Identifying genotypes with efficient Root System Architecture (RSA) and resilient to drought and heat stresses could mitigate the negative effects of climate change and contribute to adapt to new hostile environments. Preliminary investigations showed a vast genetic and phenotypic variability in root traits among elite cultivars and germplasm populations that could be used as source of useful alleles for stress tolerance. The goal of this study is to define phenotypic and genomic selection criteria to discover drought tolerant root ideotypes through a deep evaluation of root traits.
Mazzinelli, G., DE BIASI, M., Solimei, F., Hartings, H., Lanzanova, C., Balconi, C., et al. (2023). Root system architecture in Italian maize inbred lines: toward applications in breeding programs.
Root system architecture in Italian maize inbred lines: toward applications in breeding programs
DE BIASI M.;SOLIMEI F.;GAGLIARDI C.;TASSINARI A.;SALVI S.;FRASCAROLI E.
2023
Abstract
Identifying genotypes with efficient Root System Architecture (RSA) and resilient to drought and heat stresses could mitigate the negative effects of climate change and contribute to adapt to new hostile environments. Preliminary investigations showed a vast genetic and phenotypic variability in root traits among elite cultivars and germplasm populations that could be used as source of useful alleles for stress tolerance. The goal of this study is to define phenotypic and genomic selection criteria to discover drought tolerant root ideotypes through a deep evaluation of root traits.| File | Dimensione | Formato | |
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