Survival of forensic trace evidence on improvised explosive devices: perspectives on individualisation

Wet SPF: A wet powder suspension for the detection of latent fingermarks on the sticky side of adhesive tape for use in Seychelles

WET UCIO is an inexpensive carbon-based powder suspension, reportedly as effective as commercially available formulations for latent fingermark detection on the sticky side of adhesive tapes. However, the surfactant solution used in WET UCIO is not readily accessible outside Europe, limiting its use in Seychelles or other non-European jurisdictions. In this study, the UCIO formulation was modified based on a 'frugal forensic' approach, by replacing the surfactant solution with an in-house sodium dodecyl sulfate solution prepared in 5 % aqueous ethanol. A comparative assessment against Wetwop™ using eight different pressure-sensitive adhesive tapes found that the modified formulation was at least as effective as commercial powder suspension. Modifying this technique under the frugal forensic framework has enhanced its accessibility to other jurisdictions and is recommended for validation in Seychelles.

Fingermark quality assessment, a transversal study of subjective quality scales

Fingermark detection research aims to improve the quantity and quality of fingermarks detected through the development of novel techniques. Subsequently, there is a need to evaluate these methods to determine the quality of the developed mark. Since the 1980's there has been a significant number of publications, which utilise a variety of different quality assessment methods. The introduction of common practice methods from the International Fingerprint Research Group (IFRG) aimed to implement a more standardised approach. Although these schemes are recommended as common practice, they are only guidelines. Consequentially, there is currently no universally accepted method to evaluate the enhancement techniques implemented in research. Therefore, this study aimed to collate and analyse the published protocols being used within fingermark detection research in order to better understand their application and how research is currently analysing and interpreting fingermark quality. This study comprised of manual and automatic searches of over 2000 published papers within the fingermark detection area. After thorough analysis of the articles, 396 published papers were found to have used a scale within the years spanning 1998-2022. The number of publications that report the use of a scale to assess quality for fingermark detection research has considerably increased over the last decade. However, whilst the number of publications utilising scales has increased, it is not proportional to the number of papers using the IFRG scales. The choice of scale is often institution specific and even more specific to their location. There are also numerous different adaptations of the IFRG recommended scales, as well as novel scales, which do not associate with the IFRG recommended versions being introduced the more research continues to grow. One such reason for this is investigated here, as different quality parameters are utilised within each individual scale. There is underrepresentation of these quality parameters within some of the IFRG scales, in particular the Centre for Applied Science and Technology (CAST) scale. This correlates to the considerable number of tailored approaches as authors are forced to add these parameters within the descriptions. Until there is an introduction of clear guidelines surrounding all areas of fingermark quality, from definition to parameters chosen within phases, the research area will continue to face such issues. This article recommends areas of potential study, whilst also recommending procedures that may be employed to alleviate some of the issues seen with fingermark quality evaluation.

The Modus Operandi of Terrorist Attacks Using Improvised Explosive Devices In Landside Zones From 2001 To 2018

The paper concerns the analysis of changes in the modus operandi of terrorist attacks in the landside zones, in order to identify the areas that are most vulnerable to attack using IEDs. Attacks carried out in the passenger terminal and in the car parks were analysed.

Influence of Ball Bearing Size on the Flight and Damage Characteristics of Blast-Driven Ball Bearings

This paper presents insights into the influence of ball size on the flight characteristics and damage of a ball bearing embedded in a rear detonated cylindrical charge. It includes results from a post-test damage analysis of ball bearings from previously reported experiments. Computational simulations using Ansys Autodyn were used to provide extra information about the velocity variation during flight and the damage sustained by the ball bearings during the blast event. The influence of bearing size (diameter and mass) was investigated using the validated simulation models to extend the dataset beyond the initial experimental work. The peak bearing velocity is influenced by the charge mass to ball bearing mass ratio and the aspect ratio of the charge. Larger ball bearings require extra momentum to accelerate them to higher velocities, but their higher surface area means a greater portion of the explosive charge is involved in transferring kinetic energy to the projectile. Tensile spalling was to be the major damage mechanism within the ball bearings. The charge aspect ratio also influenced the hydrostatic pressure propagation within the ball bearing itself, affecting the location and degree of internal cracking within the bearings. These findings will prove valuable to blast protection engineers considering the effects of embedded projectiles in improvised explosive devices.

