J., Doligez, B., Dominoni, D.M., Doutrelant, C., Drobniak, S.M., Dubiec, A., Eens, M., Einar Erikstad, K., Espín, S., Farine, D.R., Figuerola, J., Kavak Gülbeyaz, P., Grégoire, A., Hartley, I.R., Hau, M., Hegyi, G., Hille, S., Hinde, C.A., Holtmann, B., Ilyina, T., Isaksson, C., Iserbyt, A., Ivankina, E., Kania, W., Kempenaers, B., Kerimov, A., Komdeur, J., Korsten, P., Král, M., Krist, M., Lambrechts, M., Lara, C.E., Leivits, A., Liker, A., Lodjak, J., Mägi, M., Mainwaring, M.C., Mänd, R., Massa, B., Massemin, S., Martínez-Padilla, J., Mazgajski, T.D., Mennerat, A., Moreno, J., Mouchet, A., Nakagawa, S., Nilsson, J.-Å., Nilsson, J.F., Cláudia Norte, A., van Oers, K., Orell, M., Potti, J., Quinn, J.L., Réale, D., Kristin Reiertsen, T., Rosivall, B., Russell, A.F., Rytkönen, S., Sánchez-Virosta, P., Santos, E.S.A., Schroeder, J., Senar, J.C., Seress, G., Slagsvold, T., Szulkin, M., Teplitsky, C., Tilgar, V., Tolstoguzov, A., Török, J., Valcu, M., Vatka, E., Verhulst, S., Watson, H., Yuta, T., Zamora-Marín, J.M., Visser, M.E., Culina, A., Adriaensen, F., Bailey, L.D., Burgess, M.D., Charmantier, A., Cole, E.F., Eeva, T., Matthysen, E., Nater, C.R., Sheldon, B.C., Sæther, B.-E., Vriend, S.J.G., Zajkova, Z., Adamík, P., Aplin, L.M., Angulo, E., Artemyev, A., Barba, E., Barišić, S., Belda, E., Bilgin, C.C., Bleu, J., Both, C., Bouwhuis, S., Branston, C.J., Broggi, J., Burke, T., Bushuev, A., Camacho, C., Campobello, D., Canal, D., Cantarero, A., Caro, S.P., Cauchoix, M., Chaine, A., Cichoń, M., Ćiković, D., Cusimano, C.A., Deimel, C., Dhondt, A.A., Dingemanse, N.J., Doligez, B., Dominoni, D.M., Doutrelant, C., Drobniak, S.M., Dubiec, A., Eens, M., Einar Erikstad, K., Espín, S., Farine, D.R., Figuerola, J., Kavak Gülbeyaz, P., Grégoire, A., Hartley, I.R., Hau, M., Hegyi, G., Hille, S., Hinde, C.A., Holtmann, B., Ilyina, T., Isaksson, C., Iserbyt, A., Ivankina, E., Kania, W., Kempenaers, B., Kerimov, A., Komdeur, J., Korsten, P., Král, M., Krist, M., Lambrechts, M., Lara, C.E., Leivits, A., Liker, A., Lodjak, J., Mägi, M., Mainwaring, M.C., Mänd, R., Massa, B., Massemin, S., Martínez-Padilla, J., Mazgajski, T.D., Mennerat, A., Moreno, J., Mouchet, A., Nakagawa, S., Nilsson, J.-Å., Nilsson, J.F., Cláudia Norte, A., van Oers, K., Orell, M., Potti, J., Quinn, J.L., Réale, D., Kristin Reiertsen, T., Rosivall, B., Russell, A.F., Rytkönen, S., Sánchez-Virosta, P., Santos, E.S.A., Schroeder, J., Senar, J.C., Seress, G., Slagsvold, T., Szulkin, M., Teplitsky, C., Tilgar, V., Tolstoguzov, A., Török, J., Valcu, M., Vatka, E., Verhulst, S., Watson, H., Yuta, T., Zamora-Marín, J.M., and Visser, M.E.

Abstract

The integration and synthesis of the data in different areas of science is drastically slowed and hindered by a lack of standards and networking programmes. Long-term studies of individually marked animals are not an exception. These studies are especially important as instrumental for understanding evolutionary and ecological processes in the wild. Furthermore, their number and global distribution provides a unique opportunity to assess the generality of patterns and to address broad-scale global issues (e.g. climate change). To solve data integration issues and enable a new scale of ecological and evolutionary research based on long-term studies of birds, we have created the SPI-Birds Network and Database (www.spibirds.org)—a large-scale initiative that connects data from, and researchers working on, studies of wild populations of individually recognizable (usually ringed) birds. Within year and a half since the establishment, SPI-Birds has recruited over 120 members, and currently hosts data on almost 1.5 million individual birds collected in 80 populations over 2,000 cumulative years, and counting. SPI-Birds acts as a data hub and a catalogue of studied populations. It prevents data loss, secures easy data finding, use and integration and thus facilitates collaboration and synthesis. We provide community-derived data and meta-data standards and improve data integrity guided by the principles of Findable, Accessible, Interoperable and Reusable (FAIR), and aligned with the existing metadata languages (e.g. ecological meta-data language). The encouraging community involvement stems from SPI-Bird's decentralized approach: research groups retain full control over data use and their way of data management, while SPI-Birds creates tailored pipelines to convert each unique data format into a standard format. We outline the lessons learned, so that other communities (e.g. those working on other taxa) can adapt our successful model. Creating community-specific hubs (such

Published
2021

13. epiGBS2: Improvements and evaluation of highly multiplexed, epiGBS-based reduced representation bisulfite sequencing

Author

Gawehns, Fleur, Postuma, Maarten, van Antro, Morgane, Nunn, Adam, Sepers, Bernice, Fatma, Samar, van Gurp, Thomas, Wagemaker, Niels, Mateman, Christa, Milanovic-Ivanovic, Slavica, Grosse, Ivo, van Oers, K., Vergeer, Philippine, Verhoeven, Koen, Gawehns, Fleur, Postuma, Maarten, van Antro, Morgane, Nunn, Adam, Sepers, Bernice, Fatma, Samar, van Gurp, Thomas, Wagemaker, Niels, Mateman, Christa, Milanovic-Ivanovic, Slavica, Grosse, Ivo, van Oers, K., Vergeer, Philippine, and Verhoeven, Koen

Abstract

We present epiGBS2, a laboratory protocol based on epiGBS (Gurp et al., 2016) with a revised and user-friendly bioinformatics pipeline for a wide range of species with or without reference genome. Performance of several critical steps in epiGBS2 was evaluated against baseline data sets from Arabidopsis thaliana and Great tit (Parus major), which confirmed overall good performance of epiGBS2. We provide here the raw bisulfite sequencing data of the epiGBS2 run for Arabidopsis thaliana.

