M. W. Adamson, Food in medieval times, 2004.

M. M. Alexander, C. M. Gerrard, A. Gutiérrez, and A. R. Millard, Diet, society, and economy in late medieval Spain: stable isotope evidence from Muslims and Christians from Gandía, Valencia, Am J Phys Anthropol, vol.156, pp.263-273, 2015.

G. Aubert, La Bretagne province française (1532-1789). Apogée; Presses universitaires de Rennes, 2007.

R. Birkner, L'image radiologique typique du squelette: Aspect normal et variantes chez l'adulte et l'enfant par médecins, étudiants et manipulateurs. Maloine, p.564, 1980.

H. Bocherens, Application de la biogéochimie isotopique (13C, 15N) à la détermination du régime alimentaire des populations humaines et animales durant les périodes antiques et médiévales, Arch Sci Genève, vol.44, pp.329-340, 1991.

H. Bocherens, D. G. Drucker, and H. Taubald, Preservation of bone collagen sulfur isotopic compositions in an early Holocene river-bank archaeological site, Palaeogeogr Palaeoclimatol Palaeoecol, vol.310, pp.32-38, 2011.

C. Bordeaux, Claude Bordeaux? Journal, p.256, 1992.

T. A. Brown, D. E. Nelson, J. S. Vogel, and J. R. Southon, Improved collagen extraction by modified Longin method, Radiocarbon, vol.30, pp.171-177, 1988.

J. Bruzek, A method for visual determination of sex, using the human hip bone, Am J Phys Anthropol, vol.117, pp.157-168, 2002.

M. P. Buonincontri, A. Pecci, G. D. Pasquale, P. Ricci, and C. Lubritto, Multiproxy approach to the study of medieval food habits in Tuscany (central Italy), Archaeol Anthropol Sci, pp.1-19, 2016.

A. Chédeville and A. Croix, , vol.2, pp.32-48, 1996.

B. Clavel, L'animal dans l'alimentation médiévale et moderne en France du Nord (XIIIe-XVIIe siècles), Rev Archéologique Picardie Numéro Spéc, vol.19, pp.9-204, 2001.

B. Clavel, Données archéozoologiques et fouilles d'hôpitaux: l'exemple de l'hôpital Sainte Anne, pp.365-379, 2010.

B. Clavel and J. H. Yvinec, L'archéozoologie du Moyen Âge au début de la période moderne dans la moitié nord de la France, pp.71-89, 2010.

R. Colleter, F. Dedouit, S. Duchesne, F. Mokrane, V. Gendrot et al., Procedures and frequencies of embalming and heart extractions in modern period in Brittany. Contribution to the evolution of ritual funerary in Europe, PLoS One, vol.11, p.167988, 2016.
URL : https://hal.archives-ouvertes.fr/hal-01488026

A. Croix, La Bretagne aux 16e et 17e siècles: la vie, la mort, la foi. Maloine, p.1571, 1981.

A. Croix, L'âge d'or de la Bretagne: 1532-1675. éd, p.570, 1993.

M. J. Deniro, Postmortem preservation and alteration of in vivo bone collagen isotope ratios in relation to palaeodietary reconstruction, Nature, vol.317, pp.806-809, 1985.

M. Figeac, Les noblesses de France, Armand Colin, p.415, 2013.

G. Fornaciari, Food and disease at the Renaissance courts of Naples and Florence: a paleonutritional study, Appetite, vol.51, pp.10-14, 2008.

R. A. Fraser, A. Bogaard, T. Heaton, M. Charles, G. Jones et al., Manuring and stable nitrogen isotope ratios in cereals and pulses: towards a new archaeobotanical approach to the inference of land use and dietary practices, J Archaeol Sci, vol.38, pp.2790-2804, 2011.

B. T. Fuller, J. L. Fuller, D. A. Harris, and R. E. Hedges, Detection of breastfeeding and weaning in modern human infants with carbon and nitrogen stable isotope ratios, Am J Phys Anthropol, vol.129, pp.279-293, 2006.

S. Hakenbeck, E. Mcmanus, H. Geisler, G. Grupe, O. Connell et al., Diet and mobility in Early Medieval Bavaria: a study of carbon and nitrogen stable isotopes, Am J Phys Anthropol, vol.143, pp.235-249, 2010.

E. Herrscher, Alimentation d'une population historique: Analyse des données isotopiques de la nécropole Saint-Laurent de Grenoble (XIIIe-XVe siècle, France), Bull Mém Soc Anthropol Paris, vol.15, pp.147-309, 2003.

