Marine bryozoan colonization of terrestrial biomineralized tissues: Taphonomic insights and forensic implications

IF 1.1 3区 历史学 Q2 ANTHROPOLOGY International Journal of Osteoarchaeology Pub Date : 2024-05-08 DOI:10.1002/oa.3303
Edda E. Guareschi, Paola A. Magni
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Abstract

The taphonomy and diagenesis of bone and teeth recovered from any environments provide crucial information for forensic sciences and investigations. This leads to the estimation of the postmortem interval (PMI) and the postmortem submersion interval (PMSI) of the organism/s. Aquatic taxa can induce macroscopic and microscopic alterations in biomineralized tissues (e.g., grooves) or can colonize them by attachment (e.g., Bryozoa). Bryozoa are tiny invertebrates that form colonies in freshwater and saltwater. They can survive for years as suspension feeders in all climates. Most marine Bryozoa species have a biomineralized exoskeleton that can be preserved after their death. This research analyzes eight fragments of archeological elephant ivory with a known PMSI of 314 years, which were inhabited by three distinct bryozoan colonies. The variations in the preservation of the bryozoan exoskeletons and the overgrowth of different marine taxa reveal that one colony (lichenoporid cyclostomatid) was alive at the time of the ivory collection from the submerged archeological site while the two other colonies (cheilostomatid) had previously died at different times. The primary objective of this observation is to contribute to the understanding of the taphonomy of terrestrial mammalian biomineralized tissues recovered in marine environments. Additionally, the study discusses the potential forensic implications of this association, such as the evidence of marine submersion and the PMSI. A secondary objective is to present the Bryozoa colonies within a distinctive depositional context, considering that many bryozoan species of the Western Australian coast remain undescribed. The complexity of the Bryozoa ecobiology is also highlighted, with the need of further research (e.g., minimum time for colonization). Finally, this study highlights the urgency of multidisciplinary collaboration to advance aquatic forensic capabilities.

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陆生生物矿化组织中的海洋贝类定殖:陶器学见解和法医学意义
从任何环境中提取的骨骼和牙齿的岩石学和成岩学为法医学和调查提供了重要信息。这有助于估算生物体的死后时间间隔(PMI)和死后浸水时间间隔(PMSI)。水生类群可引起生物矿化组织的宏观和微观变化(如凹槽),或通过附着在组织中进行定殖(如岩 毛虫)。岩绿藻是一种微小的无脊椎动物,可在淡水和海水中形成群落。作为悬浮取食者,它们可以在任何气候条件下存活多年。大多数海洋贝类都有生物矿化的外骨骼,可以在死后保存下来。这项研究分析了八块已知 PMSI 为 314 年的考古大象象牙碎片,这些象牙碎片中栖息着三种不同的贝类。从双壳类动物外骨骼保存情况的变化和不同海洋类群的过度生长可以看出,在水下考古遗址采集象牙时,其中一个群落(地衣环口类动物)还活着,而另外两个群落(螯足类动物)则在不同时间死亡。这项观察的主要目的是帮助人们了解在海洋环境中发现的陆生哺乳动物生物矿化组织的岩石学。此外,该研究还讨论了这种关联的潜在法医学意义,如海洋浸没和 PMSI 的证据。考虑到西澳大利亚海岸的许多贝类物种仍未被描述,研究的另一个目的是在独特的沉积背景下展示贝类群落。该研究还强调了岩虫生态生物学的复杂性,以及进一步研究的必要性(如定殖的最短时间)。最后,本研究强调了多学科合作以提高水生法医学能力的紧迫性。
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来源期刊
CiteScore
2.40
自引率
10.00%
发文量
105
期刊介绍: The aim of the International Journal of Osteoarchaeology is to provide a forum for the publication of papers dealing with all aspects of the study of human and animal bones from archaeological contexts. The journal will publish original papers dealing with human or animal bone research from any area of the world. It will also publish short papers which give important preliminary observations from work in progress and it will publish book reviews. All papers will be subject to peer review. The journal will be aimed principally towards all those with a professional interest in the study of human and animal bones. This includes archaeologists, anthropologists, human and animal bone specialists, palaeopathologists and medical historians.
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