Coleoptile length variation of near-isogenic Rht lines of modern CIMMYT bread wheat and durum wheats
Trethowan, R.M.
Coleoptile length variation of near-isogenic Rht lines of modern CIMMYT bread wheat and durum wheats - Netherlands : Elsevier, 2001. - Printed
Peer review
A set of 10 bread wheat (Triticum aestivum L.) and six durum wheat (T. turgidum L.) genotypes near-isogenic for either the Rht1 or Rht2 dwarfing genes were analyzed for plant height, kernel weight, coleoptile length and grain yield. Coleoptile length was measured at three different temperatures and plant height, kernel weight and grain yield determined in six different environments. Durum wheat, regardless of stature, produced longer coleoptiles than bread wheat at higher temperature. Within the non-Rht isolines, plant height and coleoptile length were independent characters. The tall durum wheats tended to be taller than their bread wheat counterparts, indicating an absence of minor genes for reduced height. However, a number of bread wheat cultivars showed relatively small height increases following removal of the Rht gene and substantially greater increases in coleoptile length. Coleoptile length was more highly correlated (r2=0.53, P<0.01) with seed weight among the non-Rht isolines compared to cultivars containing either Rht1 or Rht2. Grain yield and plant height were positively correlated among the semi-dwarf Rht isolines in 5 of 6 environments. No equivalent relationship existed among the non-Rht materials. Grain yield (standard sowing depth 3 cm) and coleoptile length were generally not significantly correlated within each isogenic grouping. Plant breeders should be able to select short statured, non-Rht1 or non-Rht2 hexaploid bread wheat with better emergence characteristics. The non-Rht genotypes developed from the bread wheat cultivars Seri 82 and Culiacan 89 were identified as meeting these criteria. Wheats such as these could offer significant advantages to farmers in environments where deep sowing into stored soil moisture is practiced.
Text in English
0378-4290
https://doi.org/10.1016/S0378-4290(00)00153-2
Coleoptiles
Height
Seedling emergence
Hexaploidy
Temperature
Triticum turgidum
Triticum aestivum
Genotypes
Plant breeding
CIMMYT
Coleoptile length variation of near-isogenic Rht lines of modern CIMMYT bread wheat and durum wheats - Netherlands : Elsevier, 2001. - Printed
Peer review
A set of 10 bread wheat (Triticum aestivum L.) and six durum wheat (T. turgidum L.) genotypes near-isogenic for either the Rht1 or Rht2 dwarfing genes were analyzed for plant height, kernel weight, coleoptile length and grain yield. Coleoptile length was measured at three different temperatures and plant height, kernel weight and grain yield determined in six different environments. Durum wheat, regardless of stature, produced longer coleoptiles than bread wheat at higher temperature. Within the non-Rht isolines, plant height and coleoptile length were independent characters. The tall durum wheats tended to be taller than their bread wheat counterparts, indicating an absence of minor genes for reduced height. However, a number of bread wheat cultivars showed relatively small height increases following removal of the Rht gene and substantially greater increases in coleoptile length. Coleoptile length was more highly correlated (r2=0.53, P<0.01) with seed weight among the non-Rht isolines compared to cultivars containing either Rht1 or Rht2. Grain yield and plant height were positively correlated among the semi-dwarf Rht isolines in 5 of 6 environments. No equivalent relationship existed among the non-Rht materials. Grain yield (standard sowing depth 3 cm) and coleoptile length were generally not significantly correlated within each isogenic grouping. Plant breeders should be able to select short statured, non-Rht1 or non-Rht2 hexaploid bread wheat with better emergence characteristics. The non-Rht genotypes developed from the bread wheat cultivars Seri 82 and Culiacan 89 were identified as meeting these criteria. Wheats such as these could offer significant advantages to farmers in environments where deep sowing into stored soil moisture is practiced.
Text in English
0378-4290
https://doi.org/10.1016/S0378-4290(00)00153-2
Coleoptiles
Height
Seedling emergence
Hexaploidy
Temperature
Triticum turgidum
Triticum aestivum
Genotypes
Plant breeding
CIMMYT