Your search keyword '"Stock, Jay T."' showing total 13 results

1. Ancient Maltese genomes and the genetic geography of Neolithic Europe.

Author

Ariano B, Mattiangeli V, Breslin EM, Parkinson EW, McLaughlin TR, Thompson JE, Power RK, Stock JT, Mercieca-Spiteri B, Stoddart S, Malone C, Gopalakrishnan S, Cassidy LM, and Bradley DG

Subjects

Agriculture, DNA, Ancient, DNA, Mitochondrial genetics, Europe, Geography, History, Ancient, Human Migration, Humans, Archaeology, Genome, Human

Abstract

Archaeological consideration of maritime connectivity has ranged from a biogeographical perspective that considers the sea as a barrier to a view of seaways as ancient highways that facilitate exchange. Our results illustrate the former. We report three Late Neolithic human genomes from the Mediterranean island of Malta that are markedly enriched for runs of homozygosity, indicating inbreeding in their ancestry and an effective population size of only hundreds, a striking illustration of maritime isolation in this agricultural society. In the Late Neolithic, communities across mainland Europe experienced a resurgence of hunter-gatherer ancestry, pointing toward the persistence of different ancestral strands that subsequently admixed. This is absent in the Maltese genomes, giving a further indication of their genomic insularity. Imputation of genome-wide genotypes in our new and 258 published ancient individuals allowed shared identity-by-descent segment analysis, giving a fine-grained genetic geography of Neolithic Europe. This highlights the differentiating effects of seafaring Mediterranean expansion and also island colonization, including that of Ireland, Britain, and Orkney. These maritime effects contrast profoundly with a lack of migratory barriers in the establishment of Central European farming populations from Anatolia and the Balkans., Competing Interests: Declaration of interests The authors declare no competing interests., (Copyright © 2022 The Authors. Published by Elsevier Inc. All rights reserved.)

Published

2022

2. Trabecular bone structural variation throughout the human lower limb.

Author

Saers JP, Cazorla-Bak Y, Shaw CN, Stock JT, and Ryan TM

Subjects

Biological Evolution, Fossils anatomy & histology, Humans, Illinois, Sudan, Archaeology, Cancellous Bone anatomy & histology, Life Style, Lower Extremity anatomy & histology

Abstract

Trabecular bone is responsive to mechanical loading, and thus may be a useful tool for interpreting past behaviour from fossil morphology. However, the ability to meaningfully interpret variation in archaeological and hominin trabecular morphology depends on the extent to which trabecular bone properties are integrated throughout the postcranium or are locally variable in response to joint specific loading. We investigate both of these factors by comparing trabecular bone throughout the lower limb between a group of highly mobile foragers and two groups of sedentary agriculturalists. Trabecular bone structure is quantified in four volumes of interest placed within the proximal and distal joints of the femur and tibia. We determine how trabecular structures correspond to inferred behavioural differences between populations and whether the patterns are consistent throughout the limb. A significant correlation was found between inferred mobility level and trabecular bone structure in all volumes of interest along the lower limb. The greater terrestrial mobility of foragers is associated with higher bone volume fraction, and thicker and fewer trabeculae (lower connectivity density). In all populations, bone volume fraction decreases while anisotropy increases proximodistally throughout the lower limb. This observation mirrors reductions in cortical bone mass resulting from proximodistal limb tapering. The reduction in strength associated with reduced bone volume fraction may be compensated for by the increased anisotropy in the distal tibia. A similar pattern of trabecular structure is found throughout the lower limb in all populations, upon which a signal of terrestrial mobility appears to be superimposed. These results support the validity of using lower limb trabecular bone microstructure to reconstruct terrestrial mobility levels from the archaeological and fossil records. The results further indicate that care should be taken to appreciate variation resulting from differences in habitual activity when inferring behaviour from the trabecular structure of hominin fossils through comparisons with modern humans., (Copyright © 2016 Elsevier Ltd. All rights reserved.)

Published

2016

3. Early Life Conditions and Physiological Stress following the Transition to Farming in Central/Southeast Europe: Skeletal Growth Impairment and 6000 Years of Gradual Recovery.

