Get 20M+ Full-Text Papers For Less Than $1.50/day. Start a 14-Day Trial for You or Your Team.

Learn More →

Skull and long bones – Forensic DNA techniques for historic shipwreck human remains

Skull and long bones – Forensic DNA techniques for historic shipwreck human remains Human remains have been recovered from a number of historic shipwrecks and their associated sites, often hundreds of years post-mortem. While remains of victims who have fled following wrecking can be subject to a range of environmental exposures, human remains in marine environments are subject to unique decomposition processes, faunal predation and impacts on DNA. Researchers in museums and academic institutions holding historic shipwreck remains have applied a plethora of scientific testing methods to extract information from artefacts and shipwreck remains. Specialist forensic DNA techniques, often adapted from ancient and archaeological DNA methods, are designed to maximize DNA recovery, and advances in technology and forensic biology have increased options for genotyping compromised human skeletal samples. A vast array of new genetic markers can now be targeted for interrogation to reveal externally visible characteristics, biogeographical ancestry or extended genetic relatives of victims. Some of these techniques have already been applied to historic shipwreck remains. This paper reviews current and emerging forensic DNA techniques available for recovering and revealing genetic information from historic shipwreck remains. It aims to direct investigators conducting genetic testing on historic shipwreck human remains to forensic DNA techniques as a possible approach for yielding further invaluable information. http://www.deepdyve.com/assets/images/DeepDyve-Logo-lg.png Australian Journal of Forensic Sciences Taylor & Francis

Skull and long bones – Forensic DNA techniques for historic shipwreck human remains

Watherston, J.; McNevin, D.
Australian Journal of Forensic Sciences , Volume OnlineFirst: 25 – Mar 3, 2023
Download PDF
25 pages

Skull and long bones – Forensic DNA techniques for historic shipwreck human remains

Abstract

Human remains have been recovered from a number of historic shipwrecks and their associated sites, often hundreds of years post-mortem. While remains of victims who have fled following wrecking can be subject to a range of environmental exposures, human remains in marine environments are subject to unique decomposition processes, faunal predation and impacts on DNA. Researchers in museums and academic institutions holding historic shipwreck remains have applied a plethora of scientific...
Loading next page...
 
/lp/taylor-francis/skull-and-long-bones-forensic-dna-techniques-for-historic-shipwreck-IK11Iiq0z2
Publisher
Taylor & Francis
Copyright
© 2023 Australian Academy of Forensic Sciences
ISSN
1834-562X
eISSN
0045-0618
DOI
10.1080/00450618.2023.2181395
Publisher site
See Article on Publisher Site

Abstract

Human remains have been recovered from a number of historic shipwrecks and their associated sites, often hundreds of years post-mortem. While remains of victims who have fled following wrecking can be subject to a range of environmental exposures, human remains in marine environments are subject to unique decomposition processes, faunal predation and impacts on DNA. Researchers in museums and academic institutions holding historic shipwreck remains have applied a plethora of scientific testing methods to extract information from artefacts and shipwreck remains. Specialist forensic DNA techniques, often adapted from ancient and archaeological DNA methods, are designed to maximize DNA recovery, and advances in technology and forensic biology have increased options for genotyping compromised human skeletal samples. A vast array of new genetic markers can now be targeted for interrogation to reveal externally visible characteristics, biogeographical ancestry or extended genetic relatives of victims. Some of these techniques have already been applied to historic shipwreck remains. This paper reviews current and emerging forensic DNA techniques available for recovering and revealing genetic information from historic shipwreck remains. It aims to direct investigators conducting genetic testing on historic shipwreck human remains to forensic DNA techniques as a possible approach for yielding further invaluable information.

Journal

Australian Journal of Forensic SciencesTaylor & Francis

Published: Mar 3, 2023

Keywords: Skeletal remains; unidentified human remains; compromised samples; emerging DNA technologies; maritime archaeology; historical remains

