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Original Articles

Short‐Term Effect of Lime, Phosphorus, and Iron Amendments on Water‐Extractable Lead and Arsenic in Orchard Soils

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Pages 903-919 | Received 11 Feb 2005, Accepted 15 Mar 2006, Published online: 24 Apr 2007

References

  • Aten , C. F. , Bourke , J. B. , Martini , J. H. and Walton , J. C. 1980 . Arsenic and lead in an orchard environment . Bull. Environ. Contamin. Toxicol. , 24 : 108 – 115 .
  • Bassuk , N. L. 1986 . Reducing lead uptake by lettuce . Hort. Sci. , 21 ( 4 ) : 992 – 995 .
  • Brown , S. , Chaney , R.L. , Hallfrisch , J. , Ryan , J.A. and Berti , W. R. 2004 . In situ treatments to reduce the phyto‐ and bioavailability of lead, zinc and cadmium . J. Environ. Qual. , 33 : 522 – 531 .
  • Chan , C. Y. and Sadana , S. R. 1992 . Determination of arsenic and selenium in environmental samples by flow‐injection hydride generation atomic absorption spectrometry . Anal. Chim. Acta. , 270 : 231 – 238 .
  • Chaney , R. L. , Malik , M. , Li , Y. M. , Brown , S. L. , Brewer , E. P. , Angle , J. S. and Baker , A. J. 1997 . Phytoremediation of soil metals . Environmental Biotechonol. , 8 : 279 – 284 .
  • Chaney , R. L. and Ryan , A. J. 1994 . Risk Based Standards for Arsenic, Lead and Cadmium in Urban Soils Frankfurt, , Germany : DECHEMA .
  • Cox , W. J. and Rains , D. W. 1972 . Effect of lime on lead uptake by five plant species . J. Environ. Qual. , 1 : 167 – 169 .
  • Dao , T. H. 2003 . Competitive anion sorption effects on dairy wastewater dissolved phosphorus extraction with zeolite‐based sorbents . J. Food. Agric. Environ. , 1 : 263 – 269 .
  • Davenport , J. R. and Peryea , F. J. 1991 . Phosphorus fertilizer influence leaching of lead and arsenic in soil contaminated with lead arsenate . Water Air Soil Pollut. , 57 : 101 – 110 .
  • Elfving , D. C. , Wilson , K. R. , Ebel , J. G. Jr. , Manzell , K. L. , Gutemann , W. H. and Lisk , D. J. 1994 . Migration of lead and arsenic in old orchard soils in the Georgian Bay region of Ontario . Chemosphere , 29 : 407 – 413 .
  • Gee , G. W. and Bauder , J. W. 1986 . “ Particle‐size analysis ” . In Methods of Soil Analysis, Part 1 Edited by: Klute , A. 383 – 411 . Madison, Wisco. : Amer. Soc. Agron. .
  • Hardiman , R. T. , Banin , A. and Jacoby , B. 1984 . The effect of soil type and degree of metal contamination upon uptake of Cd, Pb and Zn in bush bean (Phaseolus vulgaris L.) . Plant Soil. , 31 : 3 – 15 .
  • John , M. K. and Van Learhoven , C. 1972 . Lead uptake by lettuce and oats as affected by lime, nitrogen and source lead . J. Environ. Qual. , 1 : 169 – 171 .
  • Kalbasi , M. , Peryea , F. J. , Lindsay , W. L. and Drake , S. R. 1995 . Measurement of divalent lead activity in lead arsenate contaminated soils . Soil Sci. Soc. Am. J. , 59 : 1274 – 1280 .
  • Kuo , S. 1996 . “ Phosphorus ” . In Methods of Soil Analysis, Part 3 Edited by: Sparks , D. L. 869 – 919 . Madison, Wisc. : SSSA Book Series. 5, SSSA .
  • Ma , Q. Y. , Traina , S. J. , Logan , W. L. and Ryan , J. A. 1993 . In situ lead immobilization by apatite . Environ. Sci. Technol. , 27 : 1803 – 1810 .
  • Marin , A. R. , Masschelyn , P. H. and Patrick , W. H. Jr. 1992 . The influence of chemical form and concentration of arsenic species on rice growth and tissue arsenic concentration . Plant Soil , 139 : 175 – 183 .