Author

Macintosh AA, Pinhasi R, and Stock JT

Subjects

Body Size, Bone and Bones anatomy & histology, Europe, Extremities anatomy & histology, Female, Humans, Male, Sex Characteristics, Sex Factors, Agriculture, Archaeology, Quality of Life, Skeleton growth & development, Stress, Physiological

Abstract

Early life conditions play an important role in determining adult body size. In particular, childhood malnutrition and disease can elicit growth delays and affect adult body size if severe or prolonged enough. In the earliest stages of farming, skeletal growth impairment and small adult body size are often documented relative to hunter-gatherer groups, though this pattern is regionally variable. In Central/Southeast Europe, it is unclear how early life stress, growth history, and adult body size were impacted by the introduction of agriculture and ensuing long-term demographic, social, and behavioral change. The current study assesses this impact through the reconstruction and analysis of mean stature, body mass, limb proportion indices, and sexual dimorphism among 407 skeletally mature men and women from foraging and farming populations spanning the Late Mesolithic through Early Medieval periods in Central/Southeast Europe (~7100 calBC to 850 AD). Results document significantly reduced mean stature, body mass, and crural index in Neolithic agriculturalists relative both to Late Mesolithic hunter-gatherer-fishers and to later farming populations. This indication of relative growth impairment in the Neolithic, particularly among women, is supported by existing evidence of high developmental stress, intensive physical activity, and variable access to animal protein in these early agricultural populations. Among subsequent agriculturalists, temporal increases in mean stature, body mass, and crural index were more pronounced among Central European women, driving declines in the magnitude of sexual dimorphism through time. Overall, results suggest that the transition to agriculture in Central/Southeast Europe was challenging for early farming populations, but was followed by gradual amelioration across thousands of years, particularly among Central European women. This sex difference may be indicative, in part, of greater temporal variation in the social status afforded to young girls, in their access to resources during growth, and/or in their health status than was experienced by men.

Published

2016

4. Skull and limb morphology differentially track population history and environmental factors in the transition to agriculture in Europe.

Author

von Cramon-Taubadel N, Stock JT, and Pinhasi R

Subjects

Biological Evolution, Demography, Europe, Humans, Agriculture, Archaeology, Arm Bones anatomy & histology, Clavicle anatomy & histology, Leg Bones anatomy & histology, Skull anatomy & histology

Abstract

The Neolithic transition in Europe was a complex mosaic spatio-temporal process, involving both demic diffusion from the Near East and the cultural adoption of farming practices by indigenous hunter-gatherers. Previous analyses of Mesolithic hunter-gatherers and Early Neolithic farmers suggest that cranial shape variation preserves the population history signature of the Neolithic transition. However, the extent to which these same demographic processes are discernible in the postcranium is poorly understood. Here, for the first time, crania and postcranial elements from the same 11 prehistoric populations are analysed together in an internally consistent theoretical and methodological framework. Results show that while cranial shape reflects the population history differences between Mesolithic and Neolithic lineages, relative limb dimensions exhibit significant congruence with environmental variables such as latitude and temperature, even after controlling for geography and time. Also, overall limb size is found to be consistently larger in hunter-gatherers than farmers, suggesting a reduction in size related to factors other than thermoregulatory adaptation. Therefore, our results suggest that relative limb dimensions are not tracking the same demographic population history as the cranium, and point to the strong influence of climatic, dietary and behavioural factors in determining limb morphology, irrespective of underlying neutral demographic processes.

Published

2013

5. Long-term trends in human body size track regional variation in subsistence transitions and growth acceleration linked to dairying

Author

Stock, Jay T, Pomeroy, Emma, Ruff, Christopher B, Brown, Marielle, Gasperetti, Matthew A, Li, Fa-Jun, Maher, Lisa, Malone, Caroline, Mushrif-Tripathy, Veena, Parkinson, Eóin, Rivera, Michael, Siew, Yun Ysi, Stefanovic, Sofija, Stoddart, Simon, Zariņa, Gunita, and Wells, Jonathan CK

Subjects

History, Heritage and Archaeology, Human Society, Archaeology, Historical Studies, Anthropology, Zero Hunger, Humans, Acceleration, Agriculture, Body Size, Dairying, Europe, Lactase, bioarchaeology, agriculture, health, domestication, human adaptation

