Best practice in forensic entomology—standards and guidelines

Amendt, Jens; Campobasso, Carlo Pietro; Gaudry, Emmanuel; Reiter, Christian; LeBlanc, Hélène N.; Hall, M. J. R.

doi:10.1007/s00414-006-0086-x

Cited by 651 publications

(494 citation statements)

References 27 publications

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“…PMI can therefore only be estimated. The longer the PMI, the less accurate the estimation of the interval will be [22]. The process of decay is influenced by a number of aspects, for example, the complexity of integrating all factors affecting insect devel opment [21].…”

Section: Discussionmentioning

confidence: 99%

The effect of body size on the rate of decomposition in a temperate region of South Africa

Sutherland

Myburgh

Steyn

et al. 2013

Forensic Science International

111

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Forensic anthropologists rely on the state of decomposition of a body to estimate the PostMortem-Interval (PMI) which provides information about the natural events and environmental forces that could have affected the remains after death. Various factors are known to influence the rate of decomposition, among them temperature, rainfall and exposure of the body. However, conflicting reports appear in the literature on the effect of body size on the rate of decay. The aim of this project was to compare decomposition rates of large pigs (Sus scrofa; 60 -90 kg), with that of small pigs (< 35 kg), to assess the influence of body size on decomposition rates. For the decomposition rates of small pigs, 15 piglets were assessed three times per week over a period of three months during spring and early summer. Data collection was conducted until complete skeletonization occurred. Stages of decomposition were scored according to separate categories for each anatomical region, and the point values for each region were added to determine the total body score (TBS), which represents the overall stage of decomposition for each pig. For the large pigs, data of 15 pigs were used. Scatter plots illustrating the relationships between TBS and PMI as well as TBS and Accumulated degree days (ADD) were used to assess the pattern of decomposition and to compare decomposition rates between small and large pigs. Results indicated that rapid decomposition occurs during the early stages of decomposition for both samples. Large pigs showed a plateau phase in the course of advanced stages of decomposition, during which decomposition was minimal. A similar, but much shorter plateau was reached by small pigs of >20 kg at a PMI of 20-25 days, after which decomposition commenced swiftly.This was in contrast to the small pigs of <20kg, which showed no plateau phase and their decomposition rates were swift throughout the duration of the study. Overall, small pigs decomposed 2.82 times faster than large pigs, indicating that body size does have an effect on the rate of decomposition.

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Section: Discussionmentioning

confidence: 99%

The effect of body size on the rate of decomposition in a temperate region of South Africa

Sutherland

Myburgh

Steyn

et al. 2013

Forensic Science International

111

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“…Therefore, the arthropods found at a crime scene and on a victim's body can assist many types of forensic investigation [1,3]. In particular, they can provide information about time since death, season of death, primary crime scene, movement or concealment of the remains following death, specific sites of trauma on the body, use of drugs and neglect of children [4], elders [5] or non-autonomous people [6] and victim's identification when the body is removed from the initial decomposition site [2].…”

Section: Introductionmentioning

confidence: 99%

Crime scene and body alterations caused by arthropods: implications in death investigation

et al. 2018

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The activity of arthropods on corpses has been largely investigated, since they can produce information to reconstruct the perimortem events. However, the feeding/movement activity of insects around the crime scene, among the clothes and on the body, can also cause some alterations that can lead to wrong reconstruction and misinterpretations. This article summarises all the postmortem arthropods artefacts related to the scene (i.e. fly artefacts and floor stripes) and the body (i.e. skin and other soft tissue alterations, bone alterations and hair alterations) that can mislead the forensic pathologist, discussing macroscopic and microscopic findings derived from forensic casework and from experimental laboratory studies, in order to provide a useful instrument to avoid misinterpretations and evaluation errors. Finally, some procedural notes for the documentation and the interpretation of findings are proposed.

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“…La preservación del espécimen, después de su remoción, debe realizarse de la siguiente forma: sumergir a la larva por 30 segundos en agua caliente (> 80 °C) pero no hirviendo, lo que la mata; posteriormente, la larva debe ser preservada en una solución de etanol al 70-95% 13 . Debe evitarse el uso de formalina, ya que rigidiza el tejido de la larva, lo que dificulta su posterior estudio 14 .…”

Section: Discussionunclassified

Miasis cutánea por Cochliomyia hominivorax asociada a dermatitis seborreica: Case report

et al. 2017

Rev. méd. Chile

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Best practice in forensic entomology—standards and guidelines

Cited by 651 publications

References 27 publications

The effect of body size on the rate of decomposition in a temperate region of South Africa

The effect of body size on the rate of decomposition in a temperate region of South Africa

Crime scene and body alterations caused by arthropods: implications in death investigation

Miasis cutánea por Cochliomyia hominivorax asociada a dermatitis seborreica: Case report

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