Data from: No gains for bigger brains: functional and neuroanatomical consequences of relative brain size in a parasitic wasp
Heritable genetic variation in relative brain size can underlie the relationship between brain performance and the relative size of the brain. We used bidirectional artificial selection to study the consequences of genetic variation in relative brain size on brain morphology, cognition and longevity in Nasonia vitripennis parasitoid wasps. Our results show a robust change in relative brain size after 26 generations of selection and 6 generations of relaxation. Total average neuropil volume of the brain was 16% larger in wasps selected for relatively large brains than in wasps selected for relatively small brains, whereas the body length of the large-brained wasps was smaller. Furthermore, the relative volume of the antennal lobes was larger in wasps with relatively large brains. Relative brain size did not influence olfactory memory retention, whereas wasps that were selected for larger relative brain size had a shorter longevity, which was even further reduced after a learning experience. These effects of genetic variation on neuropil composition and memory retention are different from previously described effects of phenotypic plasticity in absolute brain size. In conclusion, having relatively large brains may be costly for N. vitripennis, whereas no cognitive benefits were recorded.
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Wageningen University & Research
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| Subjects: | Nasonia vitripennis, appetitive olfactory conditioning, artificial selection, bidirectional artificial selection, brain scaling, brain-size, constraints, host-parasite interaction, insects, longevity, parasitic wasp, parasitoid, trade-offs, |
| Online Access: | https://research.wur.nl/en/datasets/data-from-no-gains-for-bigger-brains-functional-and-neuroanatomic |
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dig-wur-nl-wurpubs-5497852024-09-23 van der Woude, E. Groothuis, J. Smid, H.M. Dataset Data from: No gains for bigger brains: functional and neuroanatomical consequences of relative brain size in a parasitic wasp 2019 Heritable genetic variation in relative brain size can underlie the relationship between brain performance and the relative size of the brain. We used bidirectional artificial selection to study the consequences of genetic variation in relative brain size on brain morphology, cognition and longevity in Nasonia vitripennis parasitoid wasps. Our results show a robust change in relative brain size after 26 generations of selection and 6 generations of relaxation. Total average neuropil volume of the brain was 16% larger in wasps selected for relatively large brains than in wasps selected for relatively small brains, whereas the body length of the large-brained wasps was smaller. Furthermore, the relative volume of the antennal lobes was larger in wasps with relatively large brains. Relative brain size did not influence olfactory memory retention, whereas wasps that were selected for larger relative brain size had a shorter longevity, which was even further reduced after a learning experience. These effects of genetic variation on neuropil composition and memory retention are different from previously described effects of phenotypic plasticity in absolute brain size. In conclusion, having relatively large brains may be costly for N. vitripennis, whereas no cognitive benefits were recorded. Wageningen University & Research text/html https://research.wur.nl/en/datasets/data-from-no-gains-for-bigger-brains-functional-and-neuroanatomic 10.5061/dryad.791n66r https://edepot.wur.nl/474631 Nasonia vitripennis appetitive olfactory conditioning artificial selection bidirectional artificial selection brain scaling brain-size constraints host-parasite interaction insects longevity parasitic wasp parasitoid trade-offs Wageningen University & Research |
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Nasonia vitripennis appetitive olfactory conditioning artificial selection bidirectional artificial selection brain scaling brain-size constraints host-parasite interaction insects longevity parasitic wasp parasitoid trade-offs Nasonia vitripennis appetitive olfactory conditioning artificial selection bidirectional artificial selection brain scaling brain-size constraints host-parasite interaction insects longevity parasitic wasp parasitoid trade-offs |
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Nasonia vitripennis appetitive olfactory conditioning artificial selection bidirectional artificial selection brain scaling brain-size constraints host-parasite interaction insects longevity parasitic wasp parasitoid trade-offs Nasonia vitripennis appetitive olfactory conditioning artificial selection bidirectional artificial selection brain scaling brain-size constraints host-parasite interaction insects longevity parasitic wasp parasitoid trade-offs van der Woude, E. Groothuis, J. Smid, H.M. Data from: No gains for bigger brains: functional and neuroanatomical consequences of relative brain size in a parasitic wasp |
| description |
Heritable genetic variation in relative brain size can underlie the relationship between brain performance and the relative size of the brain. We used bidirectional artificial selection to study the consequences of genetic variation in relative brain size on brain morphology, cognition and longevity in Nasonia vitripennis parasitoid wasps. Our results show a robust change in relative brain size after 26 generations of selection and 6 generations of relaxation. Total average neuropil volume of the brain was 16% larger in wasps selected for relatively large brains than in wasps selected for relatively small brains, whereas the body length of the large-brained wasps was smaller. Furthermore, the relative volume of the antennal lobes was larger in wasps with relatively large brains. Relative brain size did not influence olfactory memory retention, whereas wasps that were selected for larger relative brain size had a shorter longevity, which was even further reduced after a learning experience. These effects of genetic variation on neuropil composition and memory retention are different from previously described effects of phenotypic plasticity in absolute brain size. In conclusion, having relatively large brains may be costly for N. vitripennis, whereas no cognitive benefits were recorded. |
| format |
Dataset |
| topic_facet |
Nasonia vitripennis appetitive olfactory conditioning artificial selection bidirectional artificial selection brain scaling brain-size constraints host-parasite interaction insects longevity parasitic wasp parasitoid trade-offs |
| author |
van der Woude, E. Groothuis, J. Smid, H.M. |
| author_facet |
van der Woude, E. Groothuis, J. Smid, H.M. |
| author_sort |
van der Woude, E. |
| title |
Data from: No gains for bigger brains: functional and neuroanatomical consequences of relative brain size in a parasitic wasp |
| title_short |
Data from: No gains for bigger brains: functional and neuroanatomical consequences of relative brain size in a parasitic wasp |
| title_full |
Data from: No gains for bigger brains: functional and neuroanatomical consequences of relative brain size in a parasitic wasp |
| title_fullStr |
Data from: No gains for bigger brains: functional and neuroanatomical consequences of relative brain size in a parasitic wasp |
| title_full_unstemmed |
Data from: No gains for bigger brains: functional and neuroanatomical consequences of relative brain size in a parasitic wasp |
| title_sort |
data from: no gains for bigger brains: functional and neuroanatomical consequences of relative brain size in a parasitic wasp |
| publisher |
Wageningen University & Research |
| url |
https://research.wur.nl/en/datasets/data-from-no-gains-for-bigger-brains-functional-and-neuroanatomic |
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1816155940900044800 |