· Sorghum, a cereal used to feed livestock and make alcohol has been damaged over the last 6000 years by humans

· The damage to genes and reduced varieties available of sorghum are not a consequence of domestication but because of specific agricultural practices

· The damage of genes in the crop has increased over time, partly due to periods of adaptation. Diversity has steadily declined from initially high levels at the onset of domestication.

· Different groups of sorghums have ‘rescued’ each other from damage, giving insight into how such crops could be rescued in the future, researchers at the University of Warwick have found

· How to manage the crop going forwards needs to be revised

The diversity of the crop Sorghum, a cereal used to make alcoholic drinks, has been decreasing over time due to agricultural practice. To maintain the diversity of the crop and keep it growing farmers will need to revise how they manage it.

Sorghum bicolor is a crop widely used for animal feed, and making beer.

The history of sorghum from its original domesticated state to todays domesticated cereal has been found to be heavily influenced by human action, continuing to treat the plant as we currently do could mean the continued degradation of the crop.

One current type of sorghum harvested is called Sorghum bicolor, but there are several different sorghum types, and in the past they have been saving each other by sharing undamaged genes, in a process called introgression.

The wild ancestors of sorghum represent genomes that have not been damaged through cultivation. Although we don’t harvest the wild ancestors of sorghum it’s necessary to keep them alive as the ability to adapt to their surroundings by introgression could be crucial in the future of Sorghum bicolor to threats of climate change, meaning crops have to adapt to new environments.

In Sorghum bicolor, damage to their genes is happening by the way it’s farmed, meaning their core genome functions are accumulating damage over time, therefore we need to repair the crops genomic damage or productivity could decline.

Professor Robin Allaby, from the School of Life Sciences at the University of Warwick comments:

“Sorghum bicolor is the world’s fifth most important cereal crop and the most important crop in arid zones. It’s used for animal feed and beer and is grown particularly in North-Eastern Africa generating an economy there.

“If we can’t save sorghum’s ancestors and use those genes to help Sorghum bicolor repair its genomic damage we could risk damaging the crop further. This could mean less animal feed, food and beer, as well as potentially damaging trade in North-East Africa.”

The full list of authors on the paper are:

Lead author - Prof. Robin Allaby of the University of Warwick.

The other authors on the paper were:

Oliver Smith, School of Life Sciences, University of Warwick and Natural History Museum of Denmark

William V Nicholson, at the University of Warwick

Logan Kistler, University of Warwick and Department of Anthropology, Smithsonian Institution.

Emma Mace, Department of Agriculture, Fisheries and Forestry Queensland

Alan Clapham – School of Life Sciences, University of Warwick

Pamela Rose – The Austrian Archaeological Institute, Cairo

Chris Stevens – Institute of Archaeology, UCL

Roselyn Ware, School of Life Sciences, University of Warwick

Siva Samavedam – School of Life Sciences, University of Warwick

Guy Baker – School of Life Sciences, University of Warwick

David Jordan – Queensland Alliance for Agriculture and Food innovation

Dorian Q Fuller - Institute of Archaeology, UCL

ENDS

8 APRIL 2019

NOTES TO EDITORS

The paper titled: ‘A domestication history of dynamic adaptation and genomic deterioration in sorghum’ published in Nature plants, is available to view at: http://dx.doi.org/10.1038/s41477-019-0397-9

For further information please contact:

Alice Scott

Media Relations Manager – Science

University of Warwick

Tel: +44 (0) 2476 574 255 or +44 (0) 7920 531 221

E-mail: alice.j.scott@warwick.ac.uk