E. Herrscher, Comportements socioculturels liés à l'allaitement et au sevrage: le cas d'une population grenobloise sous l'Ancien Régime, Annal Fyssen, p.19, 2004.

E. Herrscher, H. Bocherens, F. Valentin, and R. Colardelle, Comportements alimentaires au Moyen Âge à Grenoble: application de la biogéochimie isotopique à la nécropole Saint-Laurent (XIIIe-XVe siècles, C R Acad Sci-Ser III-Sci Vie, vol.324, pp.479-487, 2001.

K. Jaouen, V. Balter, E. Herrscher, A. Lamboux, P. Telouk et al., Fe and Cu stable isotopes in archeological human bones and their relationship to sex, Am J Phys Anthropol, vol.148, pp.334-340, 2012.
URL : https://hal.archives-ouvertes.fr/hal-00721117

S. A. Jiménez-brobeil, Z. Laffranchi, R. M. Maroto, and F. L. Sánchez, Huertas AD (2016) How royals feasted in the court of Pedro I of Castile: a contribution of stable isotope study to medieval history, J Archaeol Sci Rep, vol.10, pp.424-430

A. Kjellström, J. Storaa, G. Possnert, and A. Linderholm, Dietary patterns and social structures in medieval Sigtuna, Sweden, as reflected in stable isotope values in human skeletal remains, J Archaeol Sci, vol.36, pp.2689-2699, 2009.

A. L. Lamb, M. Melikian, R. Ives, and J. Evans, Multi-isotope analysis of the population of the lost medieval village of Auldhame, J Anal At Spectrom, vol.27, pp.765-777, 2012.

A. L. Lamb, J. E. Evans, R. Buckley, and J. Appleby, Multi-isotope analysis demonstrates significant lifestyle changes in King Richard III, J Archaeol Sci, vol.50, pp.559-565, 2014.

L. Cloirec and G. , L'étude archéologique du couvent des jacobins de Rennes (35), du quartier antique à l'établissement religieux: rapport final d'opération archéologique, p.3835, 2016.

L. Roy-ladurie and E. , L'allaitement mercenaire en France au XVIIIe siècle, Communications, vol.31, pp.15-21, 1979.

C. Lubritto, C. Sirignano, P. Ricci, I. Passariello, and J. Q. Castillo, Radiocarbon chronology and paleodiet studies on the medieval rural site of Zaballa (Spain): preliminary insights into the social archaeology of the site, Radiocarbon, vol.55, p.3, 2013.

H. Martin, Les ordres mendiants en Bretagne (vers 1230-vers 1530). Pauvreté volontaire et prédication à la fin du Moyen-Âge, p.446, 1975.

C. F. Moorrees, E. A. Fanning, and E. E. Hunt, Formation and resorption of three deciduous teeth in children, Am J Phys Anthropol, vol.21, pp.205-213, 1963.

C. F. Moorrees, E. A. Fanning, and E. E. Hunt, Age variation of formation stages for ten permanent teeth, J Dent Res, vol.42, pp.1490-1502, 1963.

G. Müldner and M. P. Richards, Fast or feast: reconstructing diet in later medieval England by stable isotope analysis, J Archaeol Sci, vol.32, pp.39-48, 2005.

G. Müldner and M. P. Richards, Stable isotope evidence for 1500 years of human diet at the city of York, UK, Am J Phys Anthropol, vol.133, pp.682-697, 2007.

M. Mundee, Exploring diet and society in medieval Spain: new approaches using stable isotope analysis, 2010.

P. Murail, J. Bruzek, F. Houët, and E. Cunha, DSP: a tool for probabilistic sex diagnosis using worldwide variability in hip-bone measurements, Bull Mém Soc D'Anthropol Paris, vol.3, pp.167-176, 2005.
URL : https://hal.archives-ouvertes.fr/halshs-00433420

O. Nehlich, The application of sulfur isotope analyses in archaeological research: a review, Earth-Sci Rev, vol.142, pp.1-17, 2015.

O. Nehlich and M. P. Richards, Establishing collagen quality criteria for sulfur isotope analysis of archaeological bone collagen, Archaeol Anthropol Sci, vol.1, pp.59-75, 2009.

C. Nières, , p.612, 2015.

K. C. Olsen, C. D. White, F. J. Longstaffe, F. J. Rühli, C. Warinner et al., Isotopic anthropology of rural German medieval diet: intra-and inter-population variability, Archaeol Anthropol Sci, 2016.

