Research Projects in the Department of Archaeology

At the intersection among the arts, science, and technology, printing is widely recognised as the invention of the millennium. However, and in spite of a resurgence of traditional typographic methods among artists and craftspeople, letterpress equipment and technology face an uncertain future.

This project aims to study the crucibles and finished metal objects recently recovered from the Great Zimbabwe World Heritage site, using techniques from earth and materials sciences.

Archaeometallurgical contributions to various research areas such as the provenance of Shang bronzes, ingenious adaptations of metallurgical technologies to different ecological and socioeconomic constraints, and regional developments of metallurgical traditions.

The metalwork of Pre-Columbian America has long fascinated scholars and the public alike. In addition to the sheer allure of gold, this attraction is exacerbated by the extraordinary technical skill that underpins many of these artefacts, as well as their mesmerising iconography, which evokes a rich symbolic world and an appreciation of metals that goes beyond their material worth. Most of these objects were made for ritual use.

Analysis and evaluation of bronze axe hoards during the Late Bronze Age - Iron Age transition. The project investigates provenance, chronology, technological and cultural aspects of bronze deposition of the European Atlantic region.

Tracking the early emergence of derived Homo-like cerebral features in the hominin fossil record can be expected to contribute to an understanding of the timing (i.e., chronology) and mode (i.e., process) of critical brain changes. Because brain tissue is not preserved in the fossil record, studies of hominin brain evolution focus on brain endocasts (i.e., replicas of the inner table of the bony braincase).

Research into global connections, which formed the basis for the spread of objects, ideas, innovations, religions and empires, continues to fundamentally shape our understanding of the development of contemporary society. While the historiography of global connections is dominated by a European perspective, new research into overlooked vantage points combined with innovative methodological and theoretical approaches provide important opportunities to challenge and enrich perspectives of global history. 

Our knowledge of human evolution is limited by several factors. One is tightly linked to the nature of the fossil record, as bones of our extinct human relatives and other primate species rarely appear in archaeological and paleontological sites, and when they do, they very commonly appear in an isolated fashion and/or are highly fragmented. These factors more severely affect studies of limb bones, which have been vaguely analysed or even ignored in certain cases.

Long-distance exchange networks played key roles in the socio-political history of Central Africa before the 20th century, but they are poorly known prior to the 19th century owing to a scarcity of written sources covering the earlier centuries. Archaeological data, however, suggest that major 19th-century trade routes were well established several centuries before.

How did our ancestors walk? Perhaps the greatest challenge that this question has posed in the past, is the lack of methodological applications in which no study has previously reconstructed how our ancestors moved using biomechanical modelling techniques. We need to consider not just individual bones when reconstructing movement, but to look at the full body to begin to tell the story of our ancestors’ movement. Muscles animate our body, permitting us to walk, run and even dance. We must reconstruct the muscles of the body to understand ancestral locomotion.

A large-scale multi-disciplinary study of pre-Roman iron technology in the Iberian Peninsula.

Despite recent progress in molecular analyses and the constant increase of the hominin remains in the fossil record, the chronological, geographical and evolutionary context of the emergence of the genus Homo remains largely debated. More importantly, the identity of our direct ancestors and assessment of the adaptations characterizing our genus remain unclear.

Around 1,200 years ago, archaeological evidence suggests pre-existing pastoralist societies that had been present in some parts of eastern Africa since c. 5,000 BP experience significant cultural and economic change. Materials signs of these include the uptake of iron smelting technologies, new ceramic styles, and changes in food production. In the following centuries, the region also experienced several significant shifts in climate, alternating between periods of increased rainfall and extended droughts.

Taking as its starting point the radically new perspective offered by recent archaeological discoveries at Rendlesham in SE Suffolk, and with the East Anglian kingdom as the primary case study, this interdisciplinary project (running 2017-2020) aims to establish a new understanding of pathways to territorial lordship and regional kingship in early post-Roman eastern England through analysis of the development and role of central-places in society, economy, politics and ideology, and the networks of which they were a part.

The project focuses on the models of circulation of raw materials during the Iberian Late Prehistory, as well as the use and social value given to the different materials, with special attention to metals and amber. 

This project aims to gain a better understanding of the relationship of Crete with the world outside the island through the lens of a key body of materials: goldwork.

Our understanding of the origins of our species, Homo sapiens, has undergone a major shift. New fossils, dates and genomic studies have consolidated our African origin. Yet, they also indicate a deeper past, involving multiple events. These events stretch to nearly three quarters of a million years ago (Ma), and take the problem of modern human origins into an entirely different climatic and ecological context.

Human evolution is a central research area in biology and anthropology and has a history of research going back more than 150 years. For most of that time, evidence has come from digging up fossils and archaeological remains. Research in human evolution has been transformed by the impact of genomics and the development of ancient DNA methodologies, producing new insights into past demography, dispersal and admixture patterns, social behaviour, selection, disease history, and more.

How did the biomechanics and ergonomics of the human hand influence the use and production of Palaeolithic stone tools? Traditionally, stone tools have been analyzed for their morphological properties and technological characteristics to infer the cognitive and social evolution of early hominins and modern humans. However, the role of musculoskeletal aspects in the effective use of these tools has been largely overlooked, resulting in an incomplete understanding of Palaeolithic technologies.

The Promised project forms a network of excellence in Bioarchaeology and Archaeological Materials Science within the Science and Technology in Archaeology and Culture Research Center (STARC) at the Cyprus Institute linked with the advanced research centres in Archaeological Science at KU Leuven and the University of Cambridge.

Cooperation is a markedly human mix of innate and learned behaviour, and a key to tackling some of our greatest concerns. Paradoxically, studies of social dynamics often focus on hierarchies, state formation and political structures ruled by coercive power, with comparatively little regard to the mechanisms whereby humans voluntarily collaborate. Encouragingly, new research on collective action is reconciling classic anthropology with game theory and empirical studies of group resource management, thus heralding a fundamental transformation.

The project Science @ Tarquinia aims to provide the complementary scientific support for the long-standing study of the ancient Etruscan city of Tarquinia by the University of Milan. This Unesco World Heritage site is well known for its magnificent painted tombs, its city walls, the Temple of Ara Regina and the monumental zone where the University of Milan has worked for over 30 years. The collaborative work (which started in September 2019) includes flotation, micromorphology, AMS dating, isotopic analysis and aDNA.

Shanidar cave viewed from the south (Photograph: Graeme Barker) 

The Shanidar Cave Project

Cambridge is home to world-leading researchers across archaeological science, technical art history and heritage science, based at Department of Archaeology, the Fitzwilliam Museum, and the Hamilton Kerr Institute, among others. There are multiple synergies across these institutions in terms of research methodologies, goals and ambitions in the field of technical and scientific investigation of works of art and archaeological objects.

As the complex mosaic of Quaternary human lineages across and beyond Africa becomes increasingly apparent, an accurate chronology is critical to disentangle the patterns and process, particularly those that link human evolution to palaeoenvironmental and climatic change.