Hiller, J. C., Collins, M. J., Chamberlain, A. T. and Wess, T. J. (2004). Small-angle X-ray scattering:. J Archaeol Sci 31 (10). Vol 31(10), pp. 1349-1359.
Title The title of the publication or report |
Small-angle X-ray scattering: | ||
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Subtitle The sub title of the publication or report |
a high-throughput technique for investigating archaeological bone preservation | ||
Issue The name of the volume or issue |
J Archaeol Sci 31 (10) | ||
Series The series the publication or report is included in |
Journal of Archaeological Science | ||
Volume Volume number and part |
31 (10) | ||
Page Start/End The start and end page numbers. |
1349 - 1359 | ||
Biblio Note This is a Bibliographic record only. |
The ADS have no files for download on this page but further information is available online, normally as an electronic version maintained by the Publisher, or held in a larger collection such as an ADS Archive. Please refer to the DOI or URI listed in the Relations section of this record to locate the information you require. In the case of non-ADS resources, please be aware that we cannot advise further on availability. | ||
Publication Type The type of publication - report, monograph, journal article or chapter from a book |
Journal | ||
Abstract The abstract describing the content of the publication or report |
Diagenetic alteration to archaeological bone can cause significant disruption to both the biogenetic mineral structure and the preservation of biomolecular resources such as protein and DNA over archaeological time. The authors report the use of a technique, small-angle X-ray scattering, which makes it possible to examine the alteration to the mineral surface due to diagenesis. This method has previously been applied to archaeological bone thin sections, but has been modified in this case for use on bone powder as a high-throughput screening technique for bone preservation. The results show that mineral structural change is not necessarily reflected in the currently used methods of measuring lattice perfection, and that the preservation of archaeological biomolecules may be linked to structural alteration as much as to crystallinity. | ||
Year of Publication The year the book, article or report was published |
2004 | ||
Locations Any locations covered by the publication or report. This is not the place the book or report was published. |
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Source Where the record has come from or which dataset it was orginally included in. |
BIAB
(The British & Irish Archaeological Bibliography (BIAB))
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Relations Other resources which are relevant to this publication or report |
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Created Date The date the record of the pubication was first entered |
10 Jun 2008 |