Human variation and adaptability

Studying the patterns of variation in humans

We take an interdisciplinary approach to the study of human variation, both at genotypic and phenotypic levels, through the fields of palaeoanthropology, bioarchaeology, human palaeogenetics, evolutionary genetics and human biology.

Palaeoanthropology aims to understand the biology of hominins through morphological variation of the skeleton.

Bioarchaeology is focused on the link of human variation, cultural evolution and its interaction with the natural environment.

Human palaeogenetics studies DNA from archaeological contexts to explore the ancestry of human populations and the role of ancient migrations in shaping the current genetic pool and to provide information about social practices in the past.

To explain the patterns of variation in the human phenotype, we study the mechanisms of adaptability of humans among recent historic and living populations using human biology and genetics.

Impact case study: Telling the story of human evolution

Research areas and current projects

Palaeogenetics

We are interested in the study of the genetic variability of prehistoric populations as a means to understand patterns of prehistoric migrations and its role in shaping the cultural landscape of prehistoric Europe. Our research group focuses on generating and analysing ancient DNA sequence data from ancient remains in order to study past migration and population history. We currently have several ongoing projects dedicated to different archaeological sites around the world, including Arabia, the Iberian Peninsula and Britain, and others. We use various computational approaches to elucidate different aspects of the genetic history of our species, including:

1. The impact of past migrations and admixture processes in the formation of past and present-day genetic diversity.
2. The effect of natural selection on various human traits during prehistory.

Facilities

Palaeogenetic analyses are conducted within the Ancient DNA laboratories in the Life Sciences Building. These laboratories are built following the highest standards for ancient DNA work, including positive pressure, HEPA filters and UV light. The LCN laboratory is structured in three different suites:

• Sample preparation room equipped with a sandblaster, a freezer mill and a cross-linker
• DNA extraction room equipped with a laminar flow hood, cross-linkers, centrifuges, vortex, scales, fridge-freezers
• Next-generation sequencing library preparation room equipped with a laminar flow hood, centrifuge, vortex and thermal block

Post-PCR and post-Illumina library preparation are conducted in the molecular biology research laboratories equipped with a fume hood, thermocyclers, electrophoresis systems, centrifuges, scales, thermal blocks, water baths, Milli-Q system, Real-Time PCR system, nanodrop and several fridges and freezers. Additionally, we have an iSeq and a MiSeq sequencing instruments which we routinely use to sequence ancient DNA.

Current collaborations

We actively collaborate with colleagues based at:

• University of Birmingham
• Trinity College Dublin
• University of Coimbra
• University of Cambridge

Publications

Search publications written by members of this group:

People

Meet the researchers within this theme: