Research potential and limitations of trace analyses of cremated remains.

[1]  Sarah J. Benson Forensic Applications of Isotope Ratio Mass Spectrometry , 2012 .

[2]  G. Grupe,et al.  Life history of a mule (c. 160 AD) from the Roman fort Biriciana/Weißenburg (Upper Bavaria) as revealed by serial stable isotope analysis of dental tissues , 2010 .

[3]  G. Grupe,et al.  A brackish water aquatic foodweb: trophic levels and salinity gradients in the Schlei fjord, Northern Germany, in Viking and medieval times , 2009 .

[4]  Douglas H Ubelaker,et al.  The forensic evaluation of burned skeletal remains: a synthesis. , 2009, Forensic science international.

[5]  F. Longstaffe,et al.  Effects of heating on the carbon and oxygen-isotope compositions of structural carbonate in bioapatite from modern deer bone , 2008 .

[6]  W. Meier-Augenstein,et al.  Forensic isotope analysis leads to identification of a mutilated murder victim. , 2008, Science & justice : journal of the Forensic Science Society.

[7]  S. Enzo,et al.  A new calibration of the XRD technique for the study of archaeological burned human remains , 2008 .

[8]  J. Heinemeier,et al.  Characterisation and blind testing of radiocarbon dating of cremated bone , 2008 .

[9]  Chelsey A Juarez Strontium and Geolocation, the Pathway to Identification for Deceased Undocumented Mexican Border‐Crossers: A Preliminary Report * , 2008, Journal of forensic sciences.

[10]  C. Cain,et al.  Examining histology to identify burned bone , 2007 .

[11]  D. Manning,et al.  Structural and chemical changes of thermally treated bone apatite , 2007 .

[12]  M. Katzenberg Stable Isotope Analysis: A Tool for Studying Past Diet, Demography, and Life History , 2007 .

[13]  F. Longstaffe,et al.  Burning and boiling of modern deer bone: Effects on crystallinity and oxygen isotope composition of bioapatite phosphate , 2007 .

[14]  A. Büttner,et al.  Origin assignment of unidentified corpses by use of stable isotope ratios of light (bio-) and heavy (geo-) elements--a case report. , 2007, Forensic science international.

[15]  C. Odriozola,et al.  Estimate of firing temperatures through bone-based chalcolithic decorated pottery , 2007 .

[16]  D. Winston,et al.  Detection of Medical Examiner Cases From Review of Cremation Requests , 2006, The American journal of forensic medicine and pathology.

[17]  K W Alt,et al.  Early history of European domestic cattle as revealed by ancient DNA , 2006, Biology Letters.

[18]  Claude Roux,et al.  Forensic applications of isotope ratio mass spectrometry--a review. , 2006, Forensic science international.

[19]  V. Bogatyrov,et al.  Carbonate location in bone tissue mineral by X‐ray diffraction and temperature‐programmed desorption mass spectrometry , 2005 .

[20]  N. von Wurmb-Schwark,et al.  Genetic analysis of modern and historical burned human remains. , 2005, Anthropologischer Anzeiger; Bericht uber die biologisch-anthropologische Literatur.

[21]  U. Baumer,et al.  New approaches to study the preservation of biopolymers in fossil bones , 2004 .

[22]  A. Chamberlain,et al.  Bone mineral change during experimental heating: an X-ray scattering investigation. , 2003, Biomaterials.

[23]  P. Chattopadhyay Analysis of Burnt Bones by DNA Fluorescent Technology: A Case Study , 2003 .

[24]  H. Inoue,et al.  Chelating Resin-Based Extraction of DNA from Dental Pulp and Sex Determination from Incinerated Teeth with Y-Chromosomal Alphoid Repeat and Short Tandem Repeats , 2002, The American journal of forensic medicine and pathology.

[25]  J. Tanaka,et al.  Crystal growth and structure analysis of twin-free monoclinic hydroxyapatite , 2002, Journal of materials science. Materials in medicine.

[26]  M. Menu,et al.  The crystallinity of ancient bone and dentine: new insights by transmission electron microscopy , 2002 .

[27]  M. Collins,et al.  BONE PRESERVATION AND DNA AMPLIFICATION , 2002 .

[28]  M. Richards,et al.  Stable Isotope Analysis of Human and Faunal Remains from the Anglo-Saxon Cemetery at Berinsfield, Oxfordshire: Dietary and Social Implications , 2002 .

[29]  K. Rogers,et al.  An X-ray diffraction study of the effects of heat treatment on bone mineral microstructure. , 2002, Biomaterials.

