Your search keyword '"Janaway RC"' showing total 11 results

1. Environmental conditions and bodily decomposition: Implications for long term management of war fatalities and the identification of the dead during the ongoing Ukrainian conflict.

Author

Ashbridge SI, Randolph-Quinney PS, Janaway RC, Forbes SL, and Ivshina O

Abstract

Competing Interests: The authors declare the following financial interests/personal relationships which may be considered as potential competing interests: S. I. Ashbridge is a deployable team member for Kenyon International Emergency Services. No funding was receiving in support of this work and S. Ashbridge has not deployed in recent years.

Published

2022

2. Short-term effects of hydrated lime and quicklime on the decay of human remains using pig cadavers as human body analogues: Laboratory experiments.

Author

Schotsmans EM, Denton J, Fletcher JN, Janaway RC, and Wilson AS

Subjects

Animals, Body Temperature, Forensic Pathology, Humans, Laboratories, Models, Animal, Skin microbiology, Swine, Calcium Compounds chemistry, Oxides chemistry, Postmortem Changes

Abstract

Contradictions and misconceptions regarding the effect of lime on the decay of human remains have demonstrated the need for more research into the effect of different types of lime on cadaver decomposition. This study follows previous research by the authors who have investigated the effect of lime on the decomposition of human remains in burial environments. A further three pig carcasses (Sus scrofa), used as human body analogues, were observed and monitored for 78 days without lime, with hydrated lime (Ca(OH)2) and with quicklime (CaO) in the taphonomy laboratory at the University of Bradford. The results showed that in the early stages of decay, the unlimed and hydrated lime cadavers follow a similar pattern of changes. In contrast, the application of quicklime instigated an initial acceleration of decay. Microbial investigation demonstrated that the presence of lime does not eliminate all aerobic bacteria. The experiment also suggested that lime functions as a sink, buffering the carbon dioxide evolution. This study complements the field observations. It has implications for the investigation of time since death of limed remains. Knowledge of the effects of lime on decomposition processes is of interest to forensic pathologists, archaeologists, humanitarian organisations and those concerned with disposal of animal carcasses or human remains in mass disasters., (Copyright © 2014 Elsevier Ireland Ltd. All rights reserved.)

Published

2014

3. Long-term effects of hydrated lime and quicklime on the decay of human remains using pig cadavers as human body analogues: Field experiments.

Author

Schotsmans EM, Fletcher JN, Denton J, Janaway RC, and Wilson AS

Subjects

Animals, Coleoptera, Diptera, Feeding Behavior, Forensic Pathology, Humans, Hydrogen-Ion Concentration, Models, Animal, Soil chemistry, Soil Microbiology, Spectrum Analysis, Raman, Spiders, Swine, Burial, Calcium Compounds chemistry, Oxides chemistry, Postmortem Changes

Abstract

An increased number of police enquiries involving human remains buried with lime have demonstrated the need for more research into the effect of different types of lime on cadaver decomposition and its micro-environment. This study follows previous studies by the authors who have investigated the effects of lime on the decay of human remains in laboratory conditions and 6 months of field experiments. Six pig carcasses (Sus scrofa), used as human body analogues, were buried without lime with hydrated lime (Ca(OH)2) and quicklime (CaO) in shallow graves in sandy-loam soil in Belgium and recovered after 17 and 42 months of burial. Analysis of the soil, lime and carcasses included entomology, pH, moisture content, microbial activity, histology and lime carbonation. The results of this study demonstrate that despite conflicting evidence in the literature, the extent of decomposition is slowed down by burial with both hydrated lime and quicklime. The more advanced the decay process, the more similar the degree of liquefaction between the limed and unlimed remains. The end result for each mode of burial will ultimately result in skeletonisation. This study has implications for the investigation of clandestine burials, for a better understanding of archaeological plaster burials and potentially for the interpretation of mass graves and management of mass disasters by humanitarian organisation and DVI teams., (Copyright © 2014. Published by Elsevier Ireland Ltd.)

Published

2014

4. Effects of hydrated lime and quicklime on the decay of buried human remains using pig cadavers as human body analogues.