Published
2021

14. The genomic complexity of a large inversion in great tits

Author

da Silva, V.H., Laine, V.N., Bosse, M., Spurgin, L.G., Derks, M.F.L., van Oers, K., Dibbits, B., Slate, J., Crooijmans, R.P.M.A., Visser, M.E., and Groenen, M.A.M.

Abstract

Chromosome inversions have clear effects on genome evolution and have been associated with speciation, adaptation and the evolution of the sex chromosomes. In birds, these inversions may play an important role in hybridization of species and disassortative mating. We identified a large (≈64 Mb) inversion polymorphism in the great tit (Parus major) that encompasses almost 1,000 genes and more than 90% of Chromosome 1A. The inversion occurs at a low frequency in a set of over 2,300 genotyped great tits in the Netherlands with only 5% of the birds being heterozygous for the inversion. In an additional analysis of 29 resequenced birds from across Europe we found two heterozygotes. The likely inversion breakpoints show considerable genomic complexity, including multiple copy number variable segments. We identified different haplotypes for the inversion, which differ in the degree of recombination in the center of the chromosome. Overall, this remarkable genetic variant is widespread among distinct great tit populations and future studies of the inversion haplotype, including how it affects the fitness of carriers, may help to understand the mechanisms that maintain it.

Published
2019

15. Epigenetics and animal personality: DNA methylation and its influence on exploratory behavior in great tits (Parus major)

Author

Sepers, B., van Oers, K., and Animal Ecology (AnE)

Abstract

Early developmental effects and environmental conditions experienced by parents affect personality traits, even over multiple generations. Yet, the mechanisms underlying transgenerational regulation remain unknown, while determining them is crucial to understand how development affects heritable traits in evolutionary processes. A likely mechanism involved in such epigenetic regulation is DNA methylation, since this can stably alter gene expression in response to environmental factors without structural modifications of the DNA sequence. We study this by associating DNA methylation to variation in exploratory behaviour in the great tit (Parus major). In order to do this, we manipulated brood size in a natural study population. We found more differentially methylated sites in the treatment set (enlarged vs. reduced brood size) than in the control set (control1 versus control2). Furthermore, we found differences in methylation percentage for genes related to growth and behaviour. Therefore, early life stress directly affects epigenetic factors related to growth and behaviour. In the future, we will assess if there is an effect of the observed methylation changes on variation in personality traits, if there is a genetic basis for (personality-related) DNA methylation and if gene methylation variation associates with behaviour and life-history traits under natural conditions.

Published
2019

16. The role of male song in spatial behavior and reproductive decisions in the great tit (Parus major)

Author

Naguib, M., van Oers, K., Bircher, Nina, Naguib, M., van Oers, K., and Bircher, Nina

Abstract

Elaborate ornaments of male animals often attract females and deter rivals and male birdsong is a classic example for such sexually selected signals. But are males that sing “better” early in the morning more successful in attracting females and keeping rivals at bay? And what information do song contests between males provide to eavesdroppers? We integrated automated longterm radio-tracking, acoustic recordings and playback experiments to determine what aspects of male song might be used by female and male birds to judge the quality of singers, using the great tit as a study system. Our results indicate, in contrast to the common view of birdsong, that females stayed away from territories of “better” singers, while males were attracted. Song contests did not appear to provide relevant information in females reproductive decisions. The function of birdsong within a social neighborhood thus appears more complex than simply deterring rivals and attracting mates when covert movements are considered

Published
2020

18. Exploring the unmapped DNA and RNA reads in a songbird genome

Author

Laine, V.N., Gossmann, T.I., van Oers, K., Visser, M.E., and Groenen, M.A.M.

Subjects
food and beverages
Abstract

Background: A widely used approach in next-generation sequencing projects is the alignment of reads to a reference genome. Despite methodological and hardware improvements which have enhanced the efficiency and accuracy of alignments, a significant percentage of reads frequently remain unmapped. Usually, unmapped reads are discarded from the analysis process, but significant biological information and insights can be uncovered from these data. We explored the unmapped DNA (normal and bisulfite treated) and RNA sequence reads of the great tit (Parus major) reference genome individual. From the unmapped reads we generated de novo assemblies, after which the generated sequence contigs were aligned to the NCBI non-redundant nucleotide database using BLAST, identifying the closest known matching sequence. Results: Many of the aligned contigs showed sequence similarity to different bird species and genes that were absent in the great tit reference assembly. Furthermore, there were also contigs that represented known P. major pathogenic species. Most interesting were several species of blood parasites such as Plasmodium and Trypanosoma. Conclusions: Our analyses revealed that meaningful biological information can be found when further exploring unmapped reads. For instance, it is possible to discover sequences that are either absent or misassembled in the reference genome, and sequences that indicate infection or sample contamination. In this study we also propose strategies to aid the capture and interpretation of this information from unmapped reads.

