Matching Items (14)
Description
Arson and intentional fires account for significant property losses and over 400 civilian deaths yearly in the United States. However, clearance rates for arson offenses remain low relative to other crimes. This issue can be attributed in part to the challenges associated with performing an arson investigation, in particular the collection and interpretation of reliable data. PLOT-cryoadsorption, a dynamic headspace sampling technique developed at the National Institute of Standards and Technology, was proposed as an alternate technique for extracting ignitable liquid residues for analysis. The method was generally shown to be robust, flexible, precise, and accurate for a variety of applications. The possibility of using a real-time in situ monitor for screening samples was also discussed. This work, conducted by an undergraduate researcher, has implications in educational curricula as well as in the field of forensic science.
ContributorsNichols, Jessica Ellen (Author) / Forzani, Erica (Thesis director) / Nielsen, David (Committee member) / Tsow, Francis (Committee member) / Barrett, The Honors College (Contributor) / School of Mathematical and Statistical Sciences (Contributor) / Chemical Engineering Program (Contributor)
Created2013-05
Description
Forensic pathologists investigate unnatural or suspicious deaths in medico-legal cases and must be accurate and thorough in their analyses so that justice can prevail. This occupation, however, is immensely difficult, and mistakes can occur. These challenges are discussed here with suggestions for improvement. Implementing new technologies, better quality control, more research, and standardization of procedures are just a few of the multiple changes that can enhance forensic pathology.
ContributorsFitzgerald, Jesse Lee (Author) / McQuiston, Dawn (Thesis director) / Schweitzer, Nick (Committee member) / Lafond, Sue (Committee member) / Barrett, The Honors College (Contributor) / School of Criminology and Criminal Justice (Contributor) / School of Life Sciences (Contributor)
Created2013-05
Description
The subcategory of evidence deemed trace evidence is frequently seen in crime scenes, and while it is commonly the smallest evidence around, that doesn’t stop it from greatly contributing to the findings at the scene. Blood evidence may be categorized into this group in certain cases at crime scenes, especially in cases of transfer between two objects or people. In this study, the transfer of blood across both porous and non-porous substrates was examined to determine the persistence of blood across both substrates. The resulting stains after each trial of transfers were tested with a presumptive blood test commonly used in crime labs, the Kastle-Meyer test. Throughout all trials of the experiment, it was determined that blood on a non-porous surface typically dries faster as long as there isn’t a pooling effect, which hinders the ability for a stain to be continuously transferred and detected by Kastle-Meyer. Conversely, porous substrates are more likely to absorb and retain the blood in the material, allowing the blood to be released when pressure is applied, causing the stain to transfer more easily and result in a stain that will produce a positive Kastle-Meyer result.
ContributorsKincade, Morgan (Author) / Weidner, Lauren (Thesis director) / Kobojek, Kimberly (Committee member) / School of Mathematical and Natural Sciences (Contributor) / Barrett, The Honors College (Contributor)
Created2021-05
Description
Trace evidence is an essential component of forensic investigations. Anthropogenicmaterials such as fibers and glass have been well studied for use in forensic trace evidence, but the potential use of retroreflective beads found in soils for forensic investigations is largely unexplored. Retroreflective glass beads are tiny spheres mixed into pavement markings to create reflective surfaces to reduce lane departure accidents. Retroreflective glass beads are a potentially new source of trace evidence for forensic investigations.
Analysis of the spatial distribution and chemical compositions of retroreflective glass beads recovered from 17 soil samples were analyzed and compared to see if there are striking variations that can distinguish samples by source. Soil samples taken near marked roads showed significantly higher concentrations of glass beads, averaging from 0.18 bead/g of soil sample to 587 beads/g of soil, while soil samples taken near unmarked roads had average range of concentration of 0 bead/g of soil to 0.21 bead/g of soil. Retroreflective glass beads come from pavement markings, thus soil samples near marked roads are expected to have higher concentrations of glass beads. Analysis of spatial distribution of glass beads showed that as sample collection moved further from the road, concentration of glass beads decreased.
ICP-MS results of elemental concentrations for each sample showed discriminative differences between samples, for most of the elements. An analysis of variance for elemental concentrations was conducted, and results showed statistically significant differences, beyond random chance alone for half of the elements analyzed. For forensic comparisons, a significant difference in even just one element is enough to conclude that the samples came from different sources. The elemental concentrations of glass beads collected from the same location, but of varying differences, was also analyzed. ANOVA results show significant differences for only one or two elements. A pair-wise t-test was conducted to determine which elements are most discriminative among all the samples. Rubidium was found to be the most discriminative, showing significant difference for 67% of the pairs. Beryllium, potassium, and manganese were also highly discriminative, showing significant difference for at least 50% of all the pairs.
ContributorsGomez, Janelle Kate Pacifico (Author) / Montero, Shirly (Thesis advisor) / Herckes, Pierre (Thesis advisor) / Borges, Chad (Committee member) / Gordon, Gwyneth (Committee member) / Arizona State University (Publisher)
Created2023