Sowing summer grain crops early in late winter or spring: effects on root growth, water use, and yield

Zhao, Dongxue; deVoil, Peter; Rognoni, Bethany G.; Wilkus, Erin; Eyre, Joseph X.; Broad, Ian; Rodriguez, Daniel

doi:10.1007/s11104-024-06648-0

Cited by 3 publications

(2 citation statements)

References 71 publications

Supporting

Mentioning

Contrasting

Order By: Relevance

“…Recently, a field-based method based on electro-magnetic induction (EMI) sensors (DualEM 21S) was proposed to screen for changes in soil water at different depths to indirectly characterize root systems at depth ( Zhao et al., 2022 ). This non-destructive method was successfully applied to investigate differences between sorghum hybrids ( Zhao et al., 2023 ; Zhao et al., 2024 ) and could potentially be extended to investigate root plasticity to water stress and to identify underlying genetic controls in different crops including wheat.…”

Section: Discussionmentioning

confidence: 99%

Does late water deficit induce root growth or senescence in wheat?

Shazadi,

Christopher,

Chenu

2024

Front. Plant Sci.

View full text Add to dashboard Cite

In crops like wheat, terminal drought is one of the principal stress factors limiting productivity in rain-fed systems. However, little is known about root development after heading, when water uptake can be critical to wheat crops. The impact of water-stress on root growth was investigated in two wheat cultivars, Scout and Mace, under well-watered and post-anthesis water stress in three experiments. Plants were grown outside in 1.5-m long pots at a density similar to local recommended farming practice. Differences in root development were observed between genotypes, especially for water stress conditions under which Scout developed and maintained a larger root system than Mace. While under well-watered conditions both genotypes had shallow roots that appeared to senesce after heading, a moderate water stress stimulated shallow-root growth in Scout but accelerated senescence in Mace. For deep roots, post-heading biomass growth was observed for both genotypes in well-watered conditions, while under moderate water stress, only Scout maintained net growth as Mace deep roots senesced. Water stress of severe intensity affected both genotypes similarly, with root senescence at all depths. Senescence was also observed above ground. Under well-watered conditions, Scout retained leaf greenness (i.e. stay-green phenotype) for slightly longer than Mace. The difference between genotypes accentuated under moderate water stress, with rapid post-anthesis leaf senescence in Mace while Scout leaf greenness was affected little if at all by the stress. As an overall result, grain biomass per plant (‘yield’) was similar in the two genotypes under well-watered conditions, but more affected by a moderate stress in Mace than Scout. The findings from this study will assist improvement in modelling root systems of crop models, development of relevant phenotyping methods and selection of cultivars with better adaptation to drought.

show abstract

Section: Discussionmentioning

confidence: 99%

Does late water deficit induce root growth or senescence in wheat?

Shazadi,

Christopher,

Chenu

2024

Front. Plant Sci.

View full text Add to dashboard Cite

show abstract

“…Recently, a field-based method based on electro-magnetic induction (EMI) sensors (DualEM 21S) was proposed to screen for changes in soil water at different depths to indirectly characterize root systems at depth (Zhao et al, 2022). This non-destructive method was successfully applied to investigate differences between sorghum hybrids (Zhao et al, 2023;Zhao et al, 2024) and could potentially be extended to investigate root plasticity to water stress and to identify underlying genetic controls in different crops including wheat.…”

Section: Implication For Plant Breedingmentioning

confidence: 99%