Impacts of Phosphate Amendments on Lead Biogeochemistry at a Contaminated Site

Cao, Xinde; Lena, Q.; Chi, Ming; Singh, Satya Pal; Harris, Willie G.

doi:10.1021/es020697j

Cited by 243 publications

(141 citation statements)

References 33 publications

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“…For example, upon phosphate treatment from 5% to 10%, cerussite was reduced from 1.7% to 0.1%, whereas PbHPO 4 was increased from 0.2% to 3.4% (see Table 2). Note, many of previous studies have shown in situ or ex situ formation of most stable pyromorphite-like minerals (Pb 5 (PO 4 ) 3 X, X=Cl, OH, F) in the contaminated soils upon phosphate addition (Laperche et al 1997, Zhang & Ryan 1999, Cao et al 2002, Scheckel & Ryan 2004. However, pyromorphite-like minerals were not identified in the present study.…”

Section: Phosphate Treatmentmentioning

confidence: 98%

“…Chemical-based S/S approach is based on the formation of thermodynamically stable and insoluble precipitate end-products with the contaminants. More effective chemical additives include phosphates and Fe-Mn oxides (Ma et al 1995, Hettiarachchi et al 2000, Basta et al 2001, Seaman et al 2001, Cao et al 2002. Phosphate has been proven to be effective in immobilizing Pb from labile soil Pb forms via formation of lead phosphate compounds such as pyromorphite-like minerals (Pb 5 (PO 4 ) 3 X, X=F, Cl, OH) by scavenging Pb from soluble Pb compounds such as cerussite (PbCO 3 ) and litharge (PbO) (Zhang & Ryan 1999, Cao et al 2002, Scheckel & Ryan 2004.…”

Section: Introductionmentioning

confidence: 99%

“…More effective chemical additives include phosphates and Fe-Mn oxides (Ma et al 1995, Hettiarachchi et al 2000, Basta et al 2001, Seaman et al 2001, Cao et al 2002. Phosphate has been proven to be effective in immobilizing Pb from labile soil Pb forms via formation of lead phosphate compounds such as pyromorphite-like minerals (Pb 5 (PO 4 ) 3 X, X=F, Cl, OH) by scavenging Pb from soluble Pb compounds such as cerussite (PbCO 3 ) and litharge (PbO) (Zhang & Ryan 1999, Cao et al 2002, Scheckel & Ryan 2004. Field application of this stabilization method was demonstrated at an abandoned battery recycling site by Cao et al (2002) who found that phosphate rock significantly reduced leachability and phytoavailability of Pb due to formation of hydroxypyromorphite (Pb 5 (PO 4 ) 3 OH).…”

Section: Introductionmentioning

confidence: 99%

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Immobilization of lead in shooting range soils by means of cement, quicklime, and phosphate amendments

Cao

Dermatas

et al. 2007

Environ Sci Pollut Res

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Section: Phosphate Treatmentmentioning

confidence: 98%

Section: Introductionmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

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Immobilization of lead in shooting range soils by means of cement, quicklime, and phosphate amendments

Cao

Dermatas

et al. 2007

Environ Sci Pollut Res

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“…Phosphate in soil may affect the chemical reactions of metals on mineral surfaces. Recent studies (Traina and Laperche, 1999;Cao et al, 2002) indicated that phosphate minerals, such as apatite, could sequester heavy metals, metalloids and radionuclide through adsorption and/or the formation of secondary PO 3À 4 precipitates, which remained stable under a wide range of geochemical conditions. Therefore, it is necessary to examine the influence of phosphate on the reactions of heavy metals on the surface of soil minerals.…”

Section: Introductionmentioning

confidence: 99%

Effect of phosphate on the adsorption of Cu and Cd on natural hematite

Zhang

Jiang

et al. 2006

Chemosphere

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Interactions between anions and cations are important to understand the chemical processes of pollutants in environment. In this study, batch experiments were carried out to investigate the simultaneous adsorption of Cu and Cd on hematite as affected by phosphate. Phosphate pretreatment suppressed the maximum adsorption of Cu and Cd on hematite and moved the adsorption pH edges to a higher pH range. Phosphate application time had a marked impact on Cu and Cd adsorption and longer contact time resulted in more reduction of Cu and Cd adsorption. Results of backtitration, Fourier transform infrared (FTIR) spectroscopy study and ionic strength effect on the adsorption revealed that Cu and Cd were adsorbed on hematite mainly through the inner-sphere complex formation mechanism and phosphate treatment reduced the inner-sphere adsorption sites, thus decreasing Cu and Cd adsorption on hematite.

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“…Phosphate minerals, i.e. phosphate rock (PR) and hydroxyapatite, have been shown to effectively immobilize Pb from various contam inated waters and soils (Cao et al, 2002;Ma et al, 1995;Ryan et al, 2001). Takeuchi and Arai (1990) suggested that Pb immobilization resulted from the formation of a more stable lead phosphate, such as Ca (10-x) Pb x (PO 4 ) 6 (OH) 2 via an ion exchange mechanism where aqueous Pb replaces Ca on the hydroxyapatite lattice.…”

Section: Introductionmentioning

confidence: 99%

Mechanisms of lead, copper, and zinc retention by phosphate rock

Cao

2004

Environmental Pollution

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''Capsule'': Phosphate-induced formation of fluoropyromorphite is primarily responsible for Pb immobilization by phosphate rock, whereas Cu and Zn retention is mainly attributable to the surface adsorption or complexation. AbstractThe solideliquid interface reaction between phosphate rock (PR) and metals (Pb, Cu, and Zn) was studied. Phosphate rock has the highest affinity for Pb, followed by Cu and Zn, with sorption capacities of 138, 114, and 83.2 mmol/kg PR, respectively. In the PbeCueZn ternary system, competitive metal sorption occurred with sorption capacity reduction of 15.2%, 48.3%, and 75.6% for Pb, Cu, and Zn, respectively compared to the mono-metal systems. A fractional factorial design showed the interfering effect in the order of Pb O Cu O Zn. Desorption of Cu and Zn was sensitive to pH change, increasing with pH decline, whereas Pb desorption was decreased with a strongly acidic TCLP extracting solution (pH ¼ 2:93). The greatest stability of Pb retention by PR can be attributed to the formation of insoluble fluoropyromorphite [Pb 10 (PO 4 ) 6 F 2 ], which was primarily responsible for Pb immobilization (up to 78.3%), with less contribution from the surface adsorption or complexation (21.7%), compared to 74.5% for Cu and 95.7% for Zn. Solution pH reduction during metal retention and flow calorimetry analysis both supported the hypothesis of retention of Pb, Cu, and Zn by surface adsorption or complexation. Flow calorimetry indicated that Pb and Cu adsorption onto PR was exothermic, while Zn sorption was endothermic. Our research demonstrated that PR can effectively remove Pb from solutions, even in the presence of other heavy metals (e.g. Cu, Zn).

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Impacts of Phosphate Amendments on Lead Biogeochemistry at a Contaminated Site

Cited by 243 publications

References 33 publications

Immobilization of lead in shooting range soils by means of cement, quicklime, and phosphate amendments

Immobilization of lead in shooting range soils by means of cement, quicklime, and phosphate amendments

Effect of phosphate on the adsorption of Cu and Cd on natural hematite

Mechanisms of lead, copper, and zinc retention by phosphate rock

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