The stability of TNT, RDX and PETN in simulated post-explosion soils: Implications of sample preparation for analysis

The stability of TNT, RDX and PETN in simulated post-explosion soils: Implications of sample preparation for analysis

Explosives residues in soils may be a useful source of evidence following the detonation of an improvised explosive device (IED), such as a vehicle-borne IED. Soil samples collected from the vicinity of an explosion scene will often be stored for some time prior to analysis, yet explosives residues...

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Bibliographic Details
Published in:Talanta (Oxford) Vol. 164; pp. 716 - 726
Main Authors: Yu, H.A., DeTata, D.A., Lewis, S.W., Nic Daeid, N.
Format: Journal Article
Language:English
Published: Netherlands Elsevier B.V 01-03-2017
Subjects:
Degradation
Explosives
Forensic analysis
Liquid chromatography
Soil
Degradation
Soil
Forensic analysis
Explosives
Liquid chromatography
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Summary:Explosives residues in soils may be a useful source of evidence following the detonation of an improvised explosive device (IED), such as a vehicle-borne IED. Soil samples collected from the vicinity of an explosion scene will often be stored for some time prior to analysis, yet explosives residues in soil samples are susceptible to rapid degradation or transformation. Although some research has assessed the use of different storage temperatures with a view to reducing explosives’ degradation over time, further research examining the degradation of explosives in soil when stored under a variety of storage conditions is crucial to determine the optimal sample collection and storage procedures for soil containing explosives residues. In this work, three different soils were spiked with solutions of TNT, RDX and PETN and stored either at room temperature, refrigerated or frozen. Samples were extracted over 6 weeks, with additional samples gamma-irradiated or nitrogen purged prior to storage. Experimental results indicate that TNT underwent very rapid degradation at room temperature, attributed to microbial action, whereas PETN and RDX proved to be more stable. Gamma irradiation and nitrogen purging proved of some benefit for mitigating TNT degradation, with lower storage temperatures ultimately proving the most effective method of mitigating degradation. [Display omitted] •The fate of explosives in soil has a strong dependence on the nature of the soil.•TNT underwent very rapid attenuation when spiked into 3 soils at room temperature.•Low storage temperatures are the most effective method of mitigating degradation.•Gamma irradiating TNT-, PETN- and RDX-spiked soils attenuated their initial levels.•Nitrogen purging TNT-, PETN- and RDX-spiked soils was beneficial for stability.
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ISSN:0039-9140
1873-3573
DOI:10.1016/j.talanta.2016.07.001