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Your search keyword '"Teschler-Nicola, Maria"' showing total 23 results
Start Over Author "Teschler-Nicola, Maria" Topic archaeology
23 results on '"Teschler-Nicola, Maria"'

1. Applying trace element geochemistry of archaeological bone to study the coevolution of environmental change and human health in the Roman Empire.

Author

Scott SR, Shafer MM, Overdier JT, Teschler-Nicola ME, Ramsl PC, Cunliffe B, and Farrell PM

Subjects
Humans, History, Ancient, Roman World history, Environmental Exposure history, Environmental Exposure analysis, Femur chemistry, Bone and Bones chemistry, Male, Environmental Pollution analysis, Environmental Pollution history, Trace Elements analysis, Archaeology
Abstract

Technological change has affected human health dating back to at least the Neolithic agricultural revolution. Growing evidence indicates widespread environmental pollution began with metallurgical practices and continues today. Environmental exposures to trace elements released from these practices have the potential to alter human body composition, such as bone mineral chemistry, especially for elements that are not homeostatically regulated. These signals can be used for inferences about human health, particularly when metallotoxins are detected in abundance. Therefore, trace element geochemistry of archaeological bone may provide a means to evaluate human health through time. However, diagenetic factors can hinder attempts to extract this information. Thus, we employed advanced analytical and interpretive methods to carefully distinct groups of European burials over about 1000 years to address questions of potentially toxic trace element exposures. Here, to address our hypothesis that Roman urbanization created one of the earliest urban toxic environment caused by multiple exposures, we present a comprehensive suite of bone trace element compositions of femora from burials spanning three distinct archaeological time periods (Bronze Age, Iron Age, and Roman period). All bone specimens were obtained from the anterior-mid shaft of carefully selected femora and processed using the same analytical techniques designed to mitigate soil contamination. Our data indicate that widespread environmental pollution accelerated in Londinium during the Roman Empire period, leading to conditions where population health would be vulnerable to environmental changes. Specifically, bone lead, silver, vanadium, arsenic, and cadmium concentrations were typically elevated and would likely be associated with multiple toxicities. In addition, bone iron levels were extremely high in some Londinium burials. Our interpretation is that the Romans inhabiting Londinium were not just poisoned by lead exposure as several previous studies show but by several metallotoxins., Competing Interests: Declaration of competing interest The authors declare that they have no known competing financial interests or personal relationships that could have appeared to influence the work reported in this paper., (Copyright © 2024 Elsevier Inc. All rights reserved.)

Published
2024
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2. Large-scale migration into Britain during the Middle to Late Bronze Age.

Author

Patterson N, Isakov M, Booth T, Büster L, Fischer CE, Olalde I, Ringbauer H, Akbari A, Cheronet O, Bleasdale M, Adamski N, Altena E, Bernardos R, Brace S, Broomandkhoshbacht N, Callan K, Candilio F, Culleton B, Curtis E, Demetz L, Carlson KSD, Edwards CJ, Fernandes DM, Foody MGB, Freilich S, Goodchild H, Kearns A, Lawson AM, Lazaridis I, Mah M, Mallick S, Mandl K, Micco A, Michel M, Morante GB, Oppenheimer J, Özdoğan KT, Qiu L, Schattke C, Stewardson K, Workman JN, Zalzala F, Zhang Z, Agustí B, Allen T, Almássy K, Amkreutz L, Ash A, Baillif-Ducros C, Barclay A, Bartosiewicz L, Baxter K, Bernert Z, Blažek J, Bodružić M, Boissinot P, Bonsall C, Bradley P, Brittain M, Brookes A, Brown F, Brown L, Brunning R, Budd C, Burmaz J, Canet S, Carnicero-Cáceres S, Čaušević-Bully M, Chamberlain A, Chauvin S, Clough S, Čondić N, Coppa A, Craig O, Črešnar M, Cummings V, Czifra S, Danielisová A, Daniels R, Davies A, de Jersey P, Deacon J, Deminger C, Ditchfield PW, Dizdar M, Dobeš M, Dobisíková M, Domboróczki L, Drinkall G, Đukić A, Ernée M, Evans C, Evans J, Fernández-Götz M, Filipović S, Fitzpatrick A, Fokkens H, Fowler C, Fox A, Gallina Z, Gamble M, González Morales MR, González-Rabanal B, Green A, Gyenesei K, Habermehl D, Hajdu T, Hamilton D, Harris J, Hayden C, Hendriks J, Hernu B, Hey G, Horňák M, Ilon G, Istvánovits E, Jones AM, Kavur MB, Kazek K, Kenyon RA, Khreisheh A, Kiss V, Kleijne J, Knight M, Kootker LM, Kovács PF, Kozubová A, Kulcsár G, Kulcsár V, Le Pennec C, Legge M, Leivers M, Loe L, López-Costas O, Lord T, Los D, Lyall J, Marín-Arroyo AB, Mason P, Matošević D, Maxted A, McIntyre L, McKinley J, McSweeney K, Meijlink B, Mende BG, Menđušić M, Metlička M, Meyer S, Mihovilić K, Milasinovic L, Minnitt S, Moore J, Morley G, Mullan G, Musilová M, Neil B, Nicholls R, Novak M, Pala M, Papworth M, Paresys C, Patten R, Perkić D, Pesti K, Petit A, Petriščáková K, Pichon C, Pickard C, Pilling Z, Price TD, Radović S, Redfern R, Resutík B, Rhodes DT, Richards MB, Roberts A, Roefstra J, Sankot P, Šefčáková A, Sheridan A, Skae S, Šmolíková M, Somogyi K, Somogyvári Á, Stephens M, Szabó G, Szécsényi-Nagy A, Szeniczey T, Tabor J, Tankó K, Maria CT, Terry R, Teržan B, Teschler-Nicola M, Torres-Martínez JF, Trapp J, Turle R, Ujvári F, van der Heiden M, Veleminsky P, Veselka B, Vytlačil Z, Waddington C, Ware P, Wilkinson P, Wilson L, Wiseman R, Young E, Zaninović J, Žitňan A, Lalueza-Fox C, de Knijff P, Barnes I, Halkon P, Thomas MG, Kennett DJ, Cunliffe B, Lillie M, Rohland N, Pinhasi R, Armit I, and Reich D