References

  • Taphonomy and diagenesis of human bone in underwater archaeology: a review of the current status and the proposal of Post-Mortem Submersion Interval (PMSI) as a potential forensic application
  • Isolation and characterization of DNA from archaeological bone
  • Mystery of HMAS Sydney II sailor solved
  • Dead man may tell a tale: cape cod museum tests DNA from pirate ship
  • Human skeleton found on famed Antikythera shipwreck
  • New light on the personal identification of a skeleton of a member of Sir John Franklin’s last expedition to the Arctic, 1845
  • Faces from the Franklin expedition? Craniofacial reconstructions of two members of the 1845 northwest passage expedition
  • Ancient bone DNA amplified
  • An old dog and new tricks: genetic analysis of a Tudor dog recovered from the Mary Rose wreck
  • The globalization of naval provisioning: ancient DNA and stable isotope analyses of stored cod from the wreck of the Mary Rose, AD 1545
  • The application of X-ray absorption spectroscopy in archaeological conservation: example of an artefact from Henry VIII warship, the Mary Rose
  • Note sur le contenu d’une amphore Lamboglia 2 de l’épave de la Madrague de Giens
  • ICP-MS trace element analysis for the potential reassignment of separated skeletal remains of a’Batavia mutiny’ victim
  • Diversity aboard a Tudor warship: investigating the origins of the Mary Rose crew using multi-isotope analysis
  • The use of laser spectroscopy to investigate bone disease in King Henry VIII’s sailors
  • Evidence for activity related markers in the vertebrae of the crew of the Mary Rose
  • The 1629 mass grave for Batavia victims, Beacon Island, Houtman Abrolhos Islands, Western Australia
  • Human skeletal remains from a multiple burial associated with the mutiny of the VOC Retourschip Batavia, 1629
  • Anthropological report of the examination of unknown skeletal remains from Christmas Island 2006
  • Characterization of cultural remains associated to a human skeleton found at the site HMS Swift (1770)
  • Finding the dead: bodies, bones and burials from the 1845 Franklin northwest passage expedition
  • Forensic genetic investigation of human skeletal remains recovered from the La Belle shipwreck
  • Current and emerging tools for the recovery of genetic information from post mortem samples: new directions for disaster victim identification
  • DNA preservation: a microsatellite-DNA study on ancient skeletal remains
  • DNA recovery and analysis from skeletal material in modern forensic contexts
  • Decomposition changes in bodies recovered from water
  • Decomposition of carrion in the marine environment in British Columbia, Canada
  • Deep coastal marine taphonomy: investigation into carcass decomposition in the Saanich Inlet, British Columbia using a baited camera
  • The fate of human remains in a maritime context and feasibility for forensic humanitarian action to assist in their recovery and identification
  • Soil temperature calculation for burial site analysis
  • Waxing grave about adipocere: soft tissue change in an aquatic context
  • The formation of early stage adipocere in submerged remains: a preliminary experimental study
  • Examination of adipocere formation in a cold water environment
  • Adipocere withstands 1,600 years of fluctuating groundwater levels in soil
  • The natural decomposition of adipocere
  • Quantification of adipocere degradation with and without access to oxygen and to the living soil
  • A hands-on overview of tissue preservation methods for molecular genetic analyses
  • Forensic implications of genetic analyses from degraded DNA - A review
  • Effects of different types of water on the degradation rate of human DNA in bone and tissue
  • On the circumstances surrounding the preservation and analysis of very old DNA
  • Disappearance of soft tissue and the disarticulation of human remains from aqueous environments
  • French gendarmerie disaster victim identification team crash of the air France flight airbus AF 447 Rio de Janeiro - Paris (1st of June 2009) recovery process in the Atlantic Ocean
  • Marine taphonomy of a case submerged for 32 years
  • Macroscopic taphonomic alterations to human bone recovered from marine environments
  • The speed of post mortem change to the human skeleton and its taphonomic significance
  • Unique marine taphonomy in human skeletal material recovered from the medieval warship Mary Rose
  • From bone to fossil: a review of the diagenesis of bioapatite
  • Chemical taphonomy of biomineralized tissues
  • Visualizing fossilization using laser ablation-inductively couple plasma-mass spectrometry maps of trace elements in Late Cretaceous bones
  • The human remains from HMS Pandora
  • Impact of marine submergence and season on faunal colonization and decomposition of pig carcasses in the Salish Sea
