The research goal is to develop a "soil individualization technique" that enables a forensic expert to produce objective, statistical data that conclusively show soil distinctive to a crime scene can be matched to soil on a tool, clothing, or other item possessed by a suspect. This work has included DNA analysis of the millions or billions of bacteria found in soil samples taken from woodlands, fields, backyards, and dirt roads. Some students even collected slaughterhouse blood to study the bacterial changes caused when blood mixes with soil. Using next-generation sequencing (NGS) of bacterial DNA, Foran has used supervised classification techniques to classify the bacterial composition of a soil sample and give values that are, according to Foran, "completely objective." The statistical data from bacterial analysis meet the Daubert standard on the admissibility of scientific testimony. The individualization of bacterial populations in soil thus provides data that can be used for "individualizing" soil samples. Although crime labs are not currently using next-generation sequencing, as the technique becomes standard in non-forensic settings, Foran envisions crime labs incorporating it into their work for a host of forensic investigations.
Downloads
Similar Publications
- Real-Time Sample-Mining and Data-Mining Approaches for the Discovery of Novel Psychoactive Substances (NPS)
- Implications of Two Backward Blood Spatter Models Based on Fluid Dynamics for Bloodstain Pattern Analysis
- Development of an Alternative Liquid Chromatography Diode Array Detector Method With Optional Electrospray Ionization Time-off-Light Mass Spectrometry for the Quantification of Eighteen Phytocannabinoids in Hemp