Subjects
Europe, France, Genome, Human genetics, Human Migration history, Humans, Infant, United Kingdom, Archaeology, Farmers
Abstract

Present-day people from England and Wales have more ancestry derived from early European farmers (EEF) than did people of the Early Bronze Age 1 . To understand this, here we generated genome-wide data from 793 individuals, increasing data from the Middle to the Late Bronze Age and Iron Age in Britain by 12-fold, and western and central Europe by 3.5-fold. Between 1000 and 875 BC, EEF ancestry increased in southern Britain (England and Wales) but not northern Britain (Scotland) due to incorporation of migrants who arrived at this time and over previous centuries, and who were genetically most similar to ancient individuals from France. These migrants contributed about half the ancestry of people of England and Wales from the Iron Age, thereby creating a plausible vector for the spread of early Celtic languages into Britain. These patterns are part of a broader trend of EEF ancestry becoming more similar across central and western Europe in the Middle to the Late Bronze Age, coincident with archaeological evidence of intensified cultural exchange 2-6 . There was comparatively less gene flow from continental Europe during the Iron Age, and the independent genetic trajectory in Britain is also reflected in the rise of the allele conferring lactase persistence to approximately 50% by this time compared to approximately 7% in central Europe where it rose rapidly in frequency only a millennium later. This suggests that dairy products were used in qualitatively different ways in Britain and in central Europe over this period., (© 2021. The Author(s), under exclusive licence to Springer Nature Limited.)

Published
2022
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3. Community differentiation and kinship among Europe's first farmers

Author

Bentley, R. Alexander, Bickle, Penny, Fibiger, Linda, Nowell, Geoff M., Dale, Christopher W., Hedges, Robert E. M., Hamilton, Julie, Wahl, Joachim, Francken, Michael, Grupe, Gisela, Lenneis, Eva, Teschler-Nicola, Maria, Arbogast, Rose-Marie, Hofmann, Daniela, and Whittle, Alasdair

Published
2012

4. The Corpse in the Early Bronze Age. Results of Histotaphonomic and Archaeothanatological Investigations of Human Remains from the Cemetery of Franzhausen I, Lower Austria

Author

Mandl, Kirsten, Novotny, Friederike, Teschler-Nicola, Maria, and Weiss-Krejci, Estella

Subjects
010506 paleontology, Archeology, Grave goods, Taphonomy, 060102 archaeology, Bioerosion, Heavy metals, 06 humanities and the arts, engineering.material, 01 natural sciences, Archaeology, Mummification, Geography, Bronze Age, engineering, 0601 history and archaeology, Coffin, Bronze, 0105 earth and related environmental sciences
Abstract

It has recently been suggested by British archaeologists and anthropologists that mummification may have been widespread in Bronze Age Europe. This article presents the results of a study that, for the first time, investigates the question of whether the people who inhabited central Europe during the Early Bronze Age treated the bodies of their dead prior to deposition in order to prevent decay and preserve the soft tissue. The study relies on data from the cemetery of Franzhausen I in Lower Austria. The cemetery, excavated between 1981 and 1983, contained 714 Early Bronze Age graves and two pits with human remains. A sample of 22 skeletons from 22 graves was investigated using macroscopic, post-hoc archaeothanatological, and histotaphonomic analyses. Thin sections of the femora of 18 out of 22 individuals show high degrees of microbial tunnelling resulting from extensive putrefaction processes. Thin sections of femora from four individuals show less bioerosion indicating that the microbial invasion accompanying autolysis and decomposition was arrested at an early stage of the taphonomic process. Since the femora of these four individuals are partially discoloured green we lean towards the assumption that the good preservation of the internal bone microstructure was caused by a post-depositional uptake of heavy metals eroding from copper and bronze grave goods, mediated by a coffin environment.

Published
2018

5. Das linearbandkeramische Gräberfeld von Kleinhadersdorf

Author

Neugebauer-Maresch, Christine, Lenneis, Eva, Bickle, Penny, Bentley, R. Alexander, Götzinger, Michael A., Hamilton, Julie, Harzhauser, Mathias, Hedges, Robert, Hofmann, Daniela, Laiginhas, Fernando, Mateiciucová, Inna, Nowell, Geoff, Pearson, D. Graham, Stadler, Peter, Teschler-Nicola, Maria, Tiefenböck, Barbara, Whittle, Alasdair, Neugebauer-Maresch, Christine, Lenneis, Eva, Bickle, Penny, Bentley, R. Alexander, Götzinger, Michael A., Hamilton, Julie, Harzhauser, Mathias, Hedges, Robert, Hofmann, Daniela, Laiginhas, Fernando, Mateiciucová, Inna, Nowell, Geoff, Pearson, D. Graham, Stadler, Peter, Teschler-Nicola, Maria, Tiefenböck, Barbara, and Whittle, Alasdair

Published
2015

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