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Tapping into the plasticity of plant architecture for increased stress resilience [version 1; peer review: awaiting peer review]

Rahmati Ishka, Maryam ; Julkowska, Magdalena

F1000 research, 2023, Vol.12, p.1257-1257 [Periódico revisado por pares]

England: Faculty of 1000 Ltd

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  • Título:
    Tapping into the plasticity of plant architecture for increased stress resilience [version 1; peer review: awaiting peer review]
  • Autor: Rahmati Ishka, Maryam ; Julkowska, Magdalena
  • Assuntos: Abiotic stress ; Biomass ; Cell division ; Climate ; Cues ; eng ; Environmental conditions ; Environmental factors ; Environmental stress ; Genetic control ; Genetic engineering ; leaf architecture ; New species ; Nutrients ; Phenotype ; Phenotyping ; plant architecture ; Plant breeding ; plant fitness ; Resilience, Psychological ; Reviews ; root architecture ; shoot architecture ; Signal transduction ; stress resilience
  • É parte de: F1000 research, 2023, Vol.12, p.1257-1257
  • Notas: ObjectType-Article-2
    SourceType-Scholarly Journals-1
    ObjectType-Feature-3
    content type line 23
    ObjectType-Review-1
  • Descrição: Plant architecture develops post-embryonically and emerges from a dialogue between the developmental signals and environmental cues. Length and branching of the vegetative and reproductive tissues were the focus of improvement of plant performance from the early days of plant breeding. Current breeding priorities are changing, as we need to prioritize plant productivity under increasingly challenging environmental conditions. While it has been widely recognized that plant architecture changes in response to the environment, its contribution to plant productivity in the changing climate remains to be fully explored. This review will summarize prior discoveries of genetic control of plant architecture traits and their effect on plant performance under environmental stress. We review new tools in phenotyping that will guide future discoveries of genes contributing to plant architecture, its plasticity, and its contributions to stress resilience. Subsequently, we provide a perspective into how integrating the study of new species, modern phenotyping techniques, and modeling can lead to discovering new genetic targets underlying the plasticity of plant architecture and stress resilience. Altogether, this review provides a new perspective on the plasticity of plant architecture and how it can be harnessed for increased performance under environmental stress.
  • Editor: England: Faculty of 1000 Ltd
  • Idioma: Inglês
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