Effect of soil water deficit on grain yield in synthetic bread wheat derivatives

This study aimed to analyze drought tolerance in bread wheat by examining the effect of soil water deficit on yield performance of synthetic bread wheat derivatives. Thirteen genotypes of synthetic bread wheat derivatives selected from a backcross (Cham 6 ///Haurani / Ae. tauschii ICAG400709 //Cham...

Full description

Saved in:
Bibliographic Details
Published in:Cereal research communications 2007-12, Vol.35 (4), p.1603-1608
Main Authors: Inagaki, M. N, J. Valkoun, M. M. Nachit
Format: Article
Language:English
Subjects:
Ae. squarrosa
Ae. tauschii
Annuals
backcrossing
biomass
bread wheat
carbohydrates
Drought tolerance
Durum wheat
genotype
Genotypes
grain yield
Grains
harvest index
heading
Physiology
plant growth
Planting
planting date
Planting seasons
soil moisture
soil water
Soil water content
Soil water deficit
synthetic wheat
Wheat
Citations: Items that this one cites
Items that cite this one
Online Access:Get full text
Tags: Add Tag
No Tags, Be the first to tag this record!
Description
Summary:This study aimed to analyze drought tolerance in bread wheat by examining the effect of soil water deficit on yield performance of synthetic bread wheat derivatives. Thirteen genotypes of synthetic bread wheat derivatives selected from a backcross (Cham 6 ///Haurani / Ae. tauschii ICAG400709 //Cham 6) were used for field evaluation in two experimental sites for two consecutive years. In addition, three synthetic wheat genotypes grown under different planting dates were compared for yield performance. Grain yield was highly correlated with harvest index under all of four cropping environments. No significant contribution of biomass to the grain yield was found in these plant materials. Late planting generated plant growth under the drier soil conditions after the heading time than under normal planting conditions, which resulted in considerable grain yield reduction. A synthetic wheat genotype selected from the materials showed significantly higher grain yield under late planting condition than the check variety, Cham 6. These results suggest that higher grain yield in a synthetic bread wheat genotype is associated with rapid translocation of photosynthetic carbohydrates to the grains after heading time.
ISSN:0133-3720
1788-9170
DOI:10.1556/CRC.35.2007.4.7