Postdoctoral Scholar
Adviser
Fields of Interest
Biography
My doctoral research focused on the physiological impacts of multiple stressors (primarily hypoxia and salinity stress) and how aquatic invertebrate species differ in their responses. My current work in the Durant Lab similarly focuses on aquatic invertebrate physiology, with primary interest in salinity and ammonium balance.
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Selected Research
- Osmoregulation in aquatic insects: A review, Cochran Jamie, Donini Andrew, and Buchwalter David (2024)
- Variation in Freshwater Insect Osmoregulatory Traits: A Comparative Approach, Cochran Jamie K, Buchwalter David B, Orr Sarah E, Funk David H, Figurskey Anastasia C, and Reiskind Michael H, Ecological and Evolutionary Physiology, Volume 97, p.000–000 (2024)
- The mayfly Neocloeon triangulifer senses decreasing oxygen availability (PO2) and responds by reducing ion uptake and altering gene expression, Cochran Jamie K and Buchwalter David B, Journal of Experimental Biology, Volume 227 (2024)
- Physiological and life history responses in a mayfly (Callibaetis floridanus) inhabiting ponds with saltwater intrusion, Cochran Jamie K, Buchwalter David B, and Funk David H, Frontiers in Ecology and Evolution, Volume 11, p.1135924 (2023)
- Respirometry reveals major lineage-based differences in the energetics of osmoregulation in aquatic invertebrates, Cochran Jamie K, Banks Catelyn, and Buchwalter David B, Journal of Experimental Biology, Volume 226 (2023)
- Weak differences in sensitivity to major ions by different larval stages of the mayfly Neocloeon triangulifer, Cochran Jamie K, Buchwalter David B, Orr Sarah E, Wallace Ian G, Gray Rachel W, and Overmyer Gretta E, Freshwater Science, Volume 41, p.215–225 (2022)
- The acclimatory response of the mayfly Neocloeon triangulifer to dilute conditions is linked to the plasticity of sodium transport, Cochran Jamie K and Buchwalter David B, Proceedings of the Royal Society B, Volume 289, p.20220529 (2022)
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