Journal Article
Print(0)
American Journal of Physical Anthropology
Am.J.Phys.Anthropol.
Mar
147
3
352
369
LR: 20120910; CI: Copyright (c) 2011; JID: 0400654; 0 (Apatites); 0 (Carbon Isotopes); 0 (Dietary Proteins); 0 (Nitrogen Isotopes); 9007-34-5 (Collagen); EIN: Am J Phys Anthropol. 2012 Aug;148(4):657; 2011/06/23 [received]; 2011/10/29 [accepted]; 2011/12/
United States
1096-8644; 0002-9483
PMID: 22213005
eng
Historical Article; Journal Article; IM
10.1002/ajpa.21651 [doi]
Unknown(0)
22213005
Using a sample of published archaeological data, we expand on an earlier bivariate carbon model for diet reconstruction by adding bone collagen nitrogen stable isotope values (delta(15) N), which provide information on trophic level and consumption of terrestrial vs. marine protein. The bivariate carbon model (delta(13) C(apatite) vs. delta(13) C(collagen) ) provides detailed information on the isotopic signatures of whole diet and dietary protein, but is limited in its ability to distinguish between C(4) and marine protein. Here, using cluster analysis and discriminant function analysis, we generate a multivariate diet reconstruction model that incorporates delta(13) C(apatite) , delta(13) C(collagen) , and delta(15) N holistically. Inclusion of the delta(15) N data proves useful in resolving protein-related limitations of the bivariate carbon model, and splits the sample into five distinct dietary clusters. Two significant discriminant functions account for 98.8% of the sample variance, providing a multivariate model for diet reconstruction. Both carbon variables dominate the first function, while delta(15) N most strongly influences the second. Independent support for the functions' ability to accurately classify individuals according to diet comes from a small sample of experimental rats, which cluster as expected from their diets. The new model also provides a statistical basis for distinguishing between food sources with similar isotopic signatures, as in a previously analyzed archaeological population from Saipan (see Ambrose et al.: AJPA 104(1997) 343-361). Our model suggests that the Saipan islanders' (13) C-enriched signal derives mainly from sugarcane, not seaweed. Further development and application of this model can similarly improve dietary reconstructions in archaeological, paleontological, and primatological contexts.
Wiley Periodicals, Inc
Froehle,A.W., Kellner,C.M., Schoeninger,M.J.
Department of Community Health, Wright State University, Dayton, OH 45435, USA. andrew.froehle@wright.edu
20111230
http://vp9py7xf3h.search.serialssolutions.com/?charset=utf-8&pmid=22213005
2012

