A Bronze Age wooden container found in an ice patch at approximately 8,700 feet in the Swiss Alps may help archaeologists better understand the spread of agriculture in prehistoric Europe. The archaeologists were expecting to find a milk residue left behind in the container that might show signs of an ancient meal of porridge eaten by hunter or herder ranging in the Alps. Instead, they found lipid-based biomarkers for whole wheat or rye grain, which are called alkylresorcinols. The container has been dated to approximately 4,000 years ago.
A study by the team was published in Scientific Reports and notes that the finding these biomarkers in the residue could be used as a new tool to help archaeologists map and trace the development of early farming in Eurasia.
The domestication of plants, such as wheat, was one of the most significant cultural and evolutionary steps of our species, but direct evidence of their use in early culinary practices and economies has remained elusive. Plants quickly degrade in archaeological deposits. Therefore, archaeologists are increasingly using molecular techniques to look for their remains.
Dr. André Colonese, from the Department of Archaeology at the UK's University of York, said: "We didn't find any evidence of milk, but we found these phenolic lipids, which have never been reported before in an archaeological artefact, but are abundant in the bran of wheat and rye cereals and considered biomarkers of whole grain intake in nutritional studies."
"This is an extraordinary discovery if you consider that of all domesticated plants, wheat is the most widely grown crop in the world and the most important food grain source for humans, lying at the core of many contemporary culinary traditions.
"One of the greatest challenges of lipid analysis in archaeology has been finding biomarkers for plants, there are only a few and they do not preserve very well in ancient artefacts. You can imagine the relevance of this study as we have now a new tool for tracking early culinary use of cereal grains, it really is very exciting. The next step is to look for them in ceramic artefacts," Dr. Colonese added.
The team combined microscopic and molecular analyses to identify lipids and proteins using gas chromatography mass spectrometry, a technique routinely applied to ceramic artifacts. Over the last 30 years, thousands of ceramic artefacts from Europe have been analyzed for their molecular content, most revealing evidence of milk and meat products, but hardly any evidence of cereals.
Dr. Jessica Hendy, from the Max Planck Institute for the Science of Human History, said: "The evidence of cereals came from the detection of lipids, but also from preserved proteins. This analysis was able to tell us that this vessel contained not just one, but two types of cereal grains -- wheat and barley or rye grains.
Combining these two kinds of molecular analysis, along with microscopy, is strong evidence that cereals were being transported across this alpine pass."
"Detecting a molecular marker for cereals also has widespread implications for studying early farming. It enables us to piece together when and where this important food crop spread through Europe," Dr. Hendy added.
Dr. Francesco Carrer, from Newcastle University, UK, said: "This evidence sheds new light on life in prehistoric alpine communities, and on their relationship with the extreme high altitudes. People travelling across the alpine passes were carrying food for their journey, like current hikers do. This new research contributed to understanding which food they considered the most suitable for their trips across the Alps."
The study involved collaboration between the Max Planck Institute for the Science of Human History, the Archaeological Service of the Canton of Bern, the Integrative Prähistorische und Naturwissenschaftliche Archäologie, Newcastle University, the University of Copenhagen and the University of Oxford, and is published in Scientific Reports.