Author

Schotsmans EM, Denton J, Dekeirsschieter J, Ivaneanu T, Leentjes S, Janaway RC, and Wilson AS

Subjects

Animals, Coleoptera, Diptera, Feeding Behavior, Forensic Pathology, Humans, Hydrogen-Ion Concentration, Models, Animal, Rain, Soil chemistry, Swine, Temperature, Burial, Calcium Compounds chemistry, Oxides chemistry, Postmortem Changes

Abstract

Recent casework in Belgium involving the search for human remains buried with lime, demonstrated the need for more detailed understanding of the effect of different types of lime on cadaver decomposition and its micro-environment. Six pigs (Sus scrofa) were used as body analogues in field experiments. They were buried without lime, with hydrated lime (Ca(OH)(2)) and with quicklime (CaO) in shallow graves in sandy loam soil in Belgium and recovered after 6 months of burial. Observations from these field recoveries informed additional laboratory experiments that were undertaken at the University of Bradford, UK. The combined results of these studies demonstrate that despite conflicting evidence in the literature, hydrated lime and quicklime both delay the decay of the carcass during the first 6 months. This study has implications for the investigation of clandestine burials and for a better understanding of archaeological plaster burials. Knowledge of the effects of lime on decomposition processes also has bearing on practices involving burial of animal carcasses and potentially the management of mass graves and mass disasters by humanitarian organisations and DVI teams., (Copyright © 2011 Elsevier Ireland Ltd. All rights reserved.)

Published

2012

5. Fourier-transform Raman spectroscopic study of a Neolithic waterlogged wood assemblage.

Author

Petrou M, Edwards HG, Janaway RC, Thompson GB, and Wilson AS

Subjects

Greece, Ancient, History, Ancient, Pinus, Quercus, Wood history, Fourier Analysis, Spectrum Analysis, Raman methods, Water, Wood chemistry

Abstract

The use of Fourier-transform Raman spectroscopy for characterising lignocellulosics has increased significantly over the last twenty years. Here, an FT-Raman spectroscopic study of changes in the chemistry of waterlogged archaeological wood of Pinus sp. and Quercus sp. from a prehistoric assemblage recovered from northern Greece is presented. FT-Raman spectral features of biodeteriorated wood were associated with the depletion of lignin and/or carbohydrate polymers at various stages of deterioration. Spectra from the archaeological wood are presented alongside spectra of sound wood of the same taxa. A comparison of the relative changes in intensities of spectral bands associated with lignin and carbohydrates resulting from decay clearly indicated extensive deterioration of both the softwood and hardwood samples and the carbohydrates appear to be more deteriorated than the lignin. The biodeterioration of the archaeological timbers followed a pattern of initial preferential loss of carbohydrates causing significant loss of cellulose and hemicellulose, followed by the degradation of lignin.

Published

2009

6. Selective biodegradation in hair shafts derived from archaeological, forensic and experimental contexts.

Author

Wilson AS, Dodson HI, Janaway RC, Pollard AM, and Tobin DJ

Subjects

Animals, Female, Forensic Anthropology statistics & numerical data, Humans, Male, Scalp, Time Factors, Burial methods, Environmental Exposure, Forensic Anthropology methods, Hair ultrastructure, Postmortem Changes

Abstract

Background: Hair is degraded by the action of both dermatophytic and nondermatophytic microorganisms. The importance of understanding hair sample condition in archaeological and forensic investigation highlights the need for a detailed knowledge of the sequence of degradation in samples that have been either buried or left exposed at the ground surface., Objectives: To investigate the sequence of biodegradative change to human terminal scalp hair from archaeological and forensic contexts., Methods: Cut modern scalp hair from three individuals with caucasoid-type hair was inoculated with soil microorganisms through soil burial in the field and under laboratory conditions to produce experimentally degraded samples. The degraded hair fibres were subjected to detailed histological examination using a combination of high-resolution light microscopy, transmission electron microscopy and scanning electron microscopy to investigate the nature and sequence of degradative change to hair structural components., Results/discussion: Degradation was found to occur first within the least structurally robust components that afford the least resistance to microbial/chemical attack. The sequence of degradation (most to least-reflecting degree of vulnerability) in the hair cuticle was as follows: (1) intercellular delta-layer (cell membrane complex); (2) endocuticle; (3) cell membrane beta-layers; (4) exocuticle; (5) epicuticle; and (6) A-layer. In the hair cortex this was as follows: (I) intercellular delta-layer (cell membrane complex); (II) cell membrane beta-layers; (III) intermacrofibrillar matrix/nuclear remnants; (IV) microfibrils; (V) intermicrofibrillar matrix; and (VI) pigment granules (the hair fibre component that was the least vulnerable to degradation)., Conclusions: The selective progress of degradation in the hair shaft has been charted and this provides a basis for further histological work in better understanding the condition of hair fibres derived from archaeological or forensic contexts as well as being relevant to investigation of diseased hair, in particular hair infected by dermatophytes and hair weakened by genetic hair shaft abnormalities.

