Increased kernel number in Norin 10-derived dwarf wheat: evaluation of the cause
Fischer, R.A.
Increased kernel number in Norin 10-derived dwarf wheat: evaluation of the cause - 1986 - Printed
7 graphs, 5 tables, 23 ref. Summary (En)
Near-isogenic pairs of spring wheat, differing in the presence or absence of both dwarfing genes, were grown in a controlled environment. The dwarf wheats had a higher proportion of shoot dry weight in the spike at anthesis. Stems of dwarf genotypes were somewhat shorter as early as 50 days before anthesis (i.e. before floral initiation) but relative differences became especially great commencing at 35 days before anthesis. Apex and spike lengths were never very different. A greater proportion of dry matter was distributed to leaf lamina from 50 days before anthesis until the end of lamina growth in dwarf wheats, while partitioning to stems was lower from 50 days before anthesis onwards. Partitioning to spikes was only higher in the 15 days preceding anthesis. Stem water-soluble carbohydrate (WSC) contents at anthesis were greater in dwarf wheats but maximum spike WSC contents reached at about 15 days before anthesis were lower. The major unique feature of dwarf genotypes, the higher proportion of dry matter partitioned to the spike, appeared to be due to reduced competition from growing stems in dwarf wheats rather than intrinsic differences in the growth potential of their spikes
English
No (Revista en electrónico) 0310-7841
Developmental stages
Gramineae
Inflorescences
Plant anatomy
Plant developmental stages
Plant reproductive organs
Taxa
Yields
Plant breeding
95-065555
Increased kernel number in Norin 10-derived dwarf wheat: evaluation of the cause - 1986 - Printed
7 graphs, 5 tables, 23 ref. Summary (En)
Near-isogenic pairs of spring wheat, differing in the presence or absence of both dwarfing genes, were grown in a controlled environment. The dwarf wheats had a higher proportion of shoot dry weight in the spike at anthesis. Stems of dwarf genotypes were somewhat shorter as early as 50 days before anthesis (i.e. before floral initiation) but relative differences became especially great commencing at 35 days before anthesis. Apex and spike lengths were never very different. A greater proportion of dry matter was distributed to leaf lamina from 50 days before anthesis until the end of lamina growth in dwarf wheats, while partitioning to stems was lower from 50 days before anthesis onwards. Partitioning to spikes was only higher in the 15 days preceding anthesis. Stem water-soluble carbohydrate (WSC) contents at anthesis were greater in dwarf wheats but maximum spike WSC contents reached at about 15 days before anthesis were lower. The major unique feature of dwarf genotypes, the higher proportion of dry matter partitioned to the spike, appeared to be due to reduced competition from growing stems in dwarf wheats rather than intrinsic differences in the growth potential of their spikes
English
No (Revista en electrónico) 0310-7841
Developmental stages
Gramineae
Inflorescences
Plant anatomy
Plant developmental stages
Plant reproductive organs
Taxa
Yields
Plant breeding
95-065555