Acta Societatis Botanicorum Poloniae (Jan 2014)
Aflatoxin B -induced alterations in uptake and distribution of 65Zn-ZnCl2 by four Zea mays cultivars and toxin effects on root and stem elongations
Abstract
Aflatoxin Bl has been recovered within seemingly healthy, intact seeds, which suggests that its transport from contaminated soil to the fruit can occur. Previously, we examined the effects of 19.7 µg•-3 mixed aflatoxins (AFTs) on the abilities of three Zea mays cultivars to remove Zn++ from Perlite and the influence of Zn++ on the cultivars' capabilities to both take-up and distribute AFTs. Here, we report both 2.5 and 5.0 µg aflatoxin B1 (AFB1)cm-3 influences on time-dependent, uptake and organ distribution of 65Zn-ZnCl2 from liquid culture by Zea mays, cvs. 'Early Yellow', 'Silver Queen', 'Early White' and `Golden Queen'. In addition, time-dependent seed germination as well as root and stem elongation responses to AFB1 are described. Neither 2.5 nor 5.0 µg AFB1cm-3 affected the cultivars' abilities to germinate. Whereas an analysis of variance revealed significant differences for the combination cultivars, AFB1 concentration and time regarding root elongation, such analysis for stem elongation yielded only a significant interaction between AFB1 concentration and one cultivar at a time course's completion. As for 65Zn-ZnCl2 uptake, an ANOVA indicated that there were significant differences for the combination organs, cultivars and AFB1 concentration. Certain results suggest Zea mays cultivar variability in susceptibility to exogenous AFB1. The significance of these findings is discussed.
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