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Connor R. Gervais
Researcher at Macquarie University
Publications - 15
Citations - 178
Connor R. Gervais is an academic researcher from Macquarie University. The author has contributed to research in topics: Bay & Juvenile. The author has an hindex of 5, co-authored 13 publications receiving 75 citations. Previous affiliations of Connor R. Gervais include James Cook University.
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Species on the move around the Australian coastline: a continental-scale review of climate-driven species redistribution in marine systems
TL;DR: In this paper, the authors report the results of a multi-taxon continent-wide review describing observed and predicted species redistribution around the Australian coastline, and highlight critical gaps in knowledge impeding our understanding of, and response to, these considerable changes.
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Anthropogenic stressors influence reproduction and development in elasmobranch fishes
Carolyn R. Wheeler,Carolyn R. Wheeler,Carolyn R. Wheeler,Connor R. Gervais,Martijn S. Johnson,Shelby Vance,Rui Rosa,John W. Mandelman,John W. Mandelman,Jodie L. Rummer +9 more
TL;DR: The impacts of both direct and indirect human interactions on the reproductive biology of elasmobranchs are reviewed to help inform better management as well as climate change forecasting for this threatened group of aquatic vertebrates.
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Too hot to handle? Using movement to alleviate effects of elevated temperatures in a benthic elasmobranch, Hemiscyllium ocellatum
Connor R. Gervais,Connor R. Gervais,Tiffany J. Nay,Gillian Mary Claire Renshaw,Jacob L. Johansen,John F. Steffensen,Jodie L. Rummer +6 more
TL;DR: As ocean temperatures continue to rise, the distribution and abundance patterns for epaulette sharks and many other coral reef species are likely to change if trade-offs associated with acclimation outweigh the benefits of moving to more favourable habitats.
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Quantity discrimination in Port Jackson sharks incubated under elevated temperatures
TL;DR: The results seem to indicate that learning and behaviour might play a role in allowing elasmobranchs to overcome some of the deleterious effects of climate warming, but further research is needed to fully comprehend these findings.
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Population variation in the thermal response to climate change reveals differing sensitivity in a benthic shark.
TL;DR: While unique to elasmobranchs, these data provide further support that by treating species as static, homogeneous populations, the authors ignore the impacts of thermal history and intraspecific variation on thermal sensitivity.