Strontium and stable isotope evidence for diet and mobility in Roman Gloucester, UK
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A new approach to the study of Romanization in Britain: a regional perspective of cultural change in late iron age and roman dorset using the siler and gompertz-makeham models of mortalitySeasonal Cyclicity in Trace Elements and Stable Isotopes of Modern Horse EnamelAll Roads Lead to Rome: Exploring Human Migration to the Eternal City through Biochemistry of Skeletons from Two Imperial-Era Cemeteries (1st-3rd c AD)Isotopic evidence for residential mobility of farming communities during the transition to agriculture in BritainOn the Use of Biomineral Oxygen Isotope Data to Identify Human Migrants in the Archaeological Record: Intra-Sample Variation, Statistical Methods and Geographical ConsiderationsIsotopic reconstruction of human diet and animal husbandry practices during the Classical-Hellenistic, imperial, and Byzantine periods at Sagalassos, Turkey.Oxygen isotope analysis of human bone phosphate evidences weaning age in archaeological populations.Record of Nile seasonality in Nubian neonates.Tooth enamel oxygen "isoscapes" show a high degree of human mobility in prehistoric Britain.Bone morphologies and histories: Life course approaches in bioarchaeology.Strontium isotope (87Sr/86Sr) variability in the Nile Valley: identifying residential mobility during ancient Egyptian and Nubian sociopolitical changes in the New Kingdom and Napatan periods.Beyond diet reconstruction: stable isotope applications to human physiology, health, and nutrition.Multi-tissue analysis of oxygen isotopes in wild rhesus macaques (Macaca mulatta).The early colonial atlantic world: New insights on the African Diaspora from isotopic and ancient DNA analyses of a multiethnic 15th-17th century burial population from the Canary Islands, Spain.Mobility, mortality, and the middle ages: identification of migrant individuals in a 14th century black death cemetery population.Land use and mobility during the Neolithic in Wales explored using isotope analysis of tooth enamel.The Late Roman Field Army in Northern Britain? Mobility, Material Culture and Multi-Isotope Analysis at Scorton (N Yorks.)Dinosaur body temperatures determined from isotopic (¹³C-¹⁸O) ordering in fossil biominerals.Medieval Migrations: Isotope Analysis of Early Medieval Skeletons on the Isle of ManTechnical note: some observations on the conversion of dental enamel δ18O(p) values to δ18O(w) to determine human mobility.Changing cultures, changing cuisines: Cultural transitions and dietary change in Iron Age, Roman, and Early Medieval Croatia.The oxygen isotope relationship between the phosphate and structural carbonate fractions of human bioapatite.Tracing residential mobility during the Merovingian period: An isotopic analysis of human remains from the Upper Rhine Valley, Germany.Female exogamy and gene pool diversification at the transition from the Final Neolithic to the Early Bronze Age in central Europe.Multi-isotopic analysis reveals individual mobility and diet at the Early Iron Age monumental tumulus of Magdalenenberg, Germany.Stable isotope evidence for sex- and status-based variations in diet and life history at medieval Trino Vercellese, Italy."Celtic migrations": fact or fiction? Strontium and oxygen isotope analysis of the Czech cemeteries of Radovesice and Kutná Hora in Bohemia."These boots were made for walking": the isotopic analysis of a C(4) Roman inhumation from Gravesend, Kent, UK.Migration and diversity in Roman Britain: a multidisciplinary approach to the identification of immigrants in Roman York, England.A comparison of pretreatment methods for the analysis of phosphate oxygen isotope ratios in bioapatite.Oxygen isotope fractionation between bird bone phosphate and drinking water.People on the move in Roman BritainA City-wide Investigation of the Isotopic Distribution and Source of Tap Waters for Forensic Human Geolocation Ground-truthing.Themed Section New Approaches to the Bioarchaeology of Roman BritainA Conversion-Period Cemetery at Woodlands, Adwick-le-Street, South Yorkshire*Microcosms of Migration: Children and Early Medieval Population MovementStable isotopes and diet: their contribution to Romano-British researchDiet, social differentiation and cultural change in Roman Britain: new isotopic evidence from Gloucestershire‘THERE'S NO PLACE LIKE HOME’-NO ISOTOPIC EVIDENCE FOR MOBILITY AT THE EARLY BRONZE AGE CEMETERY OF SINGEN, GERMANYSummer air temperature, reconstructions from the last glacial stage based on rodents from the site Taillis-des-Coteaux (Vienne), Western France
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Strontium and stable isotope evidence for diet and mobility in Roman Gloucester, UK
description
article
@en
im Januar 2010 veröffentlichter wissenschaftlicher Artikel
@de
wetenschappelijk artikel
@nl
наукова стаття, опублікована в січні 2010
@uk
ലേഖനം
@ml
name
Strontium and stable isotope evidence for diet and mobility in Roman Gloucester, UK
@en
Strontium and stable isotope evidence for diet and mobility in Roman Gloucester, UK
@nl
type
label
Strontium and stable isotope evidence for diet and mobility in Roman Gloucester, UK
@en
Strontium and stable isotope evidence for diet and mobility in Roman Gloucester, UK
@nl
prefLabel
Strontium and stable isotope evidence for diet and mobility in Roman Gloucester, UK
@en
Strontium and stable isotope evidence for diet and mobility in Roman Gloucester, UK
@nl
P50
P921
P1476
Strontium and stable isotope evidence for diet and mobility in Roman Gloucester, UK
@en
P2093
Jane Evans
P304
P356
10.1016/J.JAS.2009.09.025
P577
2010-01-01T00:00:00Z