Published
2019

19. Temporally replicated reduced representation bisulfate sequencing data on DNA methylation patterns in great tit

Author

Mäkinen, Hannu, Viitaniemi, Heidi, Visser, M.E., Verhagen, Irene C., van Oers, K., Husby, Arild, and Animal Ecology (AnE)

Subjects
international
Abstract

Seasonal timing of reproduction is an important fitness trait in many plants and animals but the underlying molecular mechanism for this trait is poorly known. DNA methylation is known to affect timing of reproduction in various organisms and is therefore a potential mechanism also in birds. Here we describe genome wide data aiming to detect temporal changes in methylation in relation to timing of breeding using artificial selection lines of great tits (Parus major) exposed to contrasting temperature treatments. Methylation levels of DNA extracted from erythrocytes were examined using reduced representation bisulfite sequencing (RRBS). In total, we obtained sequencing data from 63 libraries over four different time points from 16 birds with on average 20 million quality filtered reads per library. These data describe individual level temporal variation in DNA methylation throughout the breeding season under experimental temperature regimes and provides a resource for future studies investigating the role of temporal changes in DNA methylation in timing of reproduction.

Published
2019

23. Genetic and phenotypic responses to genomic selection for timing of breeding in a wild songbird

Author

Verhagen, Irene C., Gienapp, P., Laine, V., van Grevenhof, Elizabeth, Mateman, A.C., van Oers, K., Visser, M.E., Verhagen, Irene C., Gienapp, P., Laine, V., van Grevenhof, Elizabeth, Mateman, A.C., van Oers, K., and Visser, M.E.

Abstract

The physiological mechanisms underlying avian seasonal timing of reproduction, a life‐history trait with major fitness consequences, are not well understood. Comparing individuals that have been selected to differ in their timing of breeding may prove to be a promising in studying these mechanisms, making selection lines a valuable tool. We created selection lines for early and late timing of breeding in great tits (Parus major) using genomic selection, that is selection based on multi‐marker genotypes rather than on the phenotype. We took in nestlings (F1 generation) from wild broods of which the mother was either an extremely early (“early line”) or extremely late (“late line”) breeder. These chicks were then genotyped and, based on their “genomic breeding values” (GEBVs), we selected individuals for early and late line breeding pairs to produce the F2 generation in captivity. The F2 offspring was hand‐reared, genotyped and selected to produce an F3 generation, which were then again genotyped and selected. This way we obtained laying dates in aviaries for F1, F2 and F3 birds. We studied the genetic response to the artificial selection and found increased genetic differentiation between the early and late reproducing selection lines over generations (F1–F3), indicated by both diverging GEBVs and increased fixation indices (FST). We studied the phenotypic response to selection for birds breeding in outdoor breeding aviaries. We found that early line birds laid earlier than late line birds, and this difference increased over the generations (F1–F3), with non‐significant line effects for the F1 and F2, but highly significant line differences for the F3. We also assessed whether there was correlated selection on two traits that are potentially part of the mechanisms underlying seasonal timing: the endogenous free‐running period of the day/night clock (tau) and basal metabolic rate, but found no correlated selection. We have successfully created sele

Published
2019

24. Seasonal Variation in Genome-Wide DNA Methylation Patterns and the Onset of Seasonal Timing of Reproduction in Great Tits

Author

Viitaniemi, Heidi, Verhagen, Irene C., Visser, M.E., Honkela, Antti, van Oers, K., Husby, Arild, Viitaniemi, Heidi, Verhagen, Irene C., Visser, M.E., Honkela, Antti, van Oers, K., and Husby, Arild

Abstract

In seasonal environments, timing of reproduction is a trait with important fitness consequences, but we know little about the molecular mechanisms that underlie the variation in this trait. Recently, several studies put forward DNA methylation as a mechanism regulating seasonal timing of reproduction in both plants and animals. To understand the involvement of DNA methylation in seasonal timing of reproduction, it is necessary to examine within-individual temporal changes in DNA methylation, but such studies are very rare. Here, we use a temporal sampling approach to examine changes in DNA methylation throughout the breeding season in female great tits (Parus major) that were artificially selected for early timing of breeding. These females were housed in climate-controlled aviaries and subjected to two contrasting temperature treatments. Reduced representation bisulfite sequencing on red blood cell derived DNA showed genome-wide temporal changes in more than 40,000 out of the 522,643 CpG sites examined. Although most of these changes were relatively small (mean within-individual change of 6%), the sites that showed a temporal and treatment-specific response in DNA methylation are candidate sites of interest for future studies trying to understand the link between DNA methylation patterns and timing of reproduction.

Published
2019

27. Gene flow does not prevent personality and morphological differentiation between two blue tit populations

Author

Dubuc-Messier, G., Caro, S.P., Perrier, C., van Oers, K., Réale, D., Charmantier, A., Dubuc-Messier, G., Caro, S.P., Perrier, C., van Oers, K., Réale, D., and Charmantier, A.

Abstract

Understanding the causes and consequences of population phenotypic divergence is a central goal in ecology and evolution. Phenotypic divergence among populations can result from genetic divergence, phenotypic plasticity or a combination of the two. However, few studies have deciphered these mechanisms for populations geographically close and connected by gene flow, especially in the case of personality traits. In this study, we used a common garden experiment to explore the genetic basis of the phenotypic divergence observed between two blue tit (Cyanistes caeruleus) populations inhabiting contrasting habitats separated by 25 km, for two personality traits (exploration speed and handling aggression), one physiological trait (heart rate during restraint) and two morphological traits (tarsus length and body mass). Blue tit nestlings were removed from their population and raised in a common garden for up to five years. We then compared adult phenotypes between the two populations, as well as trait‐specific Qst and Fst. Our results revealed differences between populations similar to those found in the wild, suggesting a genetic divergence for all traits. Qst ‐ Fst comparisons revealed that the traits divergences likely result from dissimilar selection patterns rather than from genetic drift. Our study is one of the first to report a Qst ‐ Fst comparison for personality traits and adds to the growing body of evidence that population genetic divergence is possible at a small scale for a variety of traits including behavioural traits.

