Next generation forensic taphonomy: Automation for experimental, field-based research

Determining the post-mortem interval (PMI) is often a critical goal in forensic casework. Consequently, the discipline of forensic taphonomy has involved considerable research efforts towards achieving this goal, with substantial strides made in the past 40 years. Importantly, quantification of deco...

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Bibliographic Details
Published in:Forensic science international 2023-04, Vol.345, p.111616-111616, Article 111616
Main Authors: Finaughty, D.A., Pead, J., Spies, M.J., Gibbon, V.E.
Format: Article
Language:English
Subjects:
Animals
Automation
Biogeography
Data collection
Decay
Decomposition
Design of experiments
Ecosystems
Experimental design
Forensic Medicine
Forensic Pathology - methods
Forensic science
Forensic sciences
Forensic taphonomy
Laboratory tests
Methodology
Models, Animal
Paleontology
Post-mortem interval
Postmortem Changes
Realism
South Africa
Standardization
Taphonomy
Variables
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Summary:Determining the post-mortem interval (PMI) is often a critical goal in forensic casework. Consequently, the discipline of forensic taphonomy has involved considerable research efforts towards achieving this goal, with substantial strides made in the past 40 years. Importantly, quantification of decompositional data (and the models derived from them) and standardisation in experimental protocols are being increasingly recognised as key components of this drive. However, despite the discipline’s best efforts, significant challenges remain. Still lacking are standardisation of many core components of experimental design, forensic realism in experimental design, true quantitative measures of the progression of decay, and high-resolution data. Without these critical elements, large-scale, synthesised multi-biogeographically representative datasets – necessary for building comprehensive models of decay to precisely estimate PMI – remain elusive. To address these limitations, we propose the automation of taphonomic data collection. We present the world’s first reported fully automated, remotely operable forensic taphonomic data collection system, inclusive of technical design details. Through laboratory testing and field deployments, the apparatus substantially reduced the cost of actualistic (field-based) forensic taphonomic data collection, improved data resolution, and provided for more forensically realistic experimental deployments and simultaneous multi-biogeographic experiments. We argue that this device represents a quantum leap in experimental methodology in this field, paving the way for the next generation of forensic taphonomic research and, we hope, attainment of the elusive goal of precise estimation of PMI. •Marshall’s ‘Five Hindrances’ persist in forensic taphonomy research.•Automation of data collection proposed as solution.•World-first fully autonomous remote forensic taphonomic data collection system.•Outcomes: reduced research cost, improved data resolution, remote access to data.•The future? Large, synthesised taphonomic datasets and accurate PMI estimation.
ISSN:0379-0738
1872-6283
DOI:10.1016/j.forsciint.2023.111616