Development of the Forensically Important Beetle Creophilus maxillosus (Coleoptera: Staphylinidae) at Constant Temperatures

Creophilus maxillosus (L., 1758) is a common and widely distributed beetle species found on corpses, and its development duration is far longer than species belonging to the genus Calliphoridae and Sarcophagidae. Therefore, C. maxillosus can be used as a supplementary indicator to estimate minimum p...

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Bibliographic Details
Published in:Journal of medical entomology 2017-03, Vol.54 (2), p.281-289
Main Authors: Wang, Y., Yang, J. B., Wang, J. F., Li, L. L., Wang, M., Yang, L. J., Tao, L. Y., Chu, J., Hou, Y. D.
Format: Article
Language:English
Subjects:
Animals
Beetles
Body length
Body Size
Cadaver
Chlaenius maxillosus
Coleoptera - growth & development
Creophilus maxillosus
DEVELOPMENT, LIFE HISTORY
developmental model
Developmental stages
Female
forensic entomology
Forensic Pathology
Forensic science
hairy rove beetle
Hatching
Larva - growth & development
Male
Postmortem Changes
postmortem interval
Pupa - growth & development
Regression analysis
Species
Swine - parasitology
Temperature
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Summary:Creophilus maxillosus (L., 1758) is a common and widely distributed beetle species found on corpses, and its development duration is far longer than species belonging to the genus Calliphoridae and Sarcophagidae. Therefore, C. maxillosus can be used as a supplementary indicator to estimate minimum postmortem interval (PMImin), and could greatly extend the range of PMImin when the primary colonizers are no longer associated with the corpse or have emerged from pupae. Better descriptions of C. maxillosus development are needed to apply this species for forensic investigations. In this study, the development of C. maxillosus at seven constant temperatures ranging from 17.5–32.5 °C was studied. Through regression analyses, the simulation equations of larval body length variation with time after hatching were obtained. Isomegalen diagrams of the changes of larval body length over time at specific temperatures, and the isomorphen diagrams on the duration of different developmental milestones at specific temperatures were generated. In addition, thermal summation models of different developmental stages and the overall development process of C. maxillosus were generated through regression analysis, by estimating the development threshold temperatures (D0) and the thermal summation constants (K). These results provide important tools for forensic investigations to generate a long-range of PMImin estimation based on the development of C. maxillosus.
ISSN:0022-2585
0022-2858
1938-2928
DOI:10.1093/jme/tjw193