PLoS ONE (Jan 2023)

Barley systematics and taxonomy foreseen by seed morphometric variation.

  • Angèle Jeanty,
  • Laurent Bouby,
  • Vincent Bonhomme,
  • François Balfourier,
  • Clément Debiton,
  • Camille Dham,
  • Sarah Ivorra,
  • Jérôme Ros,
  • Allowen Evin

DOI
https://doi.org/10.1371/journal.pone.0285195
Journal volume & issue
Vol. 18, no. 5
p. e0285195

Abstract

Read online

Since its Neolithic domestication in the Fertile Crescent, barley has spread to all continents and represents a major cereal in many modern agrarian systems. Current barley diversity includes thousands of varieties divided into four main categories corresponding to 2-row and 6-row subspecies and naked and hulled types, each of them with winter and spring varieties. This diversity is associated to different uses and allow cultivation in diverse environments. We used a large dataset of 58 varieties of French origin, (1) to assess the taxonomic signal in barley grain measurements comparing 2-row and 6-row subspecies, and naked and hulled types; (2) to test the impact of the sowing period and interannual variation on the grains size and shape; (3) to investigate the existence of morphological differences between winter and spring types; and finally (4) to contrast the relationship between the morphometric and genetic proximity. Size and shape of 1980 modern barley caryopses were quantified through elliptic Fourier Transforms and traditional size measurements. Our results indicate that barley grains record morphological diversity of the ear (89.3% classification accuracy between 2-row/6-row subspecies; 85.2% between hulled and naked type), sowing time of the grains (from 65.6% to 73.3% within barley groups), and environmental conditions during its cultivation and varietal diversity. This study opens perspectives for studying archaeological barley seeds and tracing the barley diversity and evolution since the Neolithic.