  • Extensive unusual lesions on a large number of immersed human victims found to be from cookiecutter sharks (Isistius spp.): an examination of the Yemenia plane crash
  • Recovery of human remains after shark attack
  • The identification of submerged skeletonized remains
  • Analysis of human remains recovered from a shark
  • Allometric relationships of the dentition of the great White Shark, Carcharodon carcharias, in forensic investigations of shark attacks
  • Forensic implications of the variation in morphology of marginal serrations on the teeth of the great white shark
  • Shark attack: review of 86 consecutive cases
  • Characteristic features of injuries due to shark attacks: a review of 12 cases
  • Determining shark size from forensic analysis of bite damage
  • 3000-year-old shark attack victim from Tsukumo shell-mound, Okayama, Japan
  • Migrant deaths and the Kater Radez I wreck: from recovery of the relict to marine taphonomic findings and identification of the victims
  • Diagnostic problems associated with cadaveric trauma from animal activity
  • Postmortem injuries inflicted by crawfish: morphological and histological aspects
  • Time of submergence using aquatic invertebrate succession and decompositional changes
  • Post-mortem human cadaver scavenging by marine crustaceans (Isopoda: cirolanidae) in tropical waters
  • Peculiar circular and C-shaped injuries on a body from the sea
  • DNA analysis in disaster victim identification
  • DNA commission of the International Society for Forensic Genetics (ISFG): recommendations regarding the role of forensic genetics for disaster victim identification (DVI)
  • DNA profiling and forensic dentistry–a review of the recent concepts and trends
  • Twelve-year experience in identification of skeletal remains from mass graves
  • Success rates of nuclear short tandem repeat typing from different skeletal elements
  • Current genetic methodologies in the identification of disaster victims and in forensic analysis
  • Comparing different post-mortem human samples as DNA sources for downstream genotyping and identification
  • Standard operating procedure for sampling bone and tooth specimens from human remains for DNA testing at the ICMP. ICMP
  • Sampling of the cranium for mitochondrial DNA analysis of human skeletal remains
  • As solid as a rock-comparison of CE- and MPS-based analyses of the petrosal bone as a source of DNA for forensic identification of challenging cranial bones
  • Examination of DNA yield rates for different skeletal elements at increasing post mortem intervals
  • DNA analysis of skeletal tissue recovered from the English Channel
  • Effects of individual dental factors on genomic DNA analysis
  • Study of short- and long-term storage of teeth and its influence on DNA
  • Teeth as a source of DNA for forensic identification of human remains: a review
  • Characterization of deoxyribonucleic acid (DNA) obtained from teeth subjected to various environmental conditions
  • Effect of environmental factors on PCR-DNA analysis from dental pulp
  • Extraction, evaluation, and amplification of DNA from decalcified and undecalcified United States Civil War bone
  • Application of thiopropyl sepharose 6B for removal of PCR inhibitors from DNA extracts of a thigh bone recovered from the sea
  • The effects of metal ion PCR inhibitors on results obtained with the quantifiler® human DNA quantification kit
  • The effect of internal control sequence and length on the response to PCR inhibition in real-time PCR quantitation
  • Endogenous inhibition of DNA amplification from human skeletal remains
  • Interaction of humic acids with human DNA: proposed mechanisms and kinetics
  • The role of DNA technology in identification of skeletal remains discovered in mass graves
  • Interference of humic acids and DNA extracted directly from soil in detection and transformation of recombinant DNA from bacteria and a yeast
  • Rapid method for separation of bacterial DNA from humic substances in sediments for polymerase chain reaction
  • Relief of amplification inhibition in PCR with bovine serum albumin or T4 gene 32 protein
  • Forensic implications of PCR inhibition - A review
  • An investigation of PCR inhibition using Plexor®-based quantitative PCR and short tandem repeat amplification
  • Ca2+/Mg(2+)-dependent nuclease: tissue distribution, relationship to inter-nucleosomal DNA fragmentation and inhibition by Zn2+
  • Instability and decay of the primary structure of DNA
  • Patterns of nucleotide misincorporations during enzymatic amplification and direct large-scale sequencing of ancient DNA
  • Repair of deaminated base damage by Schizosaccharomyces pombe thymine DNA glycosylase
  • Non-cryogenic forensic tissue preservation in the field: a review
  • Insights into the processes behind the contamination of degraded human teeth and bone samples with exogenous sources of DNA
