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Visualizing hotspots: applying thermal imaging to monitor internal temperatures in intertidal gastropods
Molluscan Research
  • Stefan Caddy-Retalic, Flinders University
  • Kirsten Benkendorff, Flinders University
  • Peter G Fairweather, Flinders University
Document Type
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Peer Reviewed
Investigating the impacts of climate change highlights a need to rapidly quantify an organism’s thermal environment. We investigated the reliability of non-contact thermal imaging for measuring temperatures in an intertidal gastropod. Thermal maxima from images of either dorsal or ventral surfaces correlated strongly with invasive temperature-probe readings, producing highly significant regression models to predict mantle temperatures from thermal images. Thermal imaging was then field-tested to non-invasively examine temperature changes of snails relative to their substrate: those exposed to sunlight had a mean temperature 4–8˚C above the substrate during the day but 2–4˚C below at night. Thermoregulation was also tested in the laboratory: when exposed to 45˚C for 24 hours, snails reached 35–44˚C, significantly higher than those (18˚C to 25˚C) held at 25˚C. Thermal imaging is reliable for rapidly measuring tissue temperatures in a shelled gastropod typical of intertidal environments, thus providing a powerful tool for testing hypotheses about thermal responses in the changing global environment.
Citation Information

Caddy-Retalic, S, Benkendorff, K & Fairweather, PG 2011, 'Visualizing hotspots: applying thermal imaging to monitor internal temperatures in intertidal gastropods', Molluscan Research, vol. 31, no. 2, pp. 106-113.

Article available on Open Access