Unravelling the impact of soil types on zinc, iron, and selenium concentrations in grains and straw of wheat/Amblyopyrum muticum and wheat/Triticum urartu doubled haploid lines

Abstract: The concentration of mineral nutrients in plants is associated with bioavailabilities of soil mineral nutrients, which are regulated by various soil physio-chemical properties. A pot experiment was conducted to investigate the effects of soil type on grain and straw zinc (Zn), iron (Fe) and selenium (Se) concentrations of wheat/Amblyopyrum muticum and wheat/Triticum urartu doubled haploid lines. A set of 42 treatments in a factorial combination with 21 genotypes and two soil types collected from Ngabu and Chit… Show more

“…muticum and T. urartu introgression lines developed for trait analysis were shown to have potential for increased grain Zn and Fe above their recurrent parents, and T. urartu , DH-254 and Am. muticum , DH-348 showed the highest grain Zn and Fe concentrations ( Guwela, 2023 ; Guwela et al., 2024 ). The two lines were therefore selected for the current study based on their high Zn and Fe concentrations.…”

The 4T and 7T introgressions from Amblyopyrum muticum and the 5Au introgression from Triticum urartu increases grain zinc and iron concentrations in Malawian wheat backgrounds

“…muticum and T. urartu introgression lines developed for trait analysis were shown to have potential for increased grain Zn and Fe above their recurrent parents, and T. urartu , DH-254 and Am. muticum , DH-348 showed the highest grain Zn and Fe concentrations ( Guwela, 2023 ; Guwela et al., 2024 ). The two lines were therefore selected for the current study based on their high Zn and Fe concentrations.…”

The 4T and 7T introgressions from Amblyopyrum muticum and the 5Au introgression from Triticum urartu increases grain zinc and iron concentrations in Malawian wheat backgrounds