  • McLean , E. O. 1982 . “ Soil pH and lime requirement ” . In Methods of Soil Analysis, Part 2 , 2nd edn. Edited by: Page , A. L. , Miller , R. H. and Keeney , D. R. 199 – 214 . Madison, Wisco. : Agron. Monogr. 9. SSSA .
  • Moore , M. R. 1985 . Influence of acid rain upon water plumbosolvency . Environ. Health Perspect. , 63 : 121 – 126 .
  • Nriagu , O. 1974 . Lead orthophosphate, IV: Formation and stability in the environment . Geochem. Cosmo. Acta. , 38 : 887 – 898 .
  • Peryea , F. J. 1998 . Phosphate starter fertilizer temporarily enhances soil arsenic uptake by apple trees grown under field condition . Hort. Sci. , 33 : 826 – 829 .
  • Peryea , F. J. and Kammerec , R. 1997 . Phosphate enhanced movement of arsenic out of lead arsenate contaminated topsoil and through uncontaminated subsoil . Water Air Soil Pollut. , 93 : 243 – 254 .
  • Peryea , F. J. and Creger , T. L. 1995 . Vertical distribution of lead and arsenic in soils contaminated with lead arsenate pesticide residue . Water Air Soil Pollut. , 79 : 1 – 10 .
  • Peryea , F. J. 1991 . Phosphate induced release of arsenic from soil contaminated with lead arsenate . Soil Sci. Soc. Am. J. , 5 : 1301 – 1306 .
  • Peryea , F. J. 1989 . “ Leaching of lead and arsenic in soils contaminated with lead arsenate pesticide residue ” . In Report to State of Washington Water Res. Center Pullman : Washington State University . (Project A‐158 WASH)
  • Ruby , M. V. , Davis , A. and Nicholson , A. 1994 . In situ formation of lead phosphate in soils as a method to immobilize lead . Environ. Sci. Technol. , 28 : 646 – 654 .
  • Sauve , S. , McBride , M. and Hendershot , W. 1998 . Lead phosphate solubility in water and soil suspensions . Environ. Sci. Technol. , 32 : 388 – 393 .
  • SAS Institute . 2000 . SAS/STAT User's Guide, Release 8.0 , ed. Cary, N.C : SAS Institute .
  • Shepard , H. H. 1951 . The Chemistry and Action of Insecticide , 1st edn NewYork : McGraw‐Hill .
  • Steel , R. G.D. and Torrie , J. H. 1980 . “ Duncan's new multiple range test ” . In Principle and Procedures of Statistics 187 – 188 . New York : McGraw‐Hill .
  • Turpeinen , R. , Salminen , J. and Kairesalo , T. 2000 . Mobility and bioavailability of lead in contaminated Boreal forest soil . Environ. Sci. Technol. , 34 : 5152 – 5156 .
  • U.S. Environmental Protection Agency. (2003) Arsenic compounds 107‐02‐8, 2003 Available at epa.gov/ttn/atw/hlthef/arsenic.html
  • Vaneman , P. L.M. , Murray , J. R. and Baker , J. H. 1983 . Spatial distribution of pesticide residues in a former apple orchard . J. Environ. Qual. , 12 : 101 – 104 .
  • Wang , E. X. and Benoit , G. 1996 . Mechanisms controlling the mobility of lead in the spodosols of a northern hardwood forest . Environ. Sci. Technol. , 30 : 2211 – 2219 .
  • Wauchope , R. D. 1975 . Fixation of arsenical herbicides, phosphate and arsenate in soils . J. Environ Qual. , 4 : 355 – 358 .
  • Woolson , E. A. 1972 . Arsenic phytotoxicity and uptake in six vegetable crops . Weed Sci. , 21 : 524 – 527 .
  • Woolson , E. A. , Axley , J. H. and Kearney , P. C. 1971 . The chemistry and phytotoxicity of arsenic in soils, I: Contaminated field soils . Soil Sci. Soc Amer. Proc. , 35 : 938 – 943 .
  • Xu , H. , Allard , B. and Grimvall , A. 1991 . Effect of acidification and natural organic materials on the mobility of arsenic in the environment . Water Air Soil Pollut. , 57–58 : 269 – 278 .
  • Yan‐Chu , H. 1994 . “ Arsenic distribution in soils ” . In Arsenic in the Environment, Part 1 Edited by: Nriagu , J. O. 17 – 49 . New York : John Wiley and Sons .

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