Iron and zinc grain density in common wheat grown in Central Asia
Morgounov, Alexei and Gómez-Becerra, Hugo Ferney and Abugalieva, Aigul and Dzhunusova, Mira and Yessimbekova, M. and Muminjanov, Hafiz and Zelenskiy, Yu and Öztürk, Levent and Çakmak, İsmail (2007) Iron and zinc grain density in common wheat grown in Central Asia. Euphytica, 155 (1-2). pp. 193-203. ISSN 0014-2336 (Print) 1573-5060 (Online)
Official URL: http://dx.doi.org/10.1007/s10681-006-9321-2
Sixty-six spring and winter common wheat genotypes from Central Asian breeding programs were evaluated for grain concentrations of iron (Fe) and zinc (Zn). Iron showed large variation among genotypes, ranging from 25 mg kg1 to 56 mg kg1 (mean 38 mg kg1). Similarly, Zn concentration varied among genotypes, ranging between 20 mg kg1 and 39 mg kg1 (mean 28 mg kg1). Spring wheat cultivars possessed higher Fe-grain concentrations than winter wheats. By contrast, winter wheats showed higher Zn-grain concentrations than spring genotypes. Within spring wheat, a strongly significant positive correlation was found between Fe and Zn. Grain protein content was also significantly (P < 0.001) correlated with grain Zn and Fe content. There were strong significantly negative correlations between Fe and plant height, and Fe and glutenin content. Similar correlation coefficients were found for Zn. In winter wheat, significant positive correlations were found between Fe and Zn, and between Zn and sulfur (S). Manganese (Mn) and phosphorus (P) were negatively correlated with both Fe and Zn. The additive main effects and multiplicative interactions (AMMI) analysis of genotype × environment interactions for grain Fe and Zn concentrations showed that genotype effects largely controlled Fe concentration, whereas Zn concentration was almost totally dependent on location effects. Spring wheat genotypes Lutescens 574, and Eritrospermum 78; and winter wheat genotypes Navruz, NA160/HEINEVII/BUC/3/F59.71//GHK, Tacika, DUCULA//VEE/MYNA, and JUP/4/CLLF/3/II14.53/ODIN//CI13431/WA00477, are promising materials for increasing Fe and Zn concentrations in the grain, as well as enhancing the concentration of promoters of Zn bioavailability, such as S-containing amino acids.
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