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Relationship of grain yield with carbon isotope discrimination and ash content in lines derived from a bread wheat cultivar

Published online by Cambridge University Press:  30 September 2005

J. T. TSIALTAS
Affiliation:
Technological Education Institute of Western Macedonia, 531 00 Florina, Greece Present address: Hellenic Sugar Industry SA, Larissa Factory, 411 10 Larissa, Hellas. Email: [email protected]
I. S. TOKATLIDIS
Affiliation:
Department of Agricultural Development, Democritus University of Thrace, 682 00 N. Orestiada, Greece
E. TAMOUTSIDIS
Affiliation:
Technological Education Institute of Western Macedonia, 531 00 Florina, Greece
I. XYNIAS
Affiliation:
Technological Education Institute of Kalamata, 24 100 Kalamata, Greece

Abstract

The objective was to explore, in lines derived from a bread wheat (Triticum aestivum L.) cultivar, the association of grain yield with carbon isotope discrimination (Δ) and ash content (Ash) determined in both flag leaf and kernel. Divergent selection within the cv. Nestos, based on individual plant yield under very low density (11547 plants/ha), produced 20 lines. Progeny evaluation was conducted in two sites of Northern Hellas (Greece) at both low (11547 plants/ha) and high (5000000 plants/ha) density. The results showed significant differences between lines for grain yield, Δ and Ash. However, only the conclusions on grain yield were similar in low and high density, perhaps because the selection criterion under low density was grain yield. This, combined with the lack of any strong relationship of grain yield with either Δ or Ash, failed to confirm the usefulness of these physiological traits as indirect selection criteria, when the within-cultivar variation for grain yield is exploited. The possible association of grain yield with Δ and Ash appeared to be influenced by various factors such as drought, level of grain yield and altitude. Results also showed that less plant-to-plant variability, as expressed by the coefficients of variation (CV) of single-plant yields, was associated with decreased drought response and higher yield stability. The less stressed lines were those that used water more conservatively till anthesis and maintained a high photosynthetic rate during grain filling.

Type
Research Article
Copyright
© 2005 Cambridge University Press

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