23 research outputs found
Fig 1 -
(a) geographical location of SV and overall view of the necropolis; (b) close-up showing the animal-human co-burials (red stars) and burials with food offerings (green shades) (map of Italy modified from https://www.fla-shop.com/svg/italy/ under a CC BY license. Plan by S.R. Thompson and M. Bersani, courtesy of SABAP-VR Soprintendenza archeologia, belle arti e paesaggio per le province di Verona, Rovigo e Vicenza).</p
Zooarchaeological and anthropological features of the human-animal co-burials (highlighted by asterisks) and the burials with animals as funerary food offerings of SV.
Zooarchaeological and anthropological features of the human-animal co-burials (highlighted by asterisks) and the burials with animals as funerary food offerings of SV.</p
Summary of mapping statistics, uniparental markers, genetic sex estimation, and damage statistics for SV samples.
US: stratigraphic unit, NA: not assessable, F: female, M: male, y: years, m: months, w: weeks. (XLSX)</p
Overview of the genetic results of the analyzed humans from SV.
The asterisks highlight the human-animal co-burials. The “Human endogenous content (%)” values represent the percentage of human reads that mapped to the human reference genome. US: stratigraphic unit, YA: young adults (20–35 years old); MA: middle adults (36–50 years old); OA: old adults (> 50 years old); m: months, w: weeks.</p
Summary of the laboratory work for the paleogenetic analyses for SV samples.
Summary of the laboratory work for the paleogenetic analyses for SV samples.</p
Results of the multiple regression performed to test the association between isotopic values, age, sex, and presence of animal remains in burials.
(a) All humans; (b) adults only. NP: number of parameters; SS: sum of the squares; DF: degrees of freedom. Bold characters highlight statistically significant associations.</p
Radiocarbon results and quality data.
BP: before present; 1sd: 1 standard deviation. (XLSX)</p
Carbon and nitrogen isotopic ratios of humans and animals from SV.
The human range is based on the mean ± 1 SD of individuals without food offerings/associated animal depositions. Humans with food offerings and associated animal depositions are plotted separately for comparison as empty circles and stars respectively. The isotopic data of US 3159/01 have been already published in [42].</p
Kinship estimated for SV samples.
Animal remains are a common find in prehistoric and protohistoric funerary contexts. While taphonomic and osteological data provide insights about the proximate (depositional) factors responsible for these findings, the ultimate cultural causes leading to this observed mortuary behavior are obscured by the opacity of the archaeological record and the lack of written sources. Here, we apply an interdisciplinary suite of analytical approaches (zooarchaeological, anthropological, archaeological, paleogenetic, and isotopic) to explore the funerary deposition of animal remains and the nature of joint human-animal burials at Seminario Vescovile (Verona, Northern Italy 3rd-1st c. BCE). This context, culturally attributed to the Cenomane culture, features 161 inhumations, of which only 16 included animal remains in the form of full skeletons, isolated skeletal parts, or food offerings. Of these, four are of particular interest as they contain either horses (Equus caballus) or dogs (Canis lupus familiaris)–animals that did not play a dietary role. Analyses show no demographic, dietary, funerary similarities, or genetic relatedness between individuals buried with animals. Isotopic data from two analyzed dogs suggest differing management strategies for these animals, possibly linked to economic and/or ritual factors. Overall, our results point to the unsuitability of simple, straightforward explanations for the observed funerary variability. At the same time, they connect the evidence from Seminario Vescovile with documented Transalpine cultural traditions possibly influenced by local and Roman customs.</div
Differences between the isotopic values of dogs US 2780 and US 2757 and the adult humans from SV, plotted against published differences between dogs and human mean isotopic ratios from a series of worldwide contexts (data from [100]).
Differences between the isotopic values of dogs US 2780 and US 2757 and the adult humans from SV, plotted against published differences between dogs and human mean isotopic ratios from a series of worldwide contexts (data from [100]).</p