Published

2007

7. Modelling the buried human body environment in upland climes using three contrasting field sites.

Author

Wilson AS, Janaway RC, Holland AD, Dodson HI, Baran E, Pollard AM, and Tobin DJ

Subjects

Animals, Environment, Exhumation, Fatty Acids analysis, Gas Chromatography-Mass Spectrometry, Humans, Hydrogen-Ion Concentration, Soil, Soil Microbiology, Swine, Temperature, Burial, Forensic Anthropology methods, Models, Animal, Postmortem Changes

Abstract

Despite an increasing literature on the decomposition of human remains, whether buried or exposed, it is important to recognise the role of specific microenvironments which can either trigger or delay the rate of decomposition. Recent casework in Northern England involving buried and partially buried human remains has demonstrated a need for a more detailed understanding of the effect of contrasting site conditions on cadaver decomposition and on the microenvironment created within the grave itself. Pigs (Sus scrofa) were used as body analogues in three inter-related taphonomy experiments to examine differential decomposition of buried human remains. They were buried at three contrasting field sites (pasture, moorland, and deciduous woodland) within a 15 km radius of the University of Bradford, West Yorkshire, UK. Changes to the buried body and the effect of these changes on hair and associated death-scene textile materials were monitored as was the microenvironment of the grave. At recovery, 6, 12 and 24 months post-burial, the extent of soft tissue decomposition was recorded and samples of fat and soil were collected for gas chromatography mass spectrometry (GCMS) analysis. The results of these studies demonstrated that (1) soil conditions at these three burial sites has a marked effect on the condition of the buried body but even within a single site variation can occur; (2) the process of soft tissue decomposition modifies the localised burial microenvironment in terms of microbiological load, pH, moisture and changes in redox status. These observations have widespread application for the investigation of clandestine burial and time since deposition, and in understanding changes within the burial microenvironment that may impact on biomaterials such as hair and other associated death scene materials.

Published

2007

8. Resistance of degraded hair shafts to contaminant DNA.

Author

Gilbert MT, Menez L, Janaway RC, Tobin DJ, Cooper A, and Wilson AS

Subjects

Blood, Cloning, Molecular, DNA Fingerprinting, DNA Primers, Humans, Saliva, DNA analysis, Hair chemistry

Abstract

We have investigated the susceptibility of degraded human hair shaft samples to contamination by exogenous sources of DNA, including blood, saliva, skin cells, and purified DNA. The results indicate that on the whole hair shafts are either largely resistant to penetration by contaminant DNA, or extremely easy to successfully decontaminate. This pertains to samples that are both morphologically and biochemically degraded. We suggest that this resistance to the incorporation of contaminant DNA relates to the hydrophobic and impermeable nature of the keratin structures forming the hair shaft. Therefore, hair samples represent an important and underestimated source of DNA in both forensic and ancient DNA studies.

Published

2006

9. Histological correlates of post mortem mitochondrial DNA damage in degraded hair.

Author

Gilbert MT, Janaway RC, Tobin DJ, Cooper A, and Wilson AS

Subjects

Animals, Cloning, Molecular, Humans, Postmortem Changes, Sequence Analysis, DNA, Swine, DNA Damage, DNA Fingerprinting methods, DNA, Mitochondrial isolation & purification, Hair chemistry

Abstract

We have assessed the histological preservation of naturally degraded human hair shafts, and then assayed each for levels of amplifiable mitochondrial DNA and damage-associated DNA miscoding lesions. The results indicate that as sample histology is altered (i.e. as hairs degrade) levels of amplifiable mitochondrial DNA decrease, but no correlation is seen between histology and absolute levels of mitochondrial DNA miscoding lesions. Nevertheless, amplifiable mitochondrial DNA could be recovered across the complete range of the histological preservation spectrum. However, when template copy number is taken into consideration, a correlation of miscoding lesions with histology is again apparent. These relationships indicate that a potential route for the generation of misleading mitochondrial sequence data exists in samples of poor histology. Therefore, we argue that in the absence of molecular cloning, the histological screening of hair may be necessary in order to confirm the reliability of mitochondrial DNA sequences amplified from hair, and thus represents a useful tool in forensic mitochondrial DNA analyses.

Published

2006

10. Ancient mitochondrial DNA from hair.

Author

Gilbert MT, Wilson AS, Bunce M, Hansen AJ, Willerslev E, Shapiro B, Higham TF, Richards MP, O'Connell TC, Tobin DJ, Janaway RC, and Cooper A

Subjects

Animals, DNA, Ribosomal genetics, Humans, Sequence Analysis, DNA, Specimen Handling methods, DNA, Mitochondrial genetics, Fossils, Hair chemistry, Mammals genetics

Published

2004

11. Yesterday's hair--human hair in archaeology.

Author

Wilson AS, Dixon RA, Dodson HI, Janaway RC, Pollard AM, Stern B, and Tobin DJ

Subjects

Hair anatomy & histology, Hair metabolism, Hair Color, Humans, Archaeology methods, Hair chemistry

Abstract

Hair removed from archaeological burials can tell us a lot about the diet and lifestyle of our ancestors--information that may survive because of the unique biology of hair formation. But hair is also biodegradable and the effects of time and burial conditions can result in conflicting evidence of past lives.

Published

2001