C. L. Mai scite author profile

C. L. Mai

2Publications

25Citation Statements Received

150Citation Statements Given

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148

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China West Normal University

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Brain size evolution in the frog Fejervarya limnocharis supports neither the cognitive buffer nor the expensive brain hypothesis

et al. 2016

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Variable environmental conditions affect brain size evolution. To explain inter‐ and intraspecific brain size variation among vertebrates, two adaptive hypotheses – the expensive brain hypothesis (EBH) and the cognitive buffer hypothesis (CBH) – have been proposed. The EBF proposes that relative brain size is reduced in animals that experience longer periods of low food availability in fluctuating environments. Alternatively, the CBH states that a major advantage of a relatively large brain is to enhance cognitive abilities in fluctuating environments. We found considerable variation in brain size and the sizes of brain structures in the Asian grass frog (Fejervarya limnocharis) among populations. Inconsistent with the predictions of the EBH and the CBH, individuals living in habitats with medium variation in temperatures and length of growth seasons at middle latitude and/or altitude had a relatively large brain, suggesting that environmental habitat‐induced energetic constraints do not play an important role in shaping brain size evolution. Moreover, we also detected a significant intersexual difference in telencephalon size. Specifically, none of relative size of brain structures was correlated with variation in temperature and growth season related to environmental habitats, although latitude strongly affected the relative sizes of telencephalon and cerebellum. Our findings decline both the EBH and the CBH to explain brain size variation in the Asian grass frog. Furthermore, our results also suggest the sex‐specificity of the environmental‐induced brain size evolution in adult frogs associated with reproductive behaviors and spawning site selection.

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Genome size variation is associated with life‐history traits in birds

Liu

Mai

et al. 2019

Journal of Zoology

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Genome size markedly displays variation across taxa. Genome size variation is affected by two principally different mechanisms (such as whole‐genome duplication events (polyploidization) and accumulation of noncoding elements). In addition, genome size variation is also affected by the phylogenetic signal, life‐history traits and environmental factors. Here, we studied the relationships between genome size and life‐history traits (e.g. clutch size, hatching time, fledging time, age at sexual maturity, longevity and body mass) among 240 species of birds using a phylogenetic comparative analysis and path analysis. We found that genome size was positively correlated with both body mass and hatching time. We also found that body mass was positively correlated with hatching time, age at sexual maturity and longevity in birds. Our findings suggest that although genome size was directly linked to body mass, evolution of larger genomes was also associated with larger bodies by the prolonged hatching time.

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C. L. Mai

Brain size evolution in the frog Fejervarya limnocharis supports neither the cognitive buffer nor the expensive brain hypothesis

Genome size variation is associated with life‐history traits in birds

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