Published
2018

28. Responses of insect herbivores and their food plants to wind exposure and the importance of predation risk.

Author

Chen, C, Biere, A, Gols, R., Halfwerk, W., van Oers, K., Harvey, JA, Chen, C, Biere, A, Gols, R., Halfwerk, W., van Oers, K., and Harvey, JA

Abstract

Wind is an important abiotic factor that influences an array of biological processes, but it is rarely considered in studies on plant–herbivore interactions. Here, we tested whether wind exposure could directly or indirectly affect the performance of two insect herbivores, Plutella xylostella and Pieris brassicae, feeding on Brassica nigra plants. In a greenhouse study using a factorial design, B. nigra plants were exposed to different wind regimes generated by fans before and after caterpillars were introduced on plants in an attempt to separate the effects of direct and indirect wind exposure on herbivores. Wind exposure delayed flowering, decreased plant height and increased leaf concentrations of amino acids and glucosinolates. Plant‐mediated effects of wind on herbivores, that is effects of exposure of plants to wind prior to herbivore feeding, were generally small. However, development time of both herbivores was extended and adult body mass of P. xylostella was reduced when they were directly exposed to wind. By contrast, wind‐exposed adult P. brassicae butterflies were significantly larger, revealing a trade‐off between development time and adult size. Based on these results, we conducted a behavioural experiment to study preference by an avian predator, the great tit (Parus major) for last instar P. brassicae caterpillars on plants that were exposed to either control (no wind) or wind (fan‐exposed) treatments. Tits captured significantly more caterpillars on still than on wind‐exposed plants. Our results suggest that P. brassicae caterpillars are able to perceive the abiotic environment and to trade off the costs of extended development time against the benefits of increased size depending on the perceived risk of predation mediated by wind exposure. Such adaptive phenotypic plasticity in insects has not yet been described in response to wind exposure.

Published
2018

29. Genomic tools for behavioral ecologists to understand repeatable individual differences in behavior

Author

Bengston, Sarah, Dahan, Romain, Donaldson, Zoe, Phelps, Steven, van Oers, K., Sih, Andrew, Bell, Alison, Bengston, Sarah, Dahan, Romain, Donaldson, Zoe, Phelps, Steven, van Oers, K., Sih, Andrew, and Bell, Alison

Abstract

Behaviour is a key interface between an animal’s genome and its environment. Repeatable individual differences in behaviour have been extensively documented in animals, but the molecular underpinnings of behavioural variation among individuals within natural populations remain largely unknown. Here, we offer a critical review of when molecular techniques may yield new insights, and we provide specific guidance on how and whether the latest tools available are appropriate given different resources, system and organismal constraints, and experimental designs. Integrating molecular genetic techniques with other strategies to study the proximal causes of behaviour provides opportunities to expand rapidly into new avenues of exploration. Such endeavours will enable us to better understand how repeatable individual differences in behaviour have evolved, how they are expressed and how they can be maintained within natural populations of animals.

Published
2018

30. SERT gene polymorphisms are associated with risk-taking behaviour and breeding parameters in wild great tits

Author

Timm, K., van Oers, K., Tilgar, V., Timm, K., van Oers, K., and Tilgar, V.

Abstract

Individual differences in coping with potentially dangerous situations are affected by a combination of genetic and environmental factors. How genetic polymorphisms and behavioural variations are related to fitness is unknown. One of the candidate genes affecting a variety of behavioural processes, including impulsivity, anxiety and mood fluctuations in both humans and other vertebrates is the serotonin transporter gene (SERT/SLC6A). The aim of this study was to assess an association between SERT genotypes and novelty seeking, risk-taking behaviours and breeding parameters of great tits (Parus major) in a natural environment. We associated polymorphisms in the promoter exonic regions of the SERT gene with parental risk-taking related behaviour and fitness traits. Our results show that (i) risk-taking behaviour in our great tit population is linked to single nucleotide polymorphisms in the SERT gene exon 3 and exon 8; (ii) the genotype-behaviour associations are consistent at the presence of different stressors; (iii) polymorphisms in exon 8 could be associated with fitness-related traits, such as the start of egg-laying and hatching success. We showed for the first time that genetic variability of SERT plays an important role in shaping individual decision-making that affects fitness consequences in a wild population. However, the results are based on one population and on the polymorphisms that are in one single gene. Therefore, replication studies are needed in order to confirm these preliminary results.

Published
2018

31. Maternal egg hormones in the mating context: the effect of pair personality

Author

Ruuskanen, S., Groothuis, T.G.G., Baugh, A.T., Schaper, S.V., de Vries, B., van Oers, K., Ruuskanen, S., Groothuis, T.G.G., Baugh, A.T., Schaper, S.V., de Vries, B., and van Oers, K.

Abstract

Animal personality traits emerge developmentally from the interaction of genetic and early environmental factors. Maternal hormones, such as androgens (testosterone, T and androstenedione, A4), transferred to embryos and egg yolks may simultaneously organize multiple behavioural and physiological traits. Although previous studies demonstrated an association between the mother's personality and yolk androgen levels, the independent effects of the male partner's personality and pair combination remains unknown. We test this association using an ecological model species for personality research, the great tit (Parus major) using multiple approaches: (1) a wild population, (2) a randomly mated captive population and (3) an experimental study with (dis)assortatively mated pairs from lines selected for fast exploration/boldness or slow exploration/shyness. Egg androgen concentrations were associated with variation in female personality traits, and the experimental data suggested that this is independent of male personality: Experimental females from the slow-shy line tended to have higher egg T concentrations than females from the fast-bold line, with no effect of male personality. Shy females from the wild population had higher egg A4 concentration than bold females. However, in the correlative data yolk hormones were linked with male personality, as well as the interaction between female and male traits: Male handling responsiveness correlated negatively with egg A4 concentration in wild birds. In randomly mated birds, pairs that were mated assortatively for personality had lower egg T concentrations than disassortatively mated pairs. Given that egg androgens are known mediators of avian personality, our results suggest that maternal hormones might contribute to the heritability of personality, may be sensitive to the social context of mating, and act as key drivers of individual differences.

