info:eu-repo/semantics/article
A wheat/rye polymorphism affects seminal root length and yield across different irrigation regimes
Fecha
2019-04Registro en:
Howell, Tyson; Moriconi, Jorge Ignacio; Zhao, Xueqiang; Joshua Hegarty; Fahima, Tzion; et al.; A wheat/rye polymorphism affects seminal root length and yield across different irrigation regimes; Oxford University Press; Journal of Experimental Botany; 70; 15; 4-2019; 4027-4037
0022-0957
1460-2431
CONICET Digital
CONICET
Autor
Howell, Tyson
Moriconi, Jorge Ignacio
Zhao, Xueqiang
Joshua Hegarty
Fahima, Tzion
Santa Maria, Guillermo Esteban
Resumen
The introgression of a small segment of wheat (Triticumaestivum L.) chromosome arm 1BS in the distal region of rye (Secalecereale L.) 1RS.1BL arm translocation in wheat (henceforth 1RSRW) was previously associated with reduced grain yield, carbon isotope discrimination and stomatal conductance, suggesting reduced access to soil moisture. Here we show that lines with the normal 1RS arm have longer roots than lines with the 1RSRW arm in both field and hydroponic experiments. In the 1RSRW lines, differences in seminal root length were associated with a developmentally regulated arrest of the root apical meristem (RAM). Approximately 10 days after germination, the seminal roots of the 1RSRW plants showed a gradual reduction in elongation rate, and stopped growing a week later. Seventeen days after germination, the roots of the 1RSRW plants showed altered gradients of reactive oxygen species and emergence of lateral roots close to the RAM, suggesting changes in the root meristem. The 1RSRW lines also showed reduced biomass (estimated by Normalized Differences Vegetation Index) and grain yield relative to the 1RS lines, with larger differences under reduced or excessive irrigation than under normal irrigation. These results suggest that this genetic variation could be useful to modulate root architecture.