Durum wheat salt tolerance in relation to physiological, yield and quality characters

Durum wheat (Triticum turgidum L. Desf.) is a species well adapted to the Mediterranean environments where salt stress due to seawater intrusion is an increasing problem. The purpose of this study was to deep insight into the relationships among physiological, productive and qualitative aspects unde...

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Bibliographic Details
Published in:Cereal research communications 2011-12, Vol.39 (4), p.525-534
Main Authors: Borrelli, G. M, D. B. M. Ficco, L. Giuzio, M. Pompa, L. Cattivelli, Z. Flagella
Format: Article
Language:English
Subjects:
Agriculture
breeding season
carotenoids
crop production
Dehydration
Durum wheat
Flagella
genotype
Genotypes
grain quality
greenhouses
irrigation water
leaf water potential
leaves
Life Sciences
Mediterranean climate
osmotic pressure
physiological indices
Physiology
Plant Breeding/Biotechnology
plant damage
Plant Genetics and Genomics
Plant Physiology
Plants
protein content
Salinity
salt stress
Salt tolerance
Salts
saltwater intrusion
sodium
sodium dodecyl sulfate
Soil salinity
toxicity
Triticum durum Desf
Triticum turgidum
turgor
water content
water salinity
Wheat
yield components
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Summary:Durum wheat (Triticum turgidum L. Desf.) is a species well adapted to the Mediterranean environments where salt stress due to seawater intrusion is an increasing problem. The purpose of this study was to deep insight into the relationships among physiological, productive and qualitative aspects under salinity, being these aspects still poorly investigated in durum wheat. In 2004–2005 crop season 10 durum wheat genotypes of different origin and breeding time were grown in a naturally-lit polycarbonate greenhouse under three irrigation water salinity levels (0.9, 6.0 and 12.0 dS m−1). A complete randomized block design with three replications was adopted. The osmotic damage was evaluated by estimating relative water content (RWC), leaf water potential (Φw) and osmotic potential at full turgor (Φπ100). The toxic damage to the plants was evaluated by measuring Na+ accumulation and Na+/K+ ratio in the leaves. Differences in yield performance were evaluated by assessing the main yield components and some qualitative traits, carotenoid pigment and protein content and Sedimentation test in sodium dodecyl sulphate. A significant effect of genotype, salt stress and of their interaction on all the characters was observed. Durum wheat genotypes generally showed a moderate tolerance to salt stress. The genotype performance was dependent on stress level and RWC maintenance. Osmotic adjustment and low sodium accumulation were found to play a key role in salt tolerance. An improvement in the grain quality characters on increasing salinity level, consistently with a yield decrease, was observed.
ISSN:0133-3720
1788-9170
DOI:10.1556/CRC.39.2011.4.7