Abstract

Evidence for a reduction in stature between Mesolithic foragers and Neolithic farmers has been interpreted as reflective of declines in health, however, our current understanding of this trend fails to account for the complexity of cultural and dietary transitions or the possible causes of phenotypic change. The agricultural transition was extended in primary centers of domestication and abrupt in regions characterized by demic diffusion. In regions such as Northern Europe where foreign domesticates were difficult to establish, there is strong evidence for natural selection for lactase persistence in relation to dairying. We employ broad-scale analyses of diachronic variation in stature and body mass in the Levant, Europe, the Nile Valley, South Asia, and China, to test three hypotheses about the timing of subsistence shifts and human body size, that: 1) the adoption of agriculture led to a decrease in stature, 2) there were different trajectories in regions of in situ domestication or cultural diffusion of agriculture; and 3) increases in stature and body mass are observed in regions with evidence for selection for lactase persistence. Our results demonstrate that 1) decreases in stature preceded the origins of agriculture in some regions; 2) the Levant and China, regions of in situ domestication of species and an extended period of mixed foraging and agricultural subsistence, had stable stature and body mass over time; and 3) stature and body mass increases in Central and Northern Europe coincide with the timing of selective sweeps for lactase persistence, providing support for the "Lactase Growth Hypothesis."

Published

2023

6. Did Our Species Evolve in Subdivided Populations across Africa, and Why Does It Matter?

Author

Scerri, Eleanor ML, Thomas, Mark G, Manica, Andrea, Gunz, Philipp, Stock, Jay T, Stringer, Chris, Grove, Matt, Groucutt, Huw S, Timmermann, Axel, Rightmire, G Philip, d’Errico, Francesco, Tryon, Christian A, Drake, Nick A, Brooks, Alison S, Dennell, Robin W, Durbin, Richard, Henn, Brenna M, Lee-Thorp, Julia, deMenocal, Peter, Petraglia, Michael D, Thompson, Jessica C, Scally, Aylwyn, and Chikhi, Lounès

Subjects

Biological Sciences, Ecology, Africa, Animals, Archaeology, Biological Evolution, Ecosystem, Fossils, Genetics, Population, Geography, Hominidae, Humans, African origins, Middle Stone Age, evolutionary genetics, human evolution, paleoanthropology, paleoecology, Environmental Sciences, Evolutionary Biology, Biological sciences, Environmental sciences

Abstract

We challenge the view that our species, Homo sapiens, evolved within a single population and/or region of Africa. The chronology and physical diversity of Pleistocene human fossils suggest that morphologically varied populations pertaining to the H. sapiens clade lived throughout Africa. Similarly, the African archaeological record demonstrates the polycentric origin and persistence of regionally distinct Pleistocene material culture in a variety of paleoecological settings. Genetic studies also indicate that present-day population structure within Africa extends to deep times, paralleling a paleoenvironmental record of shifting and fractured habitable zones. We argue that these fields support an emerging view of a highly structured African prehistory that should be considered in human evolutionary inferences, prompting new interpretations, questions, and interdisciplinary research directions.

Published

2018

7. Estimating body mass and composition from proximal femur dimensions using dual energy x-ray absorptiometry

Author

Pomeroy, Emma, Mushrif-Tripathy, Veena, Kulkarni, Bharati, Kinra, Sanjay, Stock, Jay T., Cole, Tim J., Shirley, Meghan K., and Wells, Jonathan C. K.

Published

2019

8. Automated resolution independent method for comparing in vivo and dry trabecular bone.

Author

Saers, Jaap P. P., DeMars, Lily J., Stephens, Nicholas B., Jashashvili, Tea, Carlson, Kristian J., Gordon, Adam D., Ryan, Timothy M., and Stock, Jay T.

Subjects

CANCELLOUS bone, MORPHOLOGY, ARCHAEOLOGY, REGRESSION analysis, MODALITY (Linguistics)

