A study into the distribution of gunshot residue particles in the random population

Lucas, Nick; Brown, Hayley; Cook, Michael; Redman, Kahlee; Condon, Tanith; Wrobel, Harald; Kirkbride, K. Paul; Kobus, Hilton

doi:10.1016/j.forsciint.2016.02.050

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A study into the distribution of gunshot residue particles in the random population
Citation	Lucas N, Brown H, Cook M, Redman K, Condon T, Wrobel H, Kirkbride KP, Kobus H. Forensic Sci. Int. 2016; 262: 150-155.
Affiliation	Flinders University South Australia, Sturt Road, Bedford Park, SA, Australia. Electronic address: Hilton.Kobus@flinders.edu.au.
Copyright	(Copyright © 2016, Elsevier Publishing)
DOI	10.1016/j.forsciint.2016.02.050
PMID	26990563
Abstract	When considering the impact and value of gunshot residues (GSR) as forensic trace evidence, the likelihood of a suspect producing a positive GSR analysis result without having direct exposure to a firearm is a major consideration. Therefore, the random prevalence of GSR and 'GSR-like' residues in the wider population is a highly pertinent question when considering the probative value of such evidence. The random prevalence of GSR in two Australian jurisdictions - Victoria and South Australia - was assessed through the collection and analysis of GSR samples obtained from randomly selected members of the public. Volunteers were asked to declare any firearms use, hobbies or potential firearms exposure before allowing their hands to be sampled using aluminium GSR sample stubs coated in adhesive tape. A total of 289 samples, 120 from Victoria and 169 from South Australia were collected and analysed using scanning electron microscopy coupled with energy dispersive X-ray microanalysis (SEM-EDS). Across all samples, three 'characteristic' three-component Pb/Ba/Sb particles were detected from a single subject in South Australia, corresponding to an overall prevalence of 0.3%. Two-component 'consistent' particles were more prevalent, with Pb/Sb particles being the most frequently occurring, in 8% of samples, and in South Australia only. A number of samples, approximately 7%, showed populations of single element particles of Pb, Ba and Sb, which has the potential to generate a false positive for GSR if using a bulk analysis technique such as NAA or AAS. The prevalence of GSR or 'GSR like' particles in this study matches closely with similar surveys conducted in other jurisdictions. Such surveys are a useful foundation for the creation of a probabilistic method for the assessment of GSR evidence. Copyright © 2016 Elsevier Ireland Ltd. All rights reserved. Language: en