Browsing by Author "Stahlschmidt, Mareike"
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- Microstratigraphic preservation of ancient faunal and hominin DNA in pleistocene cave sedimentsPublication . Massilani, Diyendo; Morley, Mike W.; Mentzer, Susan M.; Aldeias, Vera; Vernot, Benjamin; Miller, Christopher; Stahlschmidt, Mareike; Kozlikin, Maxim B.; Shunkov, Michael V.; Derevianko, Anatoly P.; Conard, Nicholas J.; Wurz, Sarah; Henshilwood, Christopher S.; Vasquez, Javi; Essel, Elena; Nagel, Sarah; Richter, Julia; Nickel, Birgit; Roberts, Richard G.; Pääbo, Svante; Slon, Viviane; Goldberg, Paul; Meyer, MatthiasAncient DNA recovered from Pleistocene sediments represents a rich resource for the study of past hominin and environmental diversity. However, little is known about how DNA is preserved in sediments and the extent to which it may be translocated between archaeological strata. Here, we investigate DNA preservation in 47 blocks of resin-impregnated archaeological sediment collected over the last four decades for micromorphological analyses at 13 prehistoric sites in Europe, Asia, Africa, and North America and show that such blocks can preserve DNA of hominins and other mammals. Extensive microsampling of sediment blocks from Denisova Cave in the Altai Mountains reveals that the taxonomic composition of mammalian DNA differs drastically at the millimeter-scale and that DNA is concentrated in small particles, especially in fragments of bone and feces (coprolites), suggesting that these are substantial sources of DNA in sediments. Three microsamples taken in close proximity in one of the blocks yielded Neanderthal DNA from at least two male individuals closely related to Denisova 5, a Neanderthal toe bone previously recovered from the same layer. Our work indicates that DNA can remain stably localized in sediments over time and provides a means of linking genetic information to the archaeological and ecological records on a microstratigraphic scale.
- Revisiting the thermal alteration of buried bonePublication . Gallo, Giulia; Aldeias, Vera; Stahlschmidt, MareikeThe impacts of heat exposure directly on bone material are widely acknowledged, yet a comprehensive understanding regarding the degree of thermal alteration experienced by bone buried beneath a combustion feature or fire event remains poorly described. Such potential incidental burning below a surface fire presents challenges for distinguishing between the intentional remains of fire use behaviors from haphazard heat exposure. In this study, we address the extent to which buried bone material can undergo alteration under concentrated high-heat conditions, achieved through using a fire simulator operating at 950 degrees C for a duration of 6 h simulating a high temperature hearth fire. Here we describe the degree of carbonization and calcination in bone samples buried at three depths (-2,-6, and-10 cm) in gravel and a mixed gravel and fine sand substrate. We find that, at the sustained temperature of 950 degrees C, plus heating and cooling time, calcination of bone material can occur at shallow depths of-2 cm under the fire simulator, whereas at-6 cm only one sample of each experimental condition is recognized to be fully structurally and chemically calcined. Despite only two samples calcining at this depth, several other bones buried at-6 cm displayed pale and light coloration, experiencing the elimination of organics without undergoing true calcination, likely due to the prolonged exposure to heat removing the organic component. At-10 cm depth, bone material centered under the heat source became carbonized, while buried bones positioned at the periphery of the heat source are recognized only be partially thermally altered. Notably, neither gravel nor a mixture of gravel and sand substrates create a detectable reduction environment in the spectroscopic analyses of the buried bones. Our findings highlight that not only can post-depositional heating significantly impact buried faunal material, but that in this way humans can act as post-depositional agents.