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The long-term goal of my research is to understand how abiotic stress filters through physiology to shape species abundance and distribution. While abiotic stressors such as temperature have been used very successfully to predict population growth, distribution, and diversity of insect species, integration of the mechanisms of how these stressors are experienced by individuals from alteration of physiology through to fitness impacts has lagged. Inclusion of these mechanisms is crucial for accurate modelling predictions of individual (and therefore population-level) responses. My research to date has focused on how the impact of frequency of stress (rather than the duration or intensity of stress) is a superior predictor of both survival and reproductive success , and used insect cold tolerance as a model system.
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Michael Kaspari,Katie E. Marshall,Michael D. Weiser,Cameron D. Siler, Miranda K. Theriot,Kirsten deBeurs
Ecosphereno. 3 (2024): n/a-n/a
ECOLOGYno. 3 (2024): e4232-e4232
Methods in molecular biology (Clifton, N.J.) (2024): 219-229
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JOURNAL OF ANIMAL ECOLOGYno. 2 (2024): 147-158
Current Research in Insect Science (2024): 100073-100073
Nature Ecology & Evolutionpp.1-11, (2024)
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