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The language of abiotic stress in aquatic animals : molecular characterisation of stress metabolite-mediated stress communication (2022)
Thesis
Feugère, L. The language of abiotic stress in aquatic animals : molecular characterisation of stress metabolite-mediated stress communication. (Thesis). University of Hull. https://hull-repository.worktribe.com/output/4311814

It is well established that aquatic animals inform their neighbours of predation risk through chemical cues. In this thesis, I tested the hypothesis that stress propagation is a widespread mechanism also activated by abiotic stressors – such as those... Read More about The language of abiotic stress in aquatic animals : molecular characterisation of stress metabolite-mediated stress communication.

Functional genomics of abiotic environmental adaptation in lacertid lizards and other vertebrates (2021)
Journal Article
Wollenberg Valero, K. C., Garcia-Porta, J., Irisarri, I., Feugere, L., Bates, A., Kirchhof, S., Jovanovic Glavas, O., Pafilis, P., Samuel, S. F., Müller, J., Vences, M., Turner, A. P., Beltran-Alvarez, P., & Storey, K. B. (in press). Functional genomics of abiotic environmental adaptation in lacertid lizards and other vertebrates. The journal of animal ecology, https://doi.org/10.1111/1365-2656.13617

Understanding the genomic basis of adaptation to different abiotic environments is important in the context of climate change and resulting short-term environmental fluctuations. Using functional and comparative genomics approaches, we here investiga... Read More about Functional genomics of abiotic environmental adaptation in lacertid lizards and other vertebrates.

Thermal stress induces a positive phenotypic and molecular feedback loop in zebrafish embryos (2021)
Journal Article
Feugere, L., Wollenberg Valero, K. C., Scott, V., Rodriguez-Barucg, Q., & Beltran-Alvarez, P. (2021). Thermal stress induces a positive phenotypic and molecular feedback loop in zebrafish embryos. Journal of Thermal Biology, 102, Article 103114. https://doi.org/10.1016/j.jtherbio.2021.103114

Aquatic organisms must cope with both rising and rapidly changing temperatures. These thermal changes can affect numerous traits, from molecular to ecological scales. Biotic stressors are already known to induce the release of chemical cues which tri... Read More about Thermal stress induces a positive phenotypic and molecular feedback loop in zebrafish embryos.