Abstract

Objectives: Variation in human trabecular bone morphology can be linked to habitual behavior, but it is difficult to investigate in vivo due to the radiation required at high resolution. Consequently, functional interpretations of trabecular morphology remain inferential. Here we introduce a method to link low‐ and high‐resolution CT data from dry and fresh bone, enabling bone functional adaptation to be studied in vivo and results compared to the fossil and archaeological record. Materials and methods: We examine 51 human dry bone distal tibiae from Nile Valley and UK and two pig tibiae containing soft tissues. We compare low‐resolution peripheral quantitative computed tomography (pQCT) parameters and high‐resolution micro CT (μCT) in homologous single slices at 4% bone length and compare results to our novel Bone Ratio Predictor (BRP) method. Results: Regression slopes between linear attenuation coefficients of low‐resolution pQCT images and bone area/total area (BA/TA) of high‐resolution μCT scans differ substantially between geographical subsamples, presumably due to diagenesis. BRP accurately predicts BA/TA (R2 =.97) and eliminates the geographic clustering. BRP accurately estimates BA/TA in pigs containing soft tissues (R2 = 0.98) without requiring knowledge of true density or phantom calibration of the scans. Discussion BRP allows automated comparison of image data from different image modalities (pQCT, μCT) using different energy settings, in archeological bone and wet specimens. The method enables low‐resolution data generated in vivo to be compared with the fossil and archaeological record. Such experimental approaches would substantially improve behavioral inferences based on trabecular bone microstructure. [ABSTRACT FROM AUTHOR]

Published

2021

9. Trabecular bone functional adaptation and sexual dimorphism in the human foot.

Author

Saers, Jaap P. P., Ryan, Timothy M., and Stock, Jay T.

Subjects

CANCELLOUS bone, SEXUAL dimorphism, SKELETON, ANTHROPOLOGICAL research, GENETICS, ARCHAEOLOGY, COMPUTED tomography

Abstract

Objectives: Trabecular bone adapts to the strains placed upon the skeleton during life. Anthropological research has largely focused on linking variation in primate trabecular bone to locomotor mode, to provide a context for interpreting fossil morphology. However, intraspecific variation and its underlying mechanisms are still poorly understood. Trabecular bone is influenced by a variety of factors including body mass, age, diet, temperature, genetics, sex, and behavior. Before trabecular structure can be used to infer habitual behavior in the past, the effects of these factors need to be understood. In this article, we examine variation in trabecular structure in the human foot in four archaeological groups in relation to inferred levels of terrestrial mobility and sex. Materials and methods: We use high‐resolution μCT scanning to examine variation in trabecular structure in the human calcaneus, talus, and first metatarsal in two relatively mobile and two relatively sedentary archaeological groups. Results: The four population samples show similar patterns of trabecular variation throughout the foot, influenced by mechanical loading. Greater inferred terrestrial mobility is associated with greater bone volume fraction and thicker, more widely spaced, and less interconnected trabeculae. However, contrary to diaphyseal rigidity, only limited sexual dimorphism was found in trabecular structure. Discussion This work demonstrates that trabecular bone may serve as a useful proxy of habitual behavior in the fossil and archaeological record when other factors are carefully considered. However, the mechanisms underlying sexual dimorphism are not well understood. As such, inferring sex differences in habitual behavior is currently challenging. [ABSTRACT FROM AUTHOR]

Published

2019

10. Stature estimation equations for South Asian skeletons based on DXA scans of contemporary adults.

Author

Pomeroy, Emma, Mushrif‐Tripathy, Veena, Wells, Jonathan C. K., Kulkarni, Bharati, Kinra, Sanjay, and Stock, Jay T.

Subjects

STATURE, ANTHROPOLOGY, TROPICAL medicine, BODY mass index, BONE density

Abstract

Abstract: Objectives: Stature estimation from the skeleton is a classic anthropological problem, and recent years have seen the proliferation of population‐specific regression equations. Many rely on the anatomical reconstruction of stature from archaeological skeletons to derive regression equations based on long bone lengths, but this requires a collection with very good preservation. In some regions, for example, South Asia, typical environmental conditions preclude the sufficient preservation of skeletal remains. Large‐scale epidemiological studies that include medical imaging of the skeleton by techniques such as dual‐energy X‐ray absorptiometry (DXA) offer new potential datasets for developing such equations. Materials and methods: We derived estimation equations based on known height and bone lengths measured from DXA scans from the Andhra Pradesh Children and Parents Study (Hyderabad, India). Given debates on the most appropriate regression model to use, multiple methods were compared, and the performance of the equations was tested on a published skeletal dataset of individuals with known stature. Results: The equations have standard errors of estimates and prediction errors similar to those derived using anatomical reconstruction or from cadaveric datasets. As measured by the number of significant differences between true and estimated stature, and the prediction errors, the new equations perform as well as, and generally better than, published equations commonly used on South Asian skeletons or based on Indian cadaveric datasets. Conclusions: This study demonstrates the utility of DXA scans as a data source for developing stature estimation equations and offer a new set of equations for use with South Asian datasets. [ABSTRACT FROM AUTHOR]

