Publication

Jonny Geber, Monica Tromp, Ashley Scott, Abigail Bouwman, Paolo Nanni, Jonas Grossmann,Jessica Hendy, and Christina Warinner
Relief food subsistence revealed by microparticle and proteomic analyses of dental calculus from victims of the Great Irish Famine

Funding

The study is funded by the Royal Irish Academy in partnership with the National Monuments Service, the Wellcome Trust, Johan and Jakob Söderberg’s Foundation, the US National Science Foundation and the Max Planck Society.

Media contact at MPI-SHH

Anne Gibson
+49 3641 686-950
Petra Mader

+49 3641 686-960
presse@shh.mpg.de

Press release by the University of Edinburgh

Teeth offer vital clues about diet during the Great Irish Famine

Scientific analysis of dental calculus – plaque build-up – of the Famine’s victims found evidence of corn (maize), oats, potato, wheat and milk foodstuffs.

9. September 2019

"Destitution in Ireland. Failure of the potato crop", illustration was published in The Pictorial Times on 22 August 1846. Bild vergrößern
"Destitution in Ireland. Failure of the potato crop", illustration was published in The Pictorial Times on 22 August 1846.

Analysis of teeth from the 1840s has shed new light on what people ate before and during the Great Famine of Ireland.

Scientific analysis of dental calculus – plaque build-up – of the Famine’s victims found evidence of corn (maize), oats, potato, wheat and milk foodstuffs. Surprisingly, they also discovered egg protein in the calculus of three people – more associated with diets of non-labouring or better off social classes at the time.

Researchers analysed calculus on teeth from the human remains of 42 people, aged approximately 13 years and older who died in the Kilkenny Union Workhouse and were buried in mass burial pits on its grounds.

Examples of starches observed in the microparticle analysis: (A–C) corn (Z. mays), (D and E) malted barley (Hordeum spp.), (F–H) wheat (Triticum spp.),(I and J) oat (Avena spp.), and (K and L) potato (S. tuberosum). Bild vergrößern
Examples of starches observed in the microparticle analysis: (A–C) corn (Z. mays), (D and E) malted barley (Hordeum spp.), (F–H) wheat (Triticum spp.),
(I and J) oat (Avena spp.), and (K and L) potato (S. tuberosum). [weniger]

The workhouse pits were discovered in 2005 and were found to contain the remains of nearly 1,000 people.

In the mid-19th century an estimated one million people died when a devastating famine hit Ireland after the potato crop failed in successive years.

Potato and milk was virtually the only source of food for a vast proportion of the population.

Many people were forced to seek refuge in the workhouses during the Famine, where they received meagre rations of food and shelter in return for work.

Researchers examined samples of calculus for microparticles and protein content linked to foodstuffs.

The microparticles showed a dominance of corn, as well as evidence of oats, potato and wheat.

The corn came from so-called "Indian meal", which was imported in vast amounts to Ireland from the United States as relief food for the starving populace.

Analysis of the protein content identified milk, as well as the occasional presence of egg.  

The study is a collaboration between researchers from the Universities of Edinburgh, Harvard, Otago in New Zealand, York, Zurich, and the Max Planck Institute in Germany.

One of the lead researchers, Dr Jonny Geber of the University of Edinburgh’s School of History, Classics and Archaeology, said: "The results of this study is consistent with the historical accounts of the Irish labourer’s diet before and during the Famine. It also shows how the notoriously monotonous potato diet of the poor was opportunistically supplemented by other foodstuffs, such as eggs and wheat, when made available to them. The Great Irish Famine was one of the worst subsistence crises in history but it was foremost a social disaster induced by the lack of access to food and not the lack of food availability."

"This is a concrete example of how combining archaeology, history and emerging technologies in palaeoethnobotany and proteomics can expand our understanding of how past societies experienced and responded to social crises", explains senior Christina Warinner of Harvard University and the Max Planck Institute for the Science of Human History.

*** Press release by the University of Edinburgh***

 
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