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Human life histories

Human life histories
Human life histories

Reconstructions of the life histories of individual humans are a cornerstone of our understanding of the evolution of past populations, as single individuals are the driving force for changes at the population level. Beyond written records, biomineralized and keratinous tissues that preserve well post-mortem such as teeth, bones and hair represent the key archives of past life histories, especially those that grow appositionally such as dental enamel, thus preserving time-series information. Using the various elemental and isotopic proxies of mobility, diet or pollution, both established and novel ones, increasingly detailed life histories are being extracted from such archives, in no small part thanks to the methodological advances of the last ∼20years, aimed at increasing the achievable spatial, i.e., temporal, resolution. Equally, these techniques facilitate an evaluation of the preservation of in vivo biogeochemical signals in bioapatite up to millions of years old, and the extraction of such signals even from partially preserved fossils. These advances simultaneously consume ever less sample and thus open up access to rare specimens. Successful recent applications have reconstructed weaning in Neanderthals vs. Modern Humans in the European Upper Paleolithic, seasonally-resolved dietary changes in South African Australopithecines or Indonesian Homo erectus and many more Meso-/Neolithic and younger reconstructions of past life histories. Future developments will include increased applications of novel dietary proxies such as Zn isotopes, Li/Ca, Li isotopes and δ15N from enamel proteins that will increasingly also include proteomic analysis such as gender identification. Increasingly, the identification of seasonal growth domains via δ18O in human enamel (via SIMS) coupled with similarly-resolved Sr/Pb-isotopic compositions and elemental dietary proxies (via LA-(MC-)ICPMS) will reveal an ever more nuanced picture of our human past and will ensure that this field will continue to develop fast.

Bone, Elemental ratios, Enamel, Histomorphometry, Isotopes, Keratin, LA-ICPMS, MC-ICPMS, Migration, Mobility, Palaeodiet, Seasonality, SIMS, Spatially-resolved, Subsistence, Teeth
281-328
Elsevier
Müller, Wolfgang
360a71f7-0b47-4ff3-8c32-1912d70401aa
Lugli, Federico
213568dc-17ac-450a-93f3-d430bab5a00f
McCormack, Jeremy
62666fb6-5094-4f37-af53-ba065a3a2fd9
Evans, David
878c65c7-eab9-4362-896b-166e165eb94b
Anczkiewicz, Robert
7ccb376a-22d1-41c8-aa8c-4cd81508eaca
Bondioli, Luca
8a4cf938-fda7-4eac-9b98-827b87d456c2
Nava, Alessia
377d9094-8047-44e8-912e-b33ce735026d
Müller, Wolfgang
360a71f7-0b47-4ff3-8c32-1912d70401aa
Lugli, Federico
213568dc-17ac-450a-93f3-d430bab5a00f
McCormack, Jeremy
62666fb6-5094-4f37-af53-ba065a3a2fd9
Evans, David
878c65c7-eab9-4362-896b-166e165eb94b
Anczkiewicz, Robert
7ccb376a-22d1-41c8-aa8c-4cd81508eaca
Bondioli, Luca
8a4cf938-fda7-4eac-9b98-827b87d456c2
Nava, Alessia
377d9094-8047-44e8-912e-b33ce735026d

Müller, Wolfgang, Lugli, Federico, McCormack, Jeremy, Evans, David, Anczkiewicz, Robert, Bondioli, Luca and Nava, Alessia (2024) Human life histories. In, Treatise on Geochemistry, Third Edition, 8 Volume Set. Elsevier, pp. 281-328. (doi:10.1016/B978-0-323-99762-1.00105-4).

Record type: Book Section

Abstract

Reconstructions of the life histories of individual humans are a cornerstone of our understanding of the evolution of past populations, as single individuals are the driving force for changes at the population level. Beyond written records, biomineralized and keratinous tissues that preserve well post-mortem such as teeth, bones and hair represent the key archives of past life histories, especially those that grow appositionally such as dental enamel, thus preserving time-series information. Using the various elemental and isotopic proxies of mobility, diet or pollution, both established and novel ones, increasingly detailed life histories are being extracted from such archives, in no small part thanks to the methodological advances of the last ∼20years, aimed at increasing the achievable spatial, i.e., temporal, resolution. Equally, these techniques facilitate an evaluation of the preservation of in vivo biogeochemical signals in bioapatite up to millions of years old, and the extraction of such signals even from partially preserved fossils. These advances simultaneously consume ever less sample and thus open up access to rare specimens. Successful recent applications have reconstructed weaning in Neanderthals vs. Modern Humans in the European Upper Paleolithic, seasonally-resolved dietary changes in South African Australopithecines or Indonesian Homo erectus and many more Meso-/Neolithic and younger reconstructions of past life histories. Future developments will include increased applications of novel dietary proxies such as Zn isotopes, Li/Ca, Li isotopes and δ15N from enamel proteins that will increasingly also include proteomic analysis such as gender identification. Increasingly, the identification of seasonal growth domains via δ18O in human enamel (via SIMS) coupled with similarly-resolved Sr/Pb-isotopic compositions and elemental dietary proxies (via LA-(MC-)ICPMS) will reveal an ever more nuanced picture of our human past and will ensure that this field will continue to develop fast.

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Published date: 1 January 2024
Additional Information: Publisher Copyright: © 2025 Elsevier Inc. All rights are reserved, including those for text and data mining, AI training, and similar technologies.
Keywords: Bone, Elemental ratios, Enamel, Histomorphometry, Isotopes, Keratin, LA-ICPMS, MC-ICPMS, Migration, Mobility, Palaeodiet, Seasonality, SIMS, Spatially-resolved, Subsistence, Teeth
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Identifiers

Local EPrints ID: 502486
URI: http://eprints.soton.ac.uk/id/eprint/502486
DOI: doi:10.1016/B978-0-323-99762-1.00105-4
PURE UUID: 1d611ec4-c786-465e-bed6-742ff4891092
ORCID for David Evans: ORCID iD orcid.org/0000-0002-8685-671X

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Date deposited: 26 Jun 2025 17:14
Last modified: 27 Jun 2025 02:09

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Contributors

Author: Wolfgang Müller
Author: Federico Lugli
Author: Jeremy McCormack
Author: David Evans ORCID iD
Author: Robert Anczkiewicz
Author: Luca Bondioli
Author: Alessia Nava

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