The influences of dusty environments on the STR typing success of post-detonation touch DNA samples

As the use of improvised explosive devices (IEDs) in a broad spectrum of offences continues, it is vital that research is performed to assess the capabilities of the forensic DNA profiling technology currently available to provide information as to potential perpetrators. This work investigates some of the most important gaps in our understanding surrounding the poor success rates in DNA profiling obtained through the sampling of touch DNA on post-detonation IED samples. It has been previously suggested that the use of Diamond™ Nucleic Acid Dye may fix cells to a surface, therefore reducing the effect of an experimental process to remove or damage those cells. This was found not to be the case for samples undergoing a detonation as there was no difference in the resultant post-detonation profiles between the stained samples, stained prior to detonation, and unstained samples. The comparison of data from previously performed research, within an enclosed explosives chamber, to real-world outdoor detonation events in a rural and dusty environment was investigated. It was found that there was a significant difference between the environments for the aluminium but not for the battery or electrical tape substrates indicating that environment has the potential to influence STR success through the introduction of PCR inhibitors; humic acid within rural natural dust was introduced here. No difference was observed in cell loss due to the detonation between environments and the dirt within the PCR was higher in the 'outdoor' samples. The effect on cellular retention and damage due to the sample's distance from the charge has been thoroughly investigated through incremental 100 mm exposure. Distance from the charge was found to affect every metric analysed; these being the cell loss from samples, the number of alleles amplified in resultant direct PCR profiles, and the total RFU of the subsequent profiles. These data outline the importance of this work allowing results to be assessed and triage decisions be made accordingly. The analysis of wood, PVC pipe, a mobile phone with rubber buttons, a SIM card, and a circuit board showed that none of these samples at 400 mm from the charge caused substrate specific PCR inhibition. On-site collection teams do not need to triage collection based on these sample types as there was no significant difference observed in their ability to return DNA profiling data. Surface area and inhibitor presence are key variables to consider when determining STR processing workflow for post-detonation samples as for samples with larger surface areas within the outdoor environment PCR post-extraction is preferential to direct PCR.

DNA Transfer in Forensic Science: Recent Progress towards Meeting Challenges

Understanding the factors that may impact the transfer, persistence, prevalence and recovery of DNA (DNA-TPPR), and the availability of data to assign probabilities to DNA quantities and profile types being obtained given particular scenarios and circumstances, is paramount when performing, and giving guidance on, evaluations of DNA findings given activity level propositions (activity level evaluations). In late 2018 and early 2019, three major reviews were published on aspects of DNA-TPPR, with each advocating the need for further research and other actions to support the conduct of DNA-related activity level evaluations. Here, we look at how challenges are being met, primarily by providing a synopsis of DNA-TPPR-related articles published since the conduct of these reviews and briefly exploring some of the actions taken by industry stakeholders towards addressing identified gaps. Much has been carried out in recent years, and efforts continue, to meet the challenges to continually improve the capacity of forensic experts to provide the guidance sought by the judiciary with respect to the transfer of DNA.

The forensic analysis of homemade explosive suicides: Case report and systematic review of the literature

The illegal construction of explosive devices for recreational purposes has become increasingly widespread in recent years. This phenomenon is spurred on by numerous websites that explain how to build a self-made device. The correlation between the use of firearms and suicide is known in the literature, but the use of explosive devices and self-harm is little studied. Unfortunately, the risk associated with the manufacture of homemade explosives is poorly known. For this purpose, we describe a rare suicide carried out by a man suffering from depressive disorder with psychotic and delusional features. The forensic investigations at the scene showed that the man had designed a homemade device, and disseminated numerous suicide notes in his home, transcribed in the previous weeks in which he revealed his suicidal motivation. Crime scene investigation showed on the body and on the road in front of the explosion point: multiple fragments of glass (zone 1), a lighter with blood stains (zone 2), and shreds of clothing scattered along the road (zone 3). Autopsy revealed that the cause of death was extensive blunt injury to head and trunk due to barotrauma due to the explosion of a homemade device. The case is compared with data from a systematic review of the forensic literature on suicides involving explosives. The study proposes the analysis of planimetric areas in these crime scene investigations and active surveillance in these subjects.