DISTRIBUTION OF IRON, MANGANESE, AND ZINC IN MATURE GRAIN AND THEIR MOBILIZATION DURING GERMINATION AND EARLY SEEDLING DEVELOPMENT IN MAIZE

Distribution of iron (Fe), manganese (Mn), and zinc (Zn) in mature grains of maize (Zea mays L.) of 25 genotypes was studied. The highest concentrations of micronutrients were found in the seed coats and scutellum, while the lowest were found in the endosperm. The endosperm, scutellum, and seed coat...

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Published in:Journal of plant nutrition 2002-01, Vol.25 (3), p.635-653
Main Authors: Bityutskii, Nikolai P., Magnitskiy, Stanislav V., Korobeynikova, Liydmila P., Lukina, Elena I., Soloviova, Alla N., Patsevitch, Valentina G., Lapshina, Irina N., Matveeva, Galina V.
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Language:English
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Summary:Distribution of iron (Fe), manganese (Mn), and zinc (Zn) in mature grains of maize (Zea mays L.) of 25 genotypes was studied. The highest concentrations of micronutrients were found in the seed coats and scutellum, while the lowest were found in the endosperm. The endosperm, scutellum, and seed coats contained between 60-80%, 15-35%, and 8-12% of the total grain micronutrients, respectively. Mobilization of Fe, Mn, and Zn from the scutellum and endosperm was studied in four genotypes of maize during 3-120 h of germination and early seedling growth. Variation in original concentrations in the scutellums of the genotypes exceeded that observed in the endosperms. Genotypes were separated into several groups with high-Fe (144-168 μg g −1 ) and high-Zn (89-94 μg g −1 ) scutellum (cvs. Brewero yellow, Corriente de gallina), high-Mn (40-42 μg g −1 ) scutellum (cvs. Pusey blond, Brewero yellow), low-Fe (107-110 μg g −1 ) and low-Zn (76 μg g −1 ) scutellum (cvs. Pusey blond, Oregon grewn), and low-Mn (33-36 μg g −1 ) scutellum (cvs. Oregon grewn, Corriente de gallina). The type of kernel tissue influenced micronutrient mobility during germination. The highest share of freely leaked forms of micronutrients was generally observed for the genotypes with high-micronutrient scutellum. After the radicle protruded, the efflux of micronutrients from the scutellum was not dependent with original metal concentrations. The genotypes studied did not differ in the total efflux of minerals from the grain (endosperm + scutellum) measured 120 hr after grain soaking. The following sequence characterized efficiency of kernel-born metals utilization by the seedling: Fe
ISSN:0190-4167
1532-4087
DOI:10.1081/PLN-120003387