  • Biochemical and physical correlates of DNA contamination in archaeological human bones and teeth excavated at Matera, Italy
  • Authenticating DNA extracted from ancient skeletal remains
  • The retrieval of ancient human DNA sequences
  • Ancient DNA
  • Patterns of nuclear DNA degeneration over time–a case study in historic teeth samples
  • The impact of DNA contamination of bone samples in forensic case analysis and anthropological research
  • Tracking down human contamination in ancient human teeth
  • Femur, rib, and tooth sample collection for DNA analysis in disaster victim identification (DVI): a method to minimize contamination risk
  • Use of bleach to eliminate contaminating DNA from the surface of bones and teeth
  • Field contamination of skeletonized human remains with exogenous DNA
  • Storage of second world war bone samples: bone fragments versus bone powder
  • Opinion: to curate the molecular past, museums need a carefully considered set of best practices
  • Best practice recommendations for the establishment of a national DNA identification program for missing persons: a global perspective
  • A simple and efficient method for PCR amplifiable DNA extraction from ancient bones
  • Extraction and amplification of authentic DNA from ancient human remains
  • DNA typing from skeletal remains: evaluation of multiplex and megaplex STR systems on DNA isolated from bone and teeth samples
  • Naming the dead - confronting the realities of rapid identification of degraded skeletal remains
  • Relatively well preserved DNA is present in the crystal aggregates of fossil bones
  • Analysis of ancient mitochondrial DNA from extinct Aborigines from Tierra del Fuego-Patagonia
  • Lack of founding Amerindian mitochondrial DNA lineages in extinct aborigines from Tierra del Fuego-Patagonia
  • Authenticating ancient human mitochondrial DNA
  • Founding Amerindian mitochondrial DNA lineages in ancient Maya from Xcaret, Quintana Roo
  • Further evaluation of the efficacy of contamination removal from bone surfaces
  • The use of forensic DNA analysis in humanitarian forensic action: the development of a set of international standards
  • Contamination controls when preparing archaeological remains for ancient DNA analysis
  • Ancient DNA: do it right or not at all
  • Criteria of authenticity for DNA from ancient and forensic samples
  • Reliable genotyping of samples with very low DNA quantities using PCR
  • Optimal ancient DNA yields from the inner ear part of the human petrous bone
  • The petrous bone–a new sampling site for identifying early dietary patterns in stable isotopic studies
  • Human bony labyrinth is an indicator of population history and dispersal from Africa
  • Comparing ancient DNA preservation in petrous bone and tooth cementum
  • Cartilage and phalanges from hallux: alternative sources of samples for DNA typing in disaster victim identification (DVI). A comparative study
  • Efficient DNA profiling protocols for disaster victim identification
  • Intra-bone nuclear DNA variability in Second World War metatarsal and metacarpal bones
  • High DNA yield from metatarsal and metacarpal bones from Slovenian Second World War skeletal remains
  • A novel, 4-h DNA extraction method for STR typing of casework bone samples
  • Inter and intra-individual variation in skeletal DNA preservation in buried remains
  • A minimally-invasive method for sampling human petrous bones from the cranial base for ancient DNA analysis
  • An in-field evaluation of rapid DNA instruments for disaster victim identification
  • High efficiency DNA extraction from bone by total demineralization
  • Forensic DNA extraction methods for human hard tissue: a systematic literature review and meta-analysis of technologies and sample type
  • Technical note: improved DNA extraction from ancient bones using silica-based spin columns
  • Simple and highly effective DNA extraction methods from old skeletal remains using silica columns
  • Technical note: efficiency of total demineralization and ion-exchange column for DNA extraction from bone
  • Automatable full demineralization DNA extraction procedure from degraded skeletal remains
  • Complete mitochondrial genome sequence of a Middle Pleistocene cave bear reconstructed from ultrashort DNA fragments
  • Evaluation of DNA extraction methods developed for forensic and ancient DNA applications using bone samples of different age
  • Ancient DNA methods improve forensic DNA profiling of Korean War and World War II unknowns
  • Mitochondrial 12S rRNA sequence analysis in wildlife forensics
  • Routine forensic use of the mitochondrial 12S ribosomal RNA gene for species identification
  • Developmental validation of the IrisPlex system: determination of blue and brown iris colour for forensic intelligence
  • IrisPlex: a sensitive DNA tool for accurate prediction of blue and brown eye colour in the absence of ancestry information
