p. 1−11
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p. 13−22
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p. 23−34
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p. 35−47
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carbonate > organic > exchangeable. However, for copper the order was as residual > organic > carbonate > exchangeable. The minimum lead concentration (25.50 mg kg-1) was observed in Z. mays shoot tissue and the maximum (301.30 mg kg-1) in C. sativa shoot tissue. Lead TF ranged from 0.72 to 0.96 and decreased in the following order: H. annus > C. sativa > B. napus > Z. mays. Zinc TF changed from 0.70 to 0.99 and as H. annus > Z. mays> C. sativa > B. napus, and copper TF turned from 0.49 to 1.83 and as H. annus > C. sativa > B. napus > Z. mays. The EF value of lead varied from 0.24 for Z. mays to 0.48 for C. sativa, from 0.75 for Z. mays to 1.01 for H. annus regarding to zinc, and the copper EF value ranged from 0.39 for C. sativa to 1.42 in H. annus. Although H. annus and C. sativa accumulated lead more than Z. mays and B. napus, none of the plants was hyperaccumulator for lead, zinc or copper.]]>
p. 49−65
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p. 67−75
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p. 77−92
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0.05). The vermicompost inoculants could significantly (P<0.05) increase zinc and iron contents of shoots by 114 and 53.6%, respectively in comparison to the control treatment. Orthogonal comparisons of the two methods of seed and soil inoculation showed the efficiency of seed inoculation on shoot phosphorus at 5% level, but no significant difference was observed between these two methods for other measured characteristics (P>0.05).]]>
p. 93−107
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