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Quantifying the Temperature of Maggot Masses and its Relationship to Decomposition

Heaton, Vivienne; Moffatt, Colin; Simmons, Tal

Authors

Colin Moffatt

Tal Simmons



Abstract

Numerous Calliphoridae species have been observed to form larval aggregations during the feeding stage of development, resulting in localized increases in temperature. This study investigates the relationship between maggot numbers in a mass and heat generation. Single-species aggregations (Lucilia sericata) of various sizes (50–2500 individuals) were reared in the laboratory at a constant ambient temperature of 22°C. Internal mass temperatures were recorded every 5 min throughout the feeding stage of development. Results showed that mass temperatures increased with mass numbers (p-value < 0.001), ranging from 2.5 to 14°C above ambient. A minimum mass size of 1200 produced overall temperatures that were significantly warmer than ambient, diverging away from 22°C after c. 26 h. These results indicate that the microclimate of a mass has the potential to differ significantly from ambient, which may be influencing larval development rates and should therefore be factored into mPMI estimates to increase accuracy.

Citation

Heaton, V., Moffatt, C., & Simmons, T. (2014). Quantifying the Temperature of Maggot Masses and its Relationship to Decomposition. Journal of Forensic Sciences, 59(3), 676-682. https://doi.org/10.1111/1556-4029.12396

Journal Article Type Article
Acceptance Date Apr 7, 2013
Online Publication Date Feb 6, 2014
Publication Date 2014-05
Deposit Date Jun 16, 2023
Journal Journal of Forensic Sciences
Print ISSN 0022-1198
Publisher Wiley
Peer Reviewed Peer Reviewed
Volume 59
Issue 3
Pages 676-682
DOI https://doi.org/10.1111/1556-4029.12396
Keywords Genetics; Pathology and Forensic Medicine