Recent studies reveal vast genetic variability in root traits among maize elite cultivars and germplasm populations, providing valuable alleles for stress tolerance. Identifying genotypes with efficient Root System Architecture (RSA) and resilience to drought and heat can help to face climate change impacts and adapt crops to hostile environments. This study aims to establish phenotypic and genomic selection criteria for droughttolerant root ideotypes through comprehensive root trait evaluation and inheritance.
Solimei, F., DE BIASI, M., Mazzinelli, G., Balconi, C., Hartings, H., Lanzanova, C., et al. (2024). Inheritance and breeding potential of constitutive root traits in maize Italian germplasm.
Inheritance and breeding potential of constitutive root traits in maize Italian germplasm
SOLIMEI F.;DE BIASI M.;GAGLIARDI C.;SALVI S.;FRASCAROLI E.
2024
Abstract
Recent studies reveal vast genetic variability in root traits among maize elite cultivars and germplasm populations, providing valuable alleles for stress tolerance. Identifying genotypes with efficient Root System Architecture (RSA) and resilience to drought and heat can help to face climate change impacts and adapt crops to hostile environments. This study aims to establish phenotypic and genomic selection criteria for droughttolerant root ideotypes through comprehensive root trait evaluation and inheritance.| File | Dimensione | Formato | |
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Inheritance_and_breeding_potential_of_constitutive_root_traits_in_maize_Italian_germplasm (1).pdf
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