Published
2018

32. A high density SNP chip for genotyping great tit (Parus major) populations and its application to studying the genetic architecture of exploration behaviour

Author

Kim, Jun-Mo, Santure, A.W., Barton, Henry J, Quinn, J.L., Cole, Eleanor F., Great Tit HapMap Consortium, Visser, M.E., Sheldon, B.C., Groenen, M.A.M., van Oers, K., Slate, Jon, Kim, Jun-Mo, Santure, A.W., Barton, Henry J, Quinn, J.L., Cole, Eleanor F., Great Tit HapMap Consortium, Visser, M.E., Sheldon, B.C., Groenen, M.A.M., van Oers, K., and Slate, Jon

Abstract

High density SNP microarrays (‘SNP chips’) are a rapid, accurate and efficient method for genotyping several hundred thousand polymorphisms in large numbers of individuals. While SNP chips are routinely used in human genetics and in animal and plant breeding, they are less widely used in evolutionary and ecological research. In this paper we describe the development and application of a high density Affymetrix Axiom chip with around 500 000 SNPs, designed to perform genomics studies of great tit (Parus major) populations. We demonstrate that the per‐SNP genotype error rate is well below 1% and that the chip can also be used to identify structural or copy number variation (CNVs). The chip is used to explore the genetic architecture of exploration behaviour (EB), a personality trait that has been widely studied in great tits and other species. No SNPs reached genome‐wide significance, including at DRD4, a candidate gene. However, EB is heritable and appears to have a polygenic architecture. Researchers developing similar SNP chips may note: (i) SNPs previously typed on alternative platforms are more likely to be converted to working assays, (ii) detecting SNPs by more than one pipeline, and in independent datasets, ensures a high proportion of working assays, (iii) allele frequency ascertainment bias is minimised by performing SNP discovery in individuals from multiple populations and (iv) samples with the lowest call rates tend to also have the greatest genotyping error rates.

Published
2018

33. A matter of taste : the role of compatibility in mate preferences in great tits

Author

Naguib, M., Hinde, C., van Oers, K., Zandberg, Elisabeth Christina Ada, Naguib, M., Hinde, C., van Oers, K., and Zandberg, Elisabeth Christina Ada

Abstract

By choosing the right partner individuals can gain reproductive benefits and can increase their reproductive success. These benefits can be direct, when the offspring’s quality or quantity is increased by the behaviour or investment of the mate, or indirect, when the quality of the offspring is increased by the genetic contribution of the mate. While previously it was often thought that reproductive benefits were primarily caused by the higher quality of these preferred partners, more and more studies suggest that also partner compatibility may increase reproductive success. Mate compatibility may be especially important when individuals differ in their preferences for a mate. Although uniform preferences are often assumed, an increasing number of studies indicate that individuals have a preference for different trait values. Moreover, these differences in preference can depend on the chooser’s own trait values, indicating that individuals may prefer a mate that is the best fit for them, rather than the universally ‘best individual’. A number of studies on captive populations have found that the fitness benefits from mating with a certain individual differ between individuals, suggesting individual differences in preference and both direct and indirect benefits of mating with these compatible mates. However, it is still unclear how compatibility and perceived mate attractiveness affect reproductive success in a wild population. Additionally, to understand fitness consequences and the evolution of mate preferences, preference and choice should be studied as two distinct processes. To our knowledge, no study thus far has combined all three and tested what the fitness benefits of mate preferences are under mate choice constraints in a wild population. Therefore, the overall aim of this thesis was to study the role of individual differences in mate preferences and its effects on reproductive success, by comparing measured mate preference with the resulting choice and re

Published
2018

34. Data from: A high-density SNP chip for genotyping great tit (Parus major) populations and its application to studying the genetic architecture of exploration behaviour

Author

Kim, J.M., Santure, Anna W., Barton, H.J., Quinn, John L., Cole, Ella F., Visser, M.E., Sheldon, B.C., Groenen, M., van Oers, K., Slate, J., Kim, J.M., Santure, Anna W., Barton, H.J., Quinn, John L., Cole, Ella F., Visser, M.E., Sheldon, B.C., Groenen, M., van Oers, K., and Slate, J.

Abstract

High density SNP microarrays (‘SNP chips’) are a rapid, accurate and efficient method for genotyping several hundred thousand polymorphisms in large numbers of individuals. While SNP chips are routinely used in human genetics and in animal and plant breeding, they are less widely used in evolutionary and ecological research. In this paper we describe the development and application of a high density Affymetrix Axiom chip with around 500 000 SNPs, designed to perform genomics studies of great tit (Parus major) populations. We demonstrate that the per-SNP genotype error rate is well below 1% and that the chip can also be used to identify structural or copy number variation (CNVs). The chip is used to explore the genetic architecture of exploration behaviour (EB), a personality trait that has been widely studied in great tits and other species. No SNPs reached genome-wide significance, including at DRD4, a candidate gene. However, EB is heritable and appears to have a polygenic architecture. Researchers developing similar SNP chips may note: (i) SNPs previously typed on alternative platforms are more likely to be converted to working assays, (ii) detecting SNPs by more than one pipeline, and in independent datasets, ensures a high proportion of working assays, (iii) allele frequency ascertainment bias is minimised by performing SNP discovery in individuals from multiple populations and (iv) samples with the lowest call rates tend to also have the greatest genotyping error rates.

Published
2018

35. The Quantitative and Molecular Genetics of Individual Differences in Animal Personality

Author

Laine, V., van Oers, K., Vonk, Jennifer, Weiss, Alexander, Kuczaj, Stan, and Animal Ecology (AnE)

Subjects
0106 biological sciences, 0301 basic medicine, medicine.medical_specialty, media_common.quotation_subject, Genome-wide association study, Quantitative genetics, Quantitative trait locus, Biology, Personality research, Bioinformatics, 010603 evolutionary biology, 01 natural sciences, 03 medical and health sciences, 030104 developmental biology, Variation (linguistics), NIOO, Molecular genetics, medicine, Personality, Relevance (information retrieval), media_common, Cognitive psychology
Abstract

One of the main goals in current personality research is to identify genes behind the measured behavioral variations. This is important in order to study how, under the influence of the environment, gene expression changes are translated into the observed phenotypes. The advances, especially in genomic technologies, have made it possible to identify genetic loci behind these variations, also concerning non-model species. In this chapter, we will describe the role and relevance of quantitative and molecular genetic approaches in explaining the existence and maintenance of variation in animal personality. We here will provide (1) a timely review on the papers published on this topic, (2) an overview of the current situation and progress, and (3) a view on the likely new avenues the field will take.

