Latitudinal variation in a photoperiod response gene in European barley: insight into the dynamics of agricultural spread from 'historic' specimens

Between ca. 6000 BC and ca. 500 BC, barley cultivation spread across the continent of Europe from the extreme south to the extreme north. Carbon-dating would suggest that this spread, and indeed the spread of crop cultivation generally, varied in its pace, with 'delays' at certain points a...

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Bibliographic Details
Published in:Journal of Archaeological Science
Main Authors: Lister, Diane L., Thaw, Susan, Bower, Mim A., Jones, Huw, Charles, Michael P., Jones, Glynis, Smith, Lydia M J, Howe, Christopher J., Brown, Terence A., Jones, Martin K.
Format: Article in Journal/Newspaper
Language:English
Published: 2009
Subjects:
'Historic' DNA
Agricultural spread
Barley
Herbarium
Hordeum vulgare
Photoperiod response
Arctic
Online Access:https://research.manchester.ac.uk/en/publications/8fe3cd0c-400e-4aa4-bda1-de5f37bfd0a6
https://doi.org/10.1016/j.jas.2008.12.012
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Summary:Between ca. 6000 BC and ca. 500 BC, barley cultivation spread across the continent of Europe from the extreme south to the extreme north. Carbon-dating would suggest that this spread, and indeed the spread of crop cultivation generally, varied in its pace, with 'delays' at certain points along its route. Such delays in the spread of agriculture have been explained as resulting from the slow assimilation of agricultural practices by existing indigenous human populations or as the time taken for the crops to adapt to novel climatic conditions, such as altered temperature regimes and day-lengths. A mutant form of the photoperiod response gene, Ppd-H1, causes barley to be non-responsive to long days, while the wild-type responsive form allows plants to flower in response to long days. We sequenced this gene in 65 'historic' barley accessions, from the late 19th and early 20th centuries, in order to explore the potential role of environmental adaptation in the spread of agriculture. We chose to use 'historic' material, to complement the richer patterns in extant genetic lines, by spreading the data range in both time and space. Our 'historic' barley data shows a latitudinal divide in the Ppd-H1 gene similar to that found in extant lines, but with clearer geographical resolution, and extending northwards into the Arctic Circle. We discuss the implications of our results in relation to the dynamics of agricultural spread across Europe. © 2008 Elsevier Ltd. All rights reserved.

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