期刊
BRAIN BEHAVIOR AND EVOLUTION
卷 97, 期 5, 页码 265-273出版社
KARGER
DOI: 10.1159/000521750
关键词
Brain evolution; Comparative neuroanatomy; Lateralization; Reproductive behaviour; Reptiles
资金
- National Science and Engineering Council of Canada
- Australian National University
- Australian Research Council
This study examines the volumes of habenular subregions in Australian agamid lizards and finds that sexual selection influences the size of the habenula, potentially related to increased aggression and reproductive drive.
The habenula is a small structure in the brain that acts as a relay station for neural information, helping to modulate behaviour in response to variable and unpredictable stimuli. Broadly, it is evolutionarily conserved in structure and connectivity across vertebrates and is the most prominent bilaterally asymmetric structure in the brain. Nonetheless, comparative evolutionary studies of the habenula are virtually non-existent. Here, we examine the volumes of the medial and lateral habenular subregions, in both hemispheres, across a group of Australian agamid lizards in the genus Ctenophorus. In males, we found bilaterally asymmetrical selection on the lateral habenula to become smaller with increasing intensity of sexual selection, possibly as a mechanism to increase aggressive responses. In females, we found bilaterally symmetrical selection on both the medial and lateral subregions to become smaller with increasing sexual selection. This is consistent with sexual selection increasing motivation to reproduce and the habenula's well-characterized role in controlling and modifying responses to rewarding stimuli. However, as there are currently no studies addressing habenular function in reptiles, it is difficult to draw more precise conclusions. As has happened recently in biomedical neuroscience, it is time for the habenula to receive greater attention in evolutionary neuroscience. (c) 2022 The Author(s). Published by S. Karger AG, Basel
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