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Similar articles for PubMed (Select 24183621)

1.

Speciation and phytoavailability of lead and antimony in a small arms range soil amended with mussel shell, cow bone and biochar: EXAFS spectroscopy and chemical extractions.

Ahmad M, Lee SS, Lim JE, Lee SE, Cho JS, Moon DH, Hashimoto Y, Ok YS.

Chemosphere. 2014 Jan;95:433-41. doi: 10.1016/j.chemosphere.2013.09.077. Epub 2013 Oct 30.

PMID:
24183621
2.

Effects of soil dilution and amendments (mussel shell, cow bone, and biochar) on Pb availability and phytotoxicity in military shooting range soil.

Ahmad M, Soo Lee S, Yang JE, Ro HM, Han Lee Y, Sik Ok Y.

Ecotoxicol Environ Saf. 2012 May;79:225-31. doi: 10.1016/j.ecoenv.2012.01.003. Epub 2012 Jan 21.

PMID:
22266035
3.

EXAFS speciation and phytoavailability of Pb in a contaminated soil amended with compost and gypsum.

Hashimoto Y, Yamaguchi N, Takaoka M, Shiota K.

Sci Total Environ. 2011 Feb 1;409(5):1001-7. doi: 10.1016/j.scitotenv.2010.11.018. Epub 2010 Dec 13.

PMID:
21146856
4.
5.

The effect of phosphate application on the mobility of antimony in firing range soils.

Griggs CS, Martin WA, Larson SL, O'Connnor G, Fabian G, Zynda G, Mackie D.

Sci Total Environ. 2011 May 15;409(12):2397-403. doi: 10.1016/j.scitotenv.2011.02.043. Epub 2011 Mar 26.

PMID:
21440928
6.

Immobilization of lead in contaminated firing range soil using biochar.

Moon DH, Park JW, Chang YY, Ok YS, Lee SS, Ahmad M, Koutsospyros A, Park JH, Baek K.

Environ Sci Pollut Res Int. 2013 Dec;20(12):8464-71. doi: 10.1007/s11356-013-1964-7. Epub 2013 Jul 16.

PMID:
23856742
7.

Incomplete transformations of Pb to pyromorphite by phosphate-induced immobilization investigated by X-ray absorption fine structure (XAFS) spectroscopy.

Hashimoto Y, Takaoka M, Oshita K, Tanida H.

Chemosphere. 2009 Jul;76(5):616-22. doi: 10.1016/j.chemosphere.2009.04.049. Epub 2009 May 24.

PMID:
19467557
8.

Biochar- and phosphate-induced immobilization of heavy metals in contaminated soil and water: implication on simultaneous remediation of contaminated soil and groundwater.

Liang Y, Cao X, Zhao L, Arellano E.

Environ Sci Pollut Res Int. 2014 Mar;21(6):4665-74. doi: 10.1007/s11356-013-2423-1. Epub 2013 Dec 19.

PMID:
24352548
9.

The role of biochar, natural iron oxides, and nanomaterials as soil amendments for immobilizing metals in shooting range soil.

Rajapaksha AU, Ahmad M, Vithanage M, Kim KR, Chang JY, Lee SS, Ok YS.

Environ Geochem Health. 2015 Mar 21. [Epub ahead of print]

PMID:
25794596
10.

Lead retention by broiler litter biochars in small arms range soil: impact of pyrolysis temperature.

Uchimiya M, Bannon DI, Wartelle LH, Lima IM, Klasson KT.

J Agric Food Chem. 2012 May 23;60(20):5035-44. doi: 10.1021/jf300825n. Epub 2012 May 10.

PMID:
22548418
11.

Evaluation of different amendments to stabilize antimony in mining polluted soils.

Álvarez-Ayuso E, Otones V, Murciego A, García-Sánchez A.

Chemosphere. 2013 Feb;90(8):2233-9. doi: 10.1016/j.chemosphere.2012.09.086. Epub 2012 Oct 31.

PMID:
23121985
12.

Solubility of lead and copper in biochar-amended small arms range soils: influence of soil organic carbon and pH.

Uchimiya M, Bannon DI.

J Agric Food Chem. 2013 Aug 14;61(32):7679-88. doi: 10.1021/jf401481x. Epub 2013 Aug 1.

PMID:
23869882
13.

Impacts of chemical amendment and plant growth on lead speciation and enzyme activities in a shooting range soil: an x-ray absorption fine structure investigation.

Hashimoto Y, Matsufuru H, Takaoka M, Tanida H, Sato T.

J Environ Qual. 2009 May 20;38(4):1420-8. doi: 10.2134/jeq2008.0427. Print 2009 Jul-Aug.

PMID:
19465717
14.

Potential negative consequences of adding phosphorus-based fertilizers to immobilize lead in soil.

Kilgour DW, Moseley RB, Barnett MO, Savage KS, Jardine PM.

J Environ Qual. 2008 Aug 8;37(5):1733-40. doi: 10.2134/jeq2007.0409. Print 2008 Sep-Oct.

PMID:
18689734
15.

In situ formation of pyromorphite is not required for the reduction of in vivo pb relative bioavailability in contaminated soils.

Juhasz AL, Gancarz D, Herde C, McClure S, Scheckel KG, Smith E.

Environ Sci Technol. 2014 Jun 17;48(12):7002-9. doi: 10.1021/es500994u. Epub 2014 May 30.

PMID:
24823360
16.

Using biochar for remediation of soils contaminated with heavy metals and organic pollutants.

Zhang X, Wang H, He L, Lu K, Sarmah A, Li J, Bolan NS, Pei J, Huang H.

Environ Sci Pollut Res Int. 2013 Dec;20(12):8472-83. doi: 10.1007/s11356-013-1659-0. Epub 2013 Apr 16. Review.

PMID:
23589248
17.

Simultaneous immobilization of lead and atrazine in contaminated soils using dairy-manure biochar.

Cao X, Ma L, Liang Y, Gao B, Harris W.

Environ Sci Technol. 2011 Jun 1;45(11):4884-9. doi: 10.1021/es103752u. Epub 2011 May 4.

PMID:
21542567
18.

Immobilization of lead in a Korean military shooting range soil using eggshell waste: an integrated mechanistic approach.

Ahmad M, Hashimoto Y, Moon DH, Lee SS, Ok YS.

J Hazard Mater. 2012 Mar 30;209-210:392-401. doi: 10.1016/j.jhazmat.2012.01.047. Epub 2012 Jan 23.

PMID:
22309654
19.

Comparative value of phosphate sources on the immobilization of lead, and leaching of lead and phosphorus in lead contaminated soils.

Park JH, Bolan N, Megharaj M, Naidu R.

Sci Total Environ. 2011 Jan 15;409(4):853-60. doi: 10.1016/j.scitotenv.2010.11.003. Epub 2010 Dec 4.

PMID:
21130488
20.

Ecotoxicity of chemically stabilised metal(loid)s in shooting range soils.

Sanderson P, Naidu R, Bolan N.

Ecotoxicol Environ Saf. 2014 Feb;100:201-8. doi: 10.1016/j.ecoenv.2013.11.003. Epub 2013 Nov 25.

PMID:
24287010
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