Research project: RESET: Response of humans to abrupt Environmental Transitions
Currently Active:
Yes
SOES researchers are involved in a NERC consortium to examine the effects of abrupt climate change on prehistoric humans with a focus on improving the European chronological framework.
Project Overview
RESET logo
This research consortium has developed a novel approach to assessing how humans may have responded to rapid environmental changes in the recent past and brings together experts from a number of different academic fields: Human palaeontology, archaeology, oceanography, volcanology, and past climate change in order to investigate how our ancestors coped with rapid changes in climate during the last 80,000 years.
What caused major shifts in recent human evolution and adaptation have been the subject of much debate for the last 100 years. Ice-core records from Greenland have shown that marked climatic change can occur over as little as 20 years or less. How humans responded to such environmental change is of relevance today because of modern global warming.
Currently such studies are compromised because of the inability to synchronise archaeological and geological records with sufficient precision. Geological dating methods are all subject to statistical uncertainty which means establishing the precise temporal relationships between archaeological events and abrupt changes to the answers elusive. Until a solution is found, answers to many vital and intriguing questions about our recent past will continue to be the subject of intense-debate.
RESET aims to construct a new improved chronological framework for Europe using volcanic ash layers (tephra horizons) which represent time-parallel signatures allowing archaeological and geological records to be linked. Volcanoes throw large volumes of tephra into the atmosphere which is carried by air movements considerable distances from source. For example, tephras from eruptions in southern Iceland, central Italy, the Eifel region of Germany, and the Massif Central region of France reach many parts of Europe where the ash is laid down as layers in lakes, peat-bogs, the sea floor, archaeological sites, and the greenland ice cap. By studying the geochemistry of the tephra horizons, it is possible to 'fingerprint' the eruptive events thereby allowing the construction of a framework which will permit the precise order of events to be resolved. The resulting lattice is expected to give answers to many of the long-standing debates about climate history and the impact it has on humans.
Rohling, E.J., Grant, K.M., Roberts, A.P., and Larrasoana, J.C. Palaeoclimate variability in the Mediterranean and Red Sea regions during the last 500,000 years; Implications for hominin migrations. Current Anthropology (re. Wenner Gren Symposium, June 2012).