Published
2017

36. Evolutionary signals of selection on cognition from the great tit genome and methylome

Author

Laine, V.N., Gossmann, T.I., Schachtschneider, K.M., Garroway, C.J., Madsen, O., Verhoeven, K.J.F., de Jager, V., Megens, H-J., Warren, W.C., Minx, P., Crooijmans, R.P.M.A., Corcoran, P., Sheldon, B.C., Slate, J., Zeng, K., van Oers, K., Visser, M.E., Groenen, M.A.M., and Consortium, G.T.H.

Abstract

For over 50 years, the great tit (Parus major) has been a model species for research in evolutionary, ecological and behavioural research; in particular, learning and cognition have been intensively studied. Here, to provide further insight into the molecular mechanisms behind these important traits, we de novo assemble a great tit reference genome and whole-genome re-sequence another 29 individuals from across Europe. We show an overrepresentation of genes related to neuronal functions, learning and cognition in regions under positive selection, as well as increased CpG methylation in these regions. In addition, great tit neuronal non-CpG methylation patterns are very similar to those observed in mammals, suggesting a universal role in neuronal epigenetic regulation which can affect learning-, memory- and experience-induced plasticity. The high-quality great tit genome assembly will play an instrumental role in furthering the integration of ecological, evolutionary, behavioural and genomic approaches in this model species.

Published
2016

39. Risk-averse personalities have a systemically potentiated neuroendocrine stress axis: a multilevel experiment in Parus major

Author

Baugh, A.T., Senft, R.A., Firke, M., Lauder, A., Schroeder, J., Meddle, S.L., van Oers, K., Hau, Michaela, Baugh, A.T., Senft, R.A., Firke, M., Lauder, A., Schroeder, J., Meddle, S.L., van Oers, K., and Hau, Michaela

Abstract

Hormonal pleiotropy—the simultaneous influence of a single hormone on multiple traits—has been hypothesized as an important mechanism underlying personality, and circulating glucocorticoids are central to this idea. A major gap in our understanding is the neural basis for this link. Here we examine the stability and structure of behavioral, endocrine and neuroendocrine traits in a population of songbirds (Parus major). Upon identifying stable and covarying behavioral and endocrine traits, we test the hypothesis that risk-averse personalities exhibit a neuroendocrine stress axis that is systemically potentiated—characterized by stronger glucocorticoid reactivity and weaker negative feedback. We show high among-individual variation and covariation (i.e. personality) in risk-taking behaviors and demonstrate that four aspects of glucocorticoid physiology (baseline, stress response, negative feedback strength and adrenal sensitivity) are also repeatable and covary. Further, we establish that high expression of mineralocorticoid and low expression of glucocorticoid receptor in the brain are linked with systemically elevated plasma glucocorticoid levels and more risk-averse personalities. Our findings support the hypothesis that steroid hormones can exert pleiotropic effects that organize behavioral phenotypes and provide novel evidence that neuroendocrine factors robustly explain a large fraction of endocrine and personality variation.

Published
2017

40. Novelty induces behavioural and glucocorticoid responses in a songbird artificially selected for divergent personalities

Author

Baugh, A.T., Witonsky, K.R., Davidson, S.C., Hyder, L., Hau, M., van Oers, K., Baugh, A.T., Witonsky, K.R., Davidson, S.C., Hyder, L., Hau, M., and van Oers, K.

Abstract

Stress physiology is thought to contribute to individual differences in behaviour. In part this reflects the fact that canonical personality measures consist of responses to challenges, including novel objects and environments. Exposure to novelty is typically assumed to induce a moderate increase in glucocorticoids (CORT), although this has rarely been tested. We tested this assumption using great tits, Parus major, selected for divergent personalities (bold-fast and shy-slow explorers), predicting that the shy birds would exhibit higher CORT following exposure to a novel object. We also scored behavioural responses to the novel object, predicting that bold birds would more frequently approach the novel object and exhibit more abnormal repetitive behaviours. We found that the presence of a novel object did induce a moderate CORT response, but selection lines did not differ in the magnitude of this response. Furthermore, although both selection lines showed a robust CORT elevation to a subsequent restraint stressor, the CORT response was stronger in bold birds and this effect was specific to novel object exposure. Shy birds showed a strong positive phenotypic correlation between CORT concentrations following the novel object exposure and the subsequent restraint stress. Behaviourally, the selection lines differed in their response during novel object exposure: as predicted, bold birds more frequently approached the novel object and shy birds more strongly decreased overall locomotion during the novel object trial, but birds from both selection lines showed significant and similar frequencies of abnormal repetitive behaviours during novel object exposure. Our findings support the hypothesis that personality emerges as a result of correlated selection on behaviour and underlying endocrine mechanisms and suggest that the relationship between endocrine stress physiology and personality is context dependent.

Published
2017

41. Direct fitness benefits explain mate preference, but not choice, for similarity in heterozygosity levels

Author

Zandberg, Elizabeth Christina, Gort, G., van Oers, K., Hinde, C.A., Zandberg, Elizabeth Christina, Gort, G., van Oers, K., and Hinde, C.A.

Abstract

Under sexual selection, mate preferences can evolve for traits advertising fitness benefits. Observed mating patterns (mate choice) are often assumed to represent preference, even though they result from the interaction between preference, sampling strategy and environmental factors. Correlating fitness with mate choice instead of preference will therefore lead to confounded conclusions about the role of preference in sexual selection. Here we show that direct fitness benefits underlie mate preferences for genetic characteristics in a unique experiment on wild great tits. In repeated mate preference tests, both sexes preferred mates that had similar heterozygosity levels to themselves, and not those with which they would optimise offspring heterozygosity. In a subsequent field experiment where we cross fostered offspring, foster parents with more similar heterozygosity levels had higher reproductive success, despite the absence of assortative mating patterns. These results support the idea that selection for preference persists despite constraints on mate choice.

