Abstract
ABSTRACT Growth responses to phosphorus (P) and iron (Fe) are commonly assessed based on element concentrations to which plants are exposed. Such data offer little insight about responses to the concentration of P and Fe actually accumulated in plants. In this study, soybean (Glycine max Merr., cv. ‘Biloxi’) was grown on nutrient solutions to induce varying P and Fe concentrations in plant tissues. Leaf P and Fe concentrations were correlated at lower concentrations. However, under high P treatments there was an apparent excess of accumulated P based on plant response. These results were interpreted to indicate that these plants could accumulate P in excess of the amount required for normal physiological activity. There appeared to be no excess accumulation of Fe so that correlations between leaf Fe concentration and leaf area and plant mass were significant for all data. Root mass did not correlate significantly with either leaf P or Fe concentration.
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