Published

2018

11. Cranial diversity in South Asia relative to modern human dispersals and global patterns of human variation.

Author

Delson, Eric, MacPhee, Ross D. E., Conard, Nicholas, Fleagle, John G., Hublin, Jean-Jacques, McBrearty, Sally, Jin Meng, Plummer, Tom, Rogers, Kristi Curry, Rose, Ken, Petraglia, Michael D., Allchin, Bridget, Stock, Jay T., Lahr, Marta Mirazón, and Kulatilake, Samanti

Published

2007

12. Divergence in Male and Female Manipulative Behaviors with the Intensification of Metallurgy in Central Europe.

Author

Macintosh, Alison A., Pinhasi, Ron, and Stock, Jay T.

Subjects

AGRICULTURAL intensification, METALLURGY, HUMERUS physiology, MANIPULATIVE behavior, SOCIAL change, BIOMECHANICS

Abstract

Humeral morphology has been shown to reflect, in part, habitual manipulative behaviors in humans. Among Central European agricultural populations, long-term social change, increasing task specialization, and technological innovation all had the potential to impact patterns of habitual activity and upper limb asymmetry. However, systematic temporal change in the skeletal morphology of agricultural populations in this region has not been well-characterized. This study investigates diachronic patterns in humeral biomechanical properties and lengths among 174 adult Central European agriculturalists through the first ∼5400 years of farming in the region. Greater asymmetry in biomechanical properties was expected to accompany the introduction of metallurgy, particularly in males, while upper limb loading patterns were expected to be more similar between the Bronze and Iron Ages. Results revealed a divergence in the lateralization of upper limb biomechanical properties by sex between the Early/Middle Neolithic and Early/Middle Bronze Age. Neolithic females had significantly more variable properties than males in both humeri, while Bronze Age female properties became homogeneous and very symmetrical relative to the right-biased lateralization of contemporaneous males. The Bronze Age to Iron Age transition was associated with morphological change among females, with a significant increase in right-biased asymmetry and a concomitant reduction in sexual dimorphism. Relative to biomechanical properties, humeral length variation and asymmetry were low though some significant sexual dimorphism and temporal change was found. It was among females that the lateralization of humeral biomechanical properties, and variation within them, changed most profoundly through time. This suggests that the introduction of the ard and plow, metallurgical innovation, task specialization, and socioeconomic change through ∼5400 years of agriculture impacted upper limb loading in Central European women to a greater extent than men. [ABSTRACT FROM AUTHOR]

Published

2014

13. Estimation of stature and body mass from the skeleton among coastal and mid-altitude andean populations.

Author

Pomeroy, Emma and Stock, Jay T.

Subjects

*STATURE, *BODY mass index, *SKELETON, *ARCHAEOLOGY

Abstract

Adult stature and body mass represent fundamental biological characteristics of individuals and populations, as they are relevant to a range of problems from assessing nutrition and health to longer term evolutionary processes. Stature and body mass estimation from skeletal dimensions are therefore key to addressing biological and social questions about past populations. Anatomical reconstruction provides the most direct proxy for living stature but is only suitable for well-preserved remains. Regression equations for estimating stature from bone lengths are therefore extremely useful, though it is well recognized that differences in body proportions limit the cross-application of equations between samples. Here, we assess the accuracy of published stature estimation equations from worldwide and New World groups applied to archaeological samples from the central Andean coast and highlands of South America. As no existing equations are clearly appropriate, new sample-specific regression equations are presented. Anatomical stature reconstruction is further complicated by artificial cranial modification (ACM) influencing cranial height in Andean samples, so this problem is investigated in the current sample. Although ACM has minimal impact here, the possibility should be explored in other samples before anatomical stature estimation is attempted. Recommendations are also made for estimating body mass from femoral head diameter. The mean of three previously published equations is shown to offer minimal bias and the most reliable estimate of body mass in the study samples. Am J Phys Anthropol 147:264-279, 2012. © 2011 Wiley Periodicals, Inc. [ABSTRACT FROM AUTHOR]

Published

2012