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Bioavailability and Uptake of Lead by Coffeeweed ( Sesbania exaltata Raf.)

Author

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  • Gloria Miller

    (Plant Physiology/Microbiology Laboratory, Department of Biology, P.O. Box 18540, College of Science, Engineering and Technology, Jackson State University, 1000 Lynch Street, Jackson, Mississippi 39217, USA)

  • Gregorio Begonia

    (Plant Physiology/Microbiology Laboratory, Department of Biology, P.O. Box 18540, College of Science, Engineering and Technology, Jackson State University, 1000 Lynch Street, Jackson, Mississippi 39217, USA)

  • Maria Begonia

    (Plant Physiology/Microbiology Laboratory, Department of Biology, P.O. Box 18540, College of Science, Engineering and Technology, Jackson State University, 1000 Lynch Street, Jackson, Mississippi 39217, USA)

  • Jennifer Ntoni

    (Plant Physiology/Microbiology Laboratory, Department of Biology, P.O. Box 18540, College of Science, Engineering and Technology, Jackson State University, 1000 Lynch Street, Jackson, Mississippi 39217, USA)

Abstract

Lead (Pb) is recognized as one of the most pervasive environmental health concerns in the industrialized world. While there has been a substantial reduction in the use of Pb in gasoline, water pipes, and Pb-based residential paint, residual Pb from their use is still in the environment and constitutes an important source of Pb in the atmosphere, water, and soil. Soil acts as a sink for these anthropogenic sources of Pb, accumulating the deposits over time in the upper 2 - 5 cm of undisturbed soil. Generally, Pb binds strongly to soil particles and renders a significant soil-metal fraction insoluble and largely unavailable for phytoremediation or plant uptake. A major objective of current phytoremediation research, therefore, is to induce desorption of Pb from the soil matrix into solution and increase the propensity for plant uptake. We hypothesized that the bioavailability of Pb for plant uptake can be increased through chelate amendments. To test this hypothesis, we mixed delta top soil and peat (2:1) and added lead nitrate [Pb (NO3)2] to generate a Pb-contaminated soil concentration of 2000 mg Pb/kg dry soil. After incubating the Pb-spiked soil in a greenhouse for 6 weeks, Sesbania plants were grown in the soil and harvested at 6, 8, and 10 weeks after emergence. Six days before each harvest, a chelating agent, ethylenediaminetetraacetic acid (EDTA) was applied to the root zone as an aqueous solution in a 1:1 ratio with the Pb concentration in the soil. Sequential extraction procedures were used to assess selective chemical fractions of Pb in the soil. Our results showed that a higher exchangeable fraction of Pb was available for plant uptake after chelate amendment compared to pre-chelate amendment. We also saw higher root and shoot Pb uptake after chelate amendment compared to pre-chelate amendment, especially at 10 weeks after emergence. Together, these results suggest that chelate amendments can promote the bioavailability of Pb in the soil and increased the propensity for uptake by plants into roots and shoots. Further, these results indicate that Sesbania exaltata can be grown under elevated Pb conditions and may be suitable as a potential crop rotation species for phytoextraction.

Suggested Citation

  • Gloria Miller & Gregorio Begonia & Maria Begonia & Jennifer Ntoni, 2008. "Bioavailability and Uptake of Lead by Coffeeweed ( Sesbania exaltata Raf.)," IJERPH, MDPI, vol. 5(5), pages 1-5, December.
  • Handle: RePEc:gam:jijerp:v:5:y:2008:i:5:p:436-440:d:3769
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    References listed on IDEAS

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    1. Gloria Miller & Gregorio Begonia & Maria Begonia & Jennifer Ntoni & Oscar Hundley, 2008. "Assessment of the Efficacy of Chelate-Assisted Phytoextraction of Lead by Coffeeweed ( Sesbania exaltata Raf.)," IJERPH, MDPI, vol. 5(5), pages 1-8, December.
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    Cited by:

    1. Renying Li & Zhigao Zhou & Xiaojin Xie & Yingxue Li & Yaohong Zhang & Xianghua Xu, 2016. "Effects of Dissolved Organic Matter on Uptake and Translocation of Lead in Brassica chinensis and Potential Health Risk of Pb," IJERPH, MDPI, vol. 13(7), pages 1-11, July.
    2. Ling Ding & Jianbing Li & Wei Liu & Qingqing Zuo & Shu-xuan Liang, 2017. "Influence of Nano-Hydroxyapatite on the Metal Bioavailability, Plant Metal Accumulation and Root Exudates of Ryegrass for Phytoremediation in Lead-Polluted Soil," IJERPH, MDPI, vol. 14(5), pages 1-9, May.

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