Published
2017

42. Sex-specific responses to territorial intrusions in a communication network: evidence from radio-tagged great tits

Author

Snijders, L., van Oers, K., Naguib, M., Snijders, L., van Oers, K., and Naguib, M.

Abstract

Signals play a key role in the ecology and evolution of animal populations, influencing processes such as sexual selection and conflict resolution. In many species, sexually selected signals have a dual function: attracting mates and repelling rivals. Yet, to what extent males and females under natural conditions differentially respond to such signals remains poorly understood, due to a lack of field studies that simultaneously track both sexes. Using a novel spatial tracking system, we tested whether or not the spatial behavior of male and female great tits (Parus major) changes in relation to the vocal response of a territorial male neighbor to an intruder. We tracked the spatial behavior of male and female great tits (N = 44), 1 hr before and 1 hr after simulating territory intrusions, employing automatized Encounternet radio-tracking technology. We recorded the spatial and vocal response of the challenged males and quantified attraction and repulsion of neighboring males and females to the intrusion site. We additionally quantified the direct proximity network of the challenged male. The strength of a male's vocal response to an intruder induced sex-dependent movements in the neighborhood, via female attraction and male repulsion. Stronger vocal responders were older and in better body condition. The proximity networks of the male vocal responders, including the number of sex-dependent connections and average time spent with connections, however, did not change directly following the intrusion. The effects on neighbor movements suggest that the strength of a male's vocal response can provide relevant social information to both the males and the females in the neighborhood, resulting in both sexes adjusting their spatial behavior in contrasting ways, while the social proximity network remained stable. This study underlines the importance of “silent” eavesdroppers within communication networks for studying the dual functioning and evolution of sexually selected si

Published
2017

43. Inefficient co-feeding transmission of Borrelia afzelii in two common European songbirds

Author

Heylen, D.J.A., Sprong, H., Krawczyk, A., Van Houtte, N., Genné, D., Gomez-Chamorro, A., van Oers, K., Voordouw, Maarten J., Heylen, D.J.A., Sprong, H., Krawczyk, A., Van Houtte, N., Genné, D., Gomez-Chamorro, A., van Oers, K., and Voordouw, Maarten J.

Abstract

The spirochete bacterium Borrelia afzelii is the most common cause of Lyme borreliosis in Europe. This tick-borne pathogen can establish systemic infections in rodents but not in birds. However, several field studies have recovered larval Ixodes ricinus ticks infected with B. afzelii from songbirds suggesting successful transmission of B. afzelii. We reviewed the literature to determine which songbird species were the most frequent carriers of B. afzelii-infected I. ricinus larvae and nymphs. We tested experimentally whether B. afzelii is capable of co-feeding transmission on two common European bird species, the blackbird (Turdus merula) and the great tit (Parus major). For each bird species, four naïve individuals were infested with B. afzelii-infected I. ricinus nymphal ticks and pathogen-free larval ticks. None of the co-feeding larvae tested positive for B. afzelii in blackbirds, but a low percentage of infected larvae (3.33%) was observed in great tits. Transstadial transmission of B. afzelii DNA from the engorged nymphs to the adult ticks was observed in both bird species. However, BSK culture found that these spirochetes were not viable. Our study suggests that co-feeding transmission of B. afzelii is not efficient in these two songbird species.

Published
2017

44. Dominance rank and boldness predict social attraction in great tits

Author

Snijders, L., Naguib, M., van Oers, K., Snijders, L., Naguib, M., and van Oers, K.

Abstract

Social relationships can have important fitness consequences, and how well an individual is socially connected often correlates with other behavioral traits. Whether such correlations are caused by underlying individual differences in social attraction usually remains unclear, because to identify effects of individual traits on social attraction, it is essential to experimentally exclude the influence of the social partner. Using standardized high-definition video playback on captive great tits (Parus major), we effectively demonstrate the influence of individual traits on the motivation to be near a conspecific. We show that social attraction varied contrastingly with boldness and stimulus novelty. Shyer birds tended to show stronger social attraction when they were confronted with the stimulus bird for the first time. Lower ranked birds showed the overall strongest social attraction. This rank effect remained after experimentally changing dominance ranks by altering group compositions. Moreover, preference for social association tended to increase with a decrease in dominance rank, suggesting that birds plastically change their social preference in relation to their within-group dominance status. Our results provide insight into how social relations can form and change, processes that are key for understanding the long-term consequences of the social environment, and the role individuals might play in influencing this environment themselves.

Published
2017

45. Koolmeesgenoom

Author

van Oers, K. and van Oers, K.

Published
2016

46. Effects of experimentally sustained elevated testosterone on incubation behaviour and reproductive success in female great tits (Parus major).

Author

de Jong, B., Lens, L., Amininasab, S.M., van Oers, K., Darras, V.M., Eens, M., Pinxten, R., Komdeur, J., Groothuis, T.G.G., de Jong, B., Lens, L., Amininasab, S.M., van Oers, K., Darras, V.M., Eens, M., Pinxten, R., Komdeur, J., and Groothuis, T.G.G.

