Finley Sheree J, Benbow M Eric, Javan Gulnaz T
Forensic Science Program, Physical Sciences Department, Alabama State University, Montgomery, AL, 36104, USA.
Int J Legal Med. 2015 May;129(3):623-32. doi: 10.1007/s00414-014-1059-0. Epub 2014 Aug 17.
Most forensic research that is used to better understand how to estimate the postmortem interval (PMI) entails the study of the physiochemical characteristics of decomposition and the effects that environmental factors have on the decomposition process. Forensic entomology exploits the life cycles of arthropods like Diptera (blow flies or flesh flies) and Coleoptera (beetles) deposited on the decaying carcass to determine PMI. Forensic taphonomy, from the Greek word taphos meaning burial, studies the creation of the fossils of decomposed cadavers to ascertain information as to the nature and time of death. Compared to other areas of taphonomy, there have been relatively few forensic science studies that have investigated the impact of human decomposition on the microbial changes occurring on or in a corpse or in the soil communities underneath a body. Such research may facilitate the critical determination of PMI. Therefore, the scope of this review is to provide a concise summary of the current progress in the newly emerging field of microbial diversity and the next-generation metagenomic sequencing approaches for assessing these communities in humans and in the soil beneath decomposing human.
大多数用于更好地理解如何估计死后间隔时间(PMI)的法医研究都涉及对分解过程的物理化学特征以及环境因素对分解过程影响的研究。法医昆虫学利用双翅目(绿头苍蝇或肉蝇)和鞘翅目(甲虫)等节肢动物在腐烂尸体上的生命周期来确定PMI。法医埋藏学,源自希腊语“taphos”,意为埋葬,研究腐烂尸体化石的形成,以确定有关死亡性质和时间的信息。与埋藏学的其他领域相比,研究人类分解对尸体上或尸体内部以及尸体下方土壤群落中微生物变化影响的法医学研究相对较少。此类研究可能有助于对PMI进行关键判定。因此,本综述的范围是简要总结新兴的微生物多样性领域的当前进展以及用于评估人类和分解人类下方土壤中这些群落的新一代宏基因组测序方法。