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111.
Background, Aims and Scope Phytoremediation is a promising means for the treatment of heavy metal contamination. Although several species have been identified
as hyperaccumulators, most studies have been conducted with only one metal. Experiments were conducted to investigate the
ability of Helianthus annuus and Thlaspi caerulescens to simultaneously uptake Cd, Cr and Ni.
Materials and Methods The efficiency of plants grown in a sandy-loam soil was investigated. The ability of two EDTA concentrations (0.1 and 0.3
g kg−1) for enhancing the phytoremediation of Cd, Cr and Ni at two different metal concentrations (24.75 mg kg−1 and 90 mg kg−1) was studied.
Results
Thlaspi hyperaccumulated Ni with 0.1 g kg−1 EDTA. When the EDTA dosage was increased to 0.3 g kg−1, Thlaspi was able to hyperaccumulate both Ni and Cr. Since Thlaspi is a low-biomass plant, it was considered insufficient for full-scale applications. Helianthus annuus hyperacummulated Cr (with 0.1 g kg−1 EDTA) and Cd (0.3 g kg−1 EDTA).
Discussion When the contamination was 8.25 mg kg−1 per metal, the total metal uptake was 10–25% (1.35 to 2.12 mg) higher and had the same uptake selectivity (Cr>>Cd>Ni) for
both EDTA levels. It was hypothesized that complexation with EDTA interfered with Ni translocation. For these experiments,
the optimal results were obtained with the H. annuus-0.1 g kg−1 EDTA combination.
Conclusions Although the use of EDTA did increase the amount of metal that could be extracted, care should be taken during in-situ field
applications. Chelators can also increase the amount of metals that are leached past the root zone. Metal leaching and subsequent
migration could lead to ground water contamination as well as lead to new soil contamination.
Recommendations and Perspectives Additional research to identify the optimal EDTA dosage for field applications is warranted. This is necessary to ensure that
the metals do not leach past the root zone.
Identification of a plant that can hyperaccumulate multiple metals is critical for phytoremediation to be a viable remediation
alternative. In addition to being able to hyperaccumulate multiple metals, the optimal plant must be fast growing with sufficient
biomass to sequester the heavy metals. 相似文献
112.
Distribution of thiobacillus ferrooxidans and leptospirillum ferrooxidans: implications for generation of acid mine drainage 总被引:1,自引:0,他引:1
MO Schrenk KJ Edwards RM Goodman RJ Hamers JF Banfield 《Science (New York, N.Y.)》1998,279(5356):1519-1522
Although Thiobacillus ferrooxidans and Leptospirillum ferrooxidans are widely considered to be the microorganisms that control the rate of generation of acid mine drainage, little is known about their natural distribution and abundance. Fluorescence in situ hybridization studies showed that at Iron Mountain, California, T. ferrooxidans occurs in peripheral slime-based communities (at pH over 1.3 and temperature under 30 degreesC) but not in important subsurface acid-forming environments (pH 0.3 to 0.7, temperature 30 degrees to 50 degreesC). Leptospirillum ferrooxidans is abundant in slimes and as a planktonic organism in environments with lower pH. Thiobacillus ferrooxidans affects the precipitation of ferric iron solids but plays a limited role in acid generation, and neither species controls direct catalysis at low pH at this site. 相似文献