Abstract

n many seasonally breeding birds, female and male testosterone (T) levels peak at the start of the breeding season, coinciding with pair bonding and nesting activities. Shortly after the onset of egg laying, T levels slowly decline to baseline levels in both sexes, but more rapidly so in females. During this period, T in males may still function to facilitate territorial behaviour, mate guarding and extra pair copulations, either via short lasting peaks or elevated basal levels of the hormone. In some species, however, males become insensitive to increased T after the onset of egg laying. It has been postulated that in these species bi-parental care is essential for offspring survival, as T is known to inhibit paternal care. However, only very few studies have analysed this for females. As females are heavily involved in parental care, they too might become insensitive to T after egg laying. Alternatively, because territorial defence, mate guarding and extra pair copulations are expected to be less important for females than for males, they may not have had the need to evolve a mechanism to become insensitive to T during the period of maternal care, because their natural T levels are never elevated during this part of the breeding season anyway. We tested these alternative hypotheses in female great tits (Parus major). Male great tits have previously been shown to be insensitive to T after egg laying with regard to nestling feeding behaviour (but not song rate). When females had started nest building, we experimentally elevated their T levels up to the nestling feeding phase, and measured incubation behaviour (only females incubate) and reproductive success. T did not significantly affect nest building or egg laying behaviour, although egg laying tended to be delayed in T females. Females with experimentally enhanced T maintained lower temperature during incubation but did not spend less time incubating. This might explain the reduced hatching success of their eggs

Published
2016

47. Gene and transposable element methylation in great tit (Parus major) brain and blood

Author

Derks, Martijn, Schachtschneider, K.M., Madsen, Ole, Schijlen, Elio GWM, Verhoeven, K.J.F., van Oers, K., Derks, Martijn, Schachtschneider, K.M., Madsen, Ole, Schijlen, Elio GWM, Verhoeven, K.J.F., and van Oers, K.

Abstract

Background Studies on vertebrate DNA methylomes have revealed a regulatory role of tissue specific DNA methylation in relation to gene expression. However, it is not well known how tissue-specific methylation varies between different functional and structural components of genes and genomes. Using whole-genome bisulfite sequencing data we here describe both CpG and non-CpG methylation profiles of whole blood and brain tissue in relation to gene features, CpG-islands (CGIs), transposable elements (TE), and their functional roles in an ecological model species, the great tit (Parus major). Results We show that hypomethylation at the transcription start site (TSS) is enriched in genes with functional classes that relate directly to processes specific to each tissue type. We find that 6877 (~21 %) of the CGIs are differentially methylated between blood and brain, of which 1186 and 2055 are annotated to promoter and intragenic regions, respectively. We observe that CGI methylation in promoter regions is more conserved between tissues compared to CGI methylation in intra and inter-genic regions. Differentially methylated CGIs in promoter and intragenic regions are overrepresented in genomic loci linked to development, suggesting a distinct role for CGI methylation in regulating expression during development. Additionally, we find significant non-CpG methylation in brain but not in blood with a strong preference for methylation at CpA dinucleotide sites. Finally, CpG hypermethylation of TEs is significantly stronger in brain compared to blood, but does not correlate with TE activity. Surprisingly, TEs showed significant hypomethylation in non-CpG contexts which was negatively correlated with TE expression. Conclusion The discovery that TSS methylation levels are directly linked to functional classes related to each tissue provides new insights in the regulatory role of DNA-methylation patterns. The dominant sequen

Published
2016

49. Dose-dependent responses of avian daily rhythms to artificial light at night

Author

De Jong, M., Jeninga, L., Ouyang, Jenny, van Oers, K., Spoelstra, K., Visser, M.E., De Jong, M., Jeninga, L., Ouyang, Jenny, van Oers, K., Spoelstra, K., and Visser, M.E.

Abstract

Recent studies have shown that animals are affected by night-time light exposure. Light is a continuous variable, but our knowledge on how individuals react to different light intensities during the night is limited. We therefore determined the relationship between night light intensity and the behaviour and physiology of great tits (Parus major). We measured daily activity patterns and melatonin levels in 35 males exposed to five different light intensities and found strong, dose-dependent effects. Activity onset was increasingly advanced, and activity offset delayed with higher light intensities. Furthermore, night-time activity increased and melatonin levels measured at midnight decreased with higher intensities. In this experimental study, we demonstrate for the first time dose-dependent effects of artificial light at night on birds' daily activity patterns and melatonin levels. Our results imply that these effects are not limited to a certain threshold, but emerge even when nocturnal light levels are slightly increased. However, in a natural area, these effects may be limited as artificial light levels are commonly low; light intensities drop rapidly with distance from a light source and birds can avoid exposure to light at night. Future studies should thus focus on examining the impact of different intensities of light at night in the wild.

Published
2016

50. Evolutionary signals of selection on cognition from the great tit genome and methylome

Author

Laine, Veronika, Gossmann, T.I., Schachtschneider, K.M., Garroway, C.J., Madsen, O., Verhoeven, K.J.F., de Jager, V.C.L., Megens, H-J., Warren, W.C., Minx, P., Crooijmans, R.P.M.A., Corcoran, P., The Great Tit Hapmap Consortium, Sheldon, B.C., Slate, J., Zeng, K., van Oers, K., Visser, M.E., Groenen, M.A.M., Laine, Veronika, Gossmann, T.I., Schachtschneider, K.M., Garroway, C.J., Madsen, O., Verhoeven, K.J.F., de Jager, V.C.L., Megens, H-J., Warren, W.C., Minx, P., Crooijmans, R.P.M.A., Corcoran, P., The Great Tit Hapmap Consortium, Sheldon, B.C., Slate, J., Zeng, K., van Oers, K., Visser, M.E., and Groenen, M.A.M.

Abstract

For over 50 years, the great tit (Parus major) has been a model species for research in evolutionary, ecological and behavioural research; in particular, learning and cognition have been intensively studied. Here, to provide further insight into the molecular mechanisms behind these important traits, we de novo assemble a great tit reference genome and whole-genome re-sequence another 29 individuals from across Europe. We show an overrepresentation of genes related to neuronal functions, learning and cognition in regions under positive selection, as well as increased CpG methylation in these regions. In addition, great tit neuronal non-CpG methylation patterns are very similar to those observed in mammals, suggesting a universal role in neuronal epigenetic regulation which can affect learning-, memory- and experience-induced plasticity. The high-quality great tit genome assembly will play an instrumental role in furthering the integration of ecological, evolutionary, behavioural and genomic approaches in this model species.

Published
2016

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