A. Palkama, P. Virtama, and A. Telkka, Estimation of stature from radiographs of long bones in children. II. Children under one year of age, Annal Med Exp Biol Fenn, vol.40, pp.219-222, 1961.

C. Polet and M. A. Katzenberg, Reconstruction of the diet in a mediaeval monastic community from the coast of Belgium, J Archaeol Sci, vol.30, pp.525-533, 2003.

F. Quellier, Une histoire culturelle (XVedébut XIXe siècle) Presses Universitaires de Rennes, p.276, 2007.

K. Quintelier, A. Ervynck, G. Müldner, W. Neer, M. P. Richards et al., Isotopic examination of links between diet, social differentiation, and DISH at the post-medieval Carmelite Friary of, Am J Phys Anthropol, vol.153, pp.203-213, 2014.

Q. Castillo and J. A. , Social complexity in early medieval rural communities, p.140, 2016.

L. J. Reitsema and G. Vercellotti, Stable isotope evidence for sex-and status-based variations in diet and life history at medieval Trino Vercellese, Italy, Am J Phys Anthropol, vol.148, pp.589-600, 2012.

M. P. Richards and R. E. Hedges, Stable isotope evidence for similarities in the types of marine foods used by Late Mesolithic humans at sites along the Atlantic coast of Europe, J Archaeol Sci, vol.26, pp.717-722, 1999.

M. P. Richards, B. T. Fuller, M. Sponheimer, T. Robinson, and L. Ayliffe, Sulphur isotopes in palaeodietary studies: a review and results from a controlled feeding experiment, Int J Osteoarchaeol, vol.13, issue.1-2, pp.37-45, 2003.

D. C. Salazar-garcia, M. P. Richards, O. Nehlich, and A. G. Henry, Dental calculus is not equivalent to bone collagen for isotope analysis: a comparison between carbon and nitrogen stable isotope analysis of bulk dental calculus, bone and dentine collagen from same individuals from the Medieval site of El Raval, J Archaeol Sci, vol.47, pp.70-77, 2014.

K. L. Sayle, W. D. Hamilton, G. T. Cook, P. L. Ascough, H. Gestsdóttir et al., Deciphering diet and monitoring movement: multiple stable isotope analysis of the Viking Age settlement at Hofstaðir, Am J Phys Anthropol, vol.160, pp.126-136, 2016.

A. Schmitt, Une nouvelle méthode pour estimer l'âge au décès des adultes à partir de la surface sacro-pelvienne iliaque, Bull Mém Société D'Anthropologie Paris, vol.1, issue.2, pp.89-101, 2005.

M. Schurr, L. G. Van-der-sluis, and H. I. Hollund, A palaeodietary investigation of a multi-period churchyard in Stavanger, Norway, using stable isotope analysis, J Archaeol Sci Rep, vol.30, pp.120-133, 1998.

S. Talamo and M. Richards, A comparison of bone pretreatment methods for AMS dating of samples >30,000 BP, Radiocarbon, vol.53, pp.443-449, 2011.

A. Telkka, A. Palkama, and P. Virtama, Estimation of stature from radiographs of long bones in children, Ann med exp et biol Fenniae, vol.40, pp.91-96, 1962.

A. Ugan and J. Coltrain, Variation in collagen stable nitrogen values in black-tailed jackrabbits (Lepus californicus) in relation to smallscale differences in climate, soil, and topography, J Archaeol Sci, vol.38, pp.1417-1429, 2011.

G. J. Van-klinken, Bone collagen quality indicators for palaeodietary and radiocarbon measurements, J Archaeol Sci, vol.26, pp.687-695, 1999.

G. J. Van-klinken, M. P. Richards, and B. E. Hedges, An overview of causes for stable isotopic variations in past European human populations: environmental, ecophysiological, and cultural effects, Biogeochemical approaches to paleodietary analysis, pp.39-63, 2002.

P. Virtama, R. Kiviluoto, A. Palkama, and A. Telkka, Estimation of stature from radiographs of long bones in children. III. Children aged from ten to fifteen, Ann med exp et biol Fenniae, vol.40, pp.283-285, 1961.

M. Vovelle, P. Gallimard, M. Wendorf, and I. R. Goldfine, La mort et l'Occident de 1300 à nos jours, Archaeology of NIDDM. Diabetes, vol.40, pp.161-165, 1991.

C. Yoder, Let them eat cake? Status-based differences in diet in medieval Denmark, J Archaeol Sci, vol.39, pp.1183-1193, 2012.
DOI : 10.1016/j.jas.2011.12.029