Heavy metals extractability in a soil amended with sewage sludge

Marchi, Giuliano; Guilherme, Luiz Roberto Guimarães; Chang, Andrew C.; Nascimento, Clístenes Williams Araújo do

doi:10.1590/s0103-90162009000500009

Cited by 14 publications

(7 citation statements)

References 21 publications

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“…He and Singh (1993) assigned increased extractability of Cd by DTPA to decrease in pH caused by decomposition of sludge-borne organic matter. Among seven extractants (DTPA, Mehlich-I, NH 4 OAc, and four organic acid mixtures) studied by Marchi et al (2009), DTPA presented a high extractability of Cd and Ni as well as the highest rates of extraction in a soil amended with sewage sludge. Despite higher total Cr levels than the total Pb levels in the experimental sludge, the extractability of Cr by DTPA was much lower than that of Pb at all rates of sludge application.…”

Section: Dtpa-extractable Heavy Metalsmentioning

confidence: 98%

Heavy Metal Phytotoxicity to Radish (Raphanus sativus L.) in a Digested Sludge-amended Gangetic Alluvium

Bhat¹,

Kirmani²,

Agrawal³

et al. 2011

Soil and Sediment Contamination: An International Journal

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A limiting factor in land application of sewage sludge is the resultant heavy metal accumulation in soils followed by biomagnification in the food chain, posing a potential hazard to animal and human health. In view of this fact, pot experiments were conducted to evaluate the effect of digested sludge application to soil on phytotoxicity of heavy metals such as Cd, Cr, Ni, and Pb to radish (Raphanus sativus L.) plants. Increasing sludge levels resulted in increased levels of DTPA-extractable heavy metals in the soil. Cadmium was the dominant metal extracted by DTPA followed by Ni, Pb, and Cr. The extractability of metals by DTPA tended to decrease from the first to the second crop. Dry matter yield of radish increased significantly as a function of increasing sludge treatments. Soil application of sludge raised the concentration of one or more heavy metals in plants. Shoots contained higher concentrations of Cd, Cr, and Ni than the roots of radish plants. Shoot concentrations of Cd, Cr, Ni, and Pb were within the tolerance levels of this crop at all rates of sludge application. Shoot as well as root concentration of Cd was above 0.5 mg kg −1 , considered toxic for human and animal consumption. The levels of DTPA-extractable Cd and Ni were less correlated while those of Cr and Pb were more correlated with their respective shoot and root contents. The results emphasize that accumulation of potentially toxic heavy metals in soil and their build-up in vegetable crops should not be ignored when sludge is applied as an amendment to land.

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Section: Dtpa-extractable Heavy Metalsmentioning

confidence: 98%

Heavy Metal Phytotoxicity to Radish (Raphanus sativus L.) in a Digested Sludge-amended Gangetic Alluvium

Bhat¹,

Kirmani²,

Agrawal³

et al. 2011

Soil and Sediment Contamination: An International Journal

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show abstract

“…While there are numerous studies that deal with sorption capacity of biochars for heavy metals when applied to soil in light of phytoremediation perspective (Cao et al, 2009;Namgay et al, 2010;Uchimiya et al, 2011), studies regarding on leachability (through desorption or dissolution) of heavy metals from biochar and their bioavailability are virtually nonexistent. The heavy metals, however, are known to be desorbed by naturally occurring organic acids such as citric, oxalic, acetic, and lactic acids (Nascimento, 2006;Marchi, 2009) and dissolved organic carbon (Antoniadis & Alloway, 2002) from soils amended with sewage sludge. Regardless of equilibrium amounts of Cd adsorbed in an Andisol, more than 80% of Cd was desorbed with one time extraction with citric acid if its concentration was more than 0.1 M, and more than 90% was recovered if five soil pore volumes of 0.1 M citric acid were continuously run through the Cd-contaminated soil (Abe et al, 2004).…”

Section: Heavy Metal Leachability From Biocharmentioning

confidence: 99%

Leachability and Vegetable Absorption of Heavy Metals from Sewage Sludge Biochar

Yachigo¹,

Sato²

2013

Soil Processes and Current Trends in Quality Assessment

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“…Marchi et al [81] compared the amount of elements extracted from biosolids-amended soils by four organic acid mixtures that mimic the compositions of organic acids in the rhizosphere and three reagents commonly used for trace element extraction, namely DTPA-TEA [73], Mehlich-I [77], and ammonium acetate [82]. They showed that the one-time extraction did not remove all of the extractable elements in the soils.…”

Section: Source Assessmentmentioning

confidence: 99%