[30]  C. Pusch,et al.  Cremation practices and the survival of ancient DNA: burnt bone analyses via RAPD-mediated PCR. , 2000, Anthropologischer Anzeiger; Bericht uber die biologisch-anthropologische Literatur.

[31]  A. Falsetti,et al.  Evidence of arteriosclerosis in cremated remains. , 1999, The American journal of forensic medicine and pathology.

[32]  S. Scali,et al.  Determining the human origin of fragments of burnt bone: a comparative study of histological, immunological and DNA techniques. , 1999, Forensic science international.

[33]  H. Bocherens,et al.  Intra-bone Variability of Collagen and Apatite Isotopic Composition Used as Evidence of a Change of Diet , 1999 .

[34]  J. Dudar,et al.  Technical note: improved DNA extraction from ancient bones using silica-based spin columns. , 1998, American journal of physical anthropology.

[35]  M. Bolla,et al.  Experimental single controlled study of burned bones: contribution of scanning electron microscopy. , 1998, Journal of forensic sciences.

[36]  J. Bigeleisen Temperature dependence of the isotope chemistry of the heavy elements. , 1996, Proceedings of the National Academy of Sciences of the United States of America.

[37]  J. Clement,et al.  Age and temperature related changes to the ultrastructure and composition of human bone mineral , 1995, Journal of bone and mineral research : the official journal of the American Society for Bone and Mineral Research.

[38]  J. Clement,et al.  Scanning electron microscope observations of heat-treated human bone. , 1995, Forensic science international.

[39]  J. Clement,et al.  Scanning electron microscope observations of incinerated human femoral bone: a case study. , 1995, Forensic science international.

[40]  K. A. Brown,et al.  DNA in cremated bones from an early bronze age cemetery cairn , 1995 .

[41]  H. Bocherens,et al.  Early Diagenetic Evolution of Bone Phosphate: An X-ray Diffractometry Analysis , 1995 .

[42]  Steven L. Kuhn,et al.  Differential Burning, Recrystallization, and Fragmentation of Archaeological Bone , 1995 .

[43]  C. K. Brain,et al.  Swartkrans. A cave's chronicle of early man , 1994 .

[44]  J. Harsh,et al.  Effects of DNA Polymer Length on Its Adsorption to Soils , 1994, Applied and environmental microbiology.

[45]  N. Roveri,et al.  The role of magnesium on the structure of biological apatites , 1992, Calcified Tissue International.

[46]  H. Krueger Exchange of carbon with biological apatite , 1991 .

[47]  S. Hummel,et al.  Trace element studies on experimentally cremated bone. I. Alteration of the chemical composition at high temperatures , 1991 .

[48]  M. J. Deniro,et al.  Postmortem preservation and alteration of in vivo bone collagen isotope ratios in relation to palaeodietary reconstruction , 1985, Nature.

[49]  M. Schoeninger,et al.  Burnt bones and teeth: an experimental study of color, morphology, crystal structure and shrinkage , 1984 .

[50]  R. Longin New Method of Collagen Extraction for Radiocarbon Dating , 1971, Nature.

[51]  H. Rietveld A profile refinement method for nuclear and magnetic structures , 1969 .

[52]  C. Bachman,et al.  Fluorescence of Bone , 1965, Nature.

[53]  R. G. Hayes,et al.  THERMALLY INDUCED CHANGES IN THE STABLE CARBON AND NITROGEN ISOTOPE RATIOS OF CHARRED BONES , 2008 .

[54]  K. Miller,et al.  TIME, TEMPERATURE, AND OXYGEN AVAILABILITY: AN EXPERIMENTAL STUDY OF THE EFFECTS OF ENVIRONMENTAL CONDITIONS ON THE COLOR AND ORGANIC CONTENT OF CREMATED BONE , 2008 .

[55]  C. Ramsey,et al.  A Cremated Bone Intercomparison Study , 2007, Radiocarbon.

[56]  L. Fanton,et al.  Criminal burning. , 2006, Forensic science international.

[57]  J. van der Plicht,et al.  Dating of Cremated Bones , 2001, Radiocarbon.

[58]  J. Mckinley Bronze Age ‘Barrows’ and Funerary Rites and Rituals of Cremation , 1997, Proceedings of the Prehistoric Society.

[59]  H. Krouse,et al.  Application of Stable Isotope Variation in Human Tissues to Problems in Identification , 1989 .

[60]  J. Buikstra,et al.  Bone modification due to burning: experimental evidence , 1989 .

[61]  R. Legros,et al.  Structure and composition of the mineral phase of periosteal bone , 1986 .

[62]  M. J. Deniro,et al.  Effect of Heating On the Stable Carbon and Nitrogen Isotope Ratios of Bone Collagen , 1985 .