DNA-Based Determination of Microbial Community Structure in Soils from the La Prele Mammoth Site

Summary

This is an abstract from the "SAA 2019: General Sessions" session, at the 84th annual meeting of the Society for American Archaeology.

Paleomicrobiology is probably best known as an approach that yields anthropological findings connected to human health and disease, such as long-term records of oral microbiomes recovered from ancient dental calculus. However, the tools of microbial ecology have been tested for their potential to address other anthropological questions, and aid in paleoclimatic reconstruction and dating. The latter category includes an experimental approach (Trophic Group Method) that assumes the physiological properties of present-day bacteria in buried paleosols can serve as indicators of climate aridity at the time of soil formation. The method was first systematically tested on samples collected from the Hell Gap site (Grund et al., 2014; Viable paleosol microorganisms, paleoclimatic reconstruction, and relative dating in archaeology: a test case from Hell Gap, Wyoming, USA; J. Archaeological Science 46:217-228). This study prompted us to explore alternative paleomicrobiological methods that directly analyze cellular macromolecules without prior bacterial cultivation to better understand the relationship between extant bacteria and past climate. We will report on microbial community structure in a soil column collected in 2017 from a trench at the La Prele Mammoth site. Community composition is being determined through high-throughput DNA sequencing of biomarker genes for bacteria and fungi.

This Resource is Part of the Following Collections

• Society for American Archaeology 84th Annual Meeting, Albuquerque, NM (2019)

Keywords

Record Identifiers

Abstract Id(s): 24793