  • The HIrisPlex system for simultaneous prediction of hair and eye colour from DNA
  • Developmental validation of the HIrisPlex system: DNA-based eye and hair colour prediction for forensic and anthropological usage
  • The HIrisPlex-S system for eye, hair and skin colour prediction from DNA: introduction and forensic developmental validation
  • Bringing colour back after 70 years: predicting eye and hair colour from skeletal remains of World War II victims using the HIrisPlex system
  • Inferring ancestral origin using a single multiplex assay of ancestry-informative marker SNPs
  • A panel of ancestry informative markers for estimating individual biogeographical ancestry and admixture from four continents: utility and applications
  • Straightforward inference of ancestry and admixture proportions through ancestry-informative insertion deletion multiplexing
  • Revision of the SNPforID 34-plex forensic ancestry test: assay enhancements, standard reference sample genotypes and extended population studies
  • Eurasiaplex: a forensic SNP assay for differentiating European and South Asian ancestries
  • Pacifiplex: an ancestry-informative SNP panel centred on Australia and the Pacific region
  • MAPlex - A massively parallel sequencing ancestry analysis multiplex for Asia-Pacific populations
  • Forensic evaluation of the Asia Pacific ancestry-informative MAPlex assay
  • Case report: on the use of the HID-Ion AmpliSeq™ ancestry panel in a real forensic case
  • Assessment of the precision ID ancestry panel
  • Progress toward an efficient panel of SNPs for ancestry inference
  • Frequencies of HID-ion ampliseq ancestry panel markers among greenlanders
  • Frequencies of the precision ID ancestry panel markers in Basques using the Ion Torrent PGM
  • Evaluation of the precision ID ancestry panel for crime case work: a SNP typing assay developed for typing of 165 ancestral informative markers
  • STRs vs. SNPs: thoughts on the future of forensic DNA testing forensic
  • Y-SNP typing of U.S. African American and Caucasian samples using allele-specific hybridization and primer extension
  • Inferring the population of origin of DNA evidence within the UK by allele-specific hybridization of Y-SNPs
  • DNA commission of the international society of forensic genetics: recommendations on forensic analysis using Y-chromosome STRs
  • Toward a consensus on SNP and STR mutation rates on the human Y-chromosome
  • Estimate of the mutation rate per nucleotide in humans
  • Next generation sequencing plus (NGS+) with Y-chromosomal markers for forensic pedigree searches
  • Seeing the wood for the trees: a minimal reference phylogeny for the human Y chromosome
  • The Y chromosome as the most popular marker in genetic genealogy benefits interdisciplinary research
  • Evaluation of a custom QIAseq targeted DNA panel with 164 ancestry informative markers sequenced with the Illumina MiSeq
  • Investigative genetic genealogy: current methods, knowledge and practice
  • Impact of SNP microarray analysis of compromised DNA on kinship classification success in the context of investigative genetic genealogy
  • First all-in-one diagnostic tool for DNA intelligence: genome-wide inference of biogeographic ancestry, appearance, relatedness, and sex with the Identitas v1 Forensic Chip
  • Case report: identification of skeletal remains using short-amplicon marker analysis of severely degraded DNA extracted from a decomposed and charred femur
  • Improved PCR performance using template DNA from formalin-fixed and paraffin-embedded tissues by overcoming PCR inhibition
  • Application of low copy number DNA profiling
  • Large scale DNA identification: the ICMP experience
  • Comparative study on the effects of reduced PCR reaction volumes and increased cycle number, on the sensitivity and the stochastic threshold of the AmpFlSTR Identifiler® Plus kit
  • Reduced volume PCR amplification reactions using the AmpFlSTR profiler plus kit
  • Validation of half-reaction amplification using Promega PowerPlex 16
  • Evaluation and comparative analysis on reduction of Globalfiler™ reaction volume in low template samples
  • Comparative study of STR loci for typing old skeletal remains with modified protocols of AmpFlSTR identifiler and AmpFlSTR MiniFiler STR kits
  • Characterization of a modified amplification approach for improved STR recovery from severely degraded skeletal elements
  • Application of low copy number STR typing to the identification of aged, degraded skeletal remains
  • Forensic DNA typing of old skeletal remains using AmpFlSTR® identifiler® PCR amplification kit
  • Reduced reaction volumes and increased Taq DNA polymerase concentration improve STR profiling outcomes from a real-world low template DNA source: telogen hairs
  • Progress in forensic bone DNA analysis: lessons learned from ancient DNA