Forensic entomology relies on the ability to predict the temperatures to which maggots have been exposed, due to the resultant impact on their growth rate. Mercury thermometers and electrical temperature sensors have traditionally been used to record temperatures of maggot masses, cadavers and the surrounding soil and air. However, these techniques are limited to one measurement at a time and thus may not accurately describe the complexities of the thermal environment of the cadaver. Infrared imaging has gained increasing popularity because of its resolution, affordability and portability. Using decomposing pig carcasses, the current study showed that surface temperature measurements recorded using temperature loggers are able to be successfully replicated by taking spot measurements from an infrared image. Additionally, by recording the maximum temperature observed within each infrared image, an accurate proxy was achieved for internal temperatures of a carcass placed outdoors (R 2=0.46, p
Funding
Improving Insect-based Technology for Minimum Death Time Estimates in Forensic Investigations in Australia
Johnson, A. P. & Wallman, J. F. (2014). Infrared imaging as a non-invasive tool for documenting maggot mass temperatures. Australian Journal of Forensic Sciences, 46 (1), 73-79.