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International Journal of Phytoremediation Volume 14, 2012 - Issue 7
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Original Articles

Chemically Enhanced Phytoextraction of Lead-Contaminated Soils

V. Ryan Perry Department of Biology, Georgia State University, Atlanta, Georgia, USA
,
Eirik J. Krogstad Department of Geosciences, Georgia State University, Atlanta, Georgia, USA
,
Hanan El-Mayas Department of Biology, Georgia State University, Atlanta, Georgia, USA
&
Sigurdur Greipsson Department of Biology and Physics, Kennesaw State University, Kennesaw, Georgia, USA
Pages 703-713 | Published online: 23 Apr 2012

REFERENCES

  • Anderson , S , Chappelka , A H , Flynn , K M and Odom , J W . 2000 . Lead accumulation in Quercus nigra and Q. velutina near smelting facilities in Alabama, U.S.A . Water Air Soil Pollut. , 118 : 1 – 11 .
  • Arienzo , M , Adamo , P and Cozzolino , V . 2004 . The potential of Lolium perenne for revegetation of contaminated soil from a metallurgical site . Sci Total Environ. , 319 : 13 – 25 .
  • Audet , P and Charest , C . 2006 . Heavy metal phytoremediation from a meta-analytical perspective . Environ Pollut. , 147 ( 1 ) : 231 – 237 .
  • Blaylock , M J , Salt , D E , Dushenkov , S , Zakharova , O , Gussman , C , Kapulnik , Y , Ensley , B D and Raskin , I . 1997 . Enhanced accumulation of Pb in Indian mustard by soil-applied chelating agents . Environ Sci Technol. , 31 : 860 – 865 .
  • Chen , X , Wu , C , Tang , J and Hu , S . 2005 . Arbuscular mycorrhizae enhance metal lead uptake and growth of host plants under a sand culture experiment . Chemosphere. , 60 : 665 – 671 .
  • Duo , L , Gao , Y and Zhao , S . 2005 . Heavy metal accumulation of urban domestic rubbish compost in turfgrass by EDTA chelating . J Environ Sci. , 7 ( 5 ) : 813 – 816 .
  • Elles , M P and Blaylock , M J . 2000 . Amendment optimization to enhance lead extractability from contaminated soils for phytoremediation . Int J Phytorem. , 2 ( 1 ) : 75 – 89 .
  • Grcman , H , Velikonja-Bolta , S , Vodnik , D , Kos , B and Lestan , D . 2001 . EDTA enhanced heavy metal phytoextraction: metal accumulation, leaching and toxicity . Plant Soil. , 235 : 105 – 114 .
  • Greipsson , S , Tay , C F , Whatley , A and King , C . 2012 . Sharp decline in lead contamination away from a smelter in Pike County Alabama . Env. Geochem. Health , In press
  • Harrison , M J . 1997 . “ The arbuscular mycorrhizal symbiosis. In: Plant-microbe interactions, Stacey G and Keen NT, eds. London: ” . Chapman & Hall. p. 1–34 .
  • Harrison , R M and Laxen , D PH . 1984 . “ Lead pollution: causes and control ” . London , , UK : Chapman and Hall. p. 1–168 .
  • Heggo , A , Angle , J S and Chaney , R L . 1990 . Effects of vesicular-arbuscular mycorrhizal fungi on heavy metal uptake by soybeans . Soil Biol Biochem. , 22 ( 6 ) : 865 – 869 .
  • Hildebrandt , U , Kaldorf , M and Bothe , H . 1999 . The zinc violet and its colonization by arbuscular mycorrhizal fungi . J Plant Physiol. , 154 : 709 – 717 .
  • Hovsepyan , A and Greipsson , S . 2004 . Effect of arbuscular mycorrhizal fungi on phytoextraction by corn (Zea mays) of lead contaminated soil . Int J Phytorem. , 6 ( 4 ) : 305 – 321 .
  • Hovsepyan , A and Greipsson , S . 2005 . EDTA-enhanced phytoremediation of lead contaminated soil by corn . J Plant Nutr. , 28 ( 12 ) : 2037 – 2048 .
  • Huang , J W , Chen , J , Berti , W R and Cunningham , S D . 1997 . Phytoremediation of lead-contaminated soils: role of synthetic chelates in lead phytoextraction . Environ Sci Technol. , 31 : 800 – 805 .
  • Jankong , P and Visoottiviseth , P . 2008 . Effects of arbuscular mycorrhizal inoculation on plants growing on arsenic contaminated soil . Chemosphere , 72 ( 7 ) : 1092 – 1097 .
  • Johnson-Green , P C , Kenkel , N C and Booth , T . 1995 . The distribution and phenology of arbuscular mycorrhizae along an inland salinity gradient . Can J Bot. , 73 : 1318 – 1327 .
  • Kahiluoto , H and Vestberg , M . 2000 . Creation of a non-mycorrhizal control for a bioassay of AM effectiveness. 1. Comparison of methods . Mycorrhiza , 9 : 259 – 270 .
  • Khan , A G , Kuek , C , Chaudhry , T M , Khoo , C S and Hayes , W J . 2000 . Role of plants, mycorrhizae and phytochelators in heavy metal contaminated land remediation . Chemosphere. , 41 : 197 – 207 .
  • Kirkham , MB. 2000 . EDTA-facilitated phytoremediation of soil with heavy metals from sewage sludge . Int J Phytorem. , 2 : 159 – 172 .
  • Komarek , M , Tlustos , P , Szakova , J , Chrastany , V and Ettler , V . 2007 . The use of maize and poplar in chelant-enhanced phytoextraction of lead from contaminated agricultural soils . Chemosphere. , 67 : 640 – 651 .
  • Kos , B and Lestan , D . 2003 . Influence of a biodegradable ([S,S]-EDDS) and nondegradable (EDTA) chelate and hydrogel modified soil water sorption capacity on Pb phytoextraction and leaching . Plant Soil. , 253 ( 2 ) : 403 – 411 .
  • Lanphear , B P , Hornung , R , Khoury , J , Yolton , K , Baghurst , P , Bellinger , D C , Canfield , R L , Dietrich , K N , Bornschein , R , Greene , T , Rothenberg , S J , Needleman , H L , Schnaas , L , Wasserman , G , Graziano , J and Roberts , R . 2005 . Low-level environmental lead exposure and children's intellectual function: an international pooled analysis . Environ Health Perspect. , 113 ( 7 ) : 894 – 899 .
  • Lasat , M. 2002 . Phytoextraction of toxic metals: a review of biological mechanisms . J Environ Qual. , 31 : 109 – 120 .
  • Leyval , C , Turnau , K and Haselwandter , K . 1997 . Effect of heavy metal pollution on mycorrhizal colonization and function: physiological, ecological and applied aspects . Mycorrhiza. , 7 : 139 – 153 .
  • Lin , D and Zhou , Q . 2009 . Effects of soil amendments on the extractability and speciation of cadmium, lead, and copper in a contaminated soil . Bull Environ Contam Toxicol. , 83 : 136 – 140 .
  • Liu , A , Hamel , C , Hamilton , R I , Ma , B L and Smith , D L . 2000 . Acquisition of Cu, Zn, Mn, and Fe by mycorrhyzal maize grown in soil at different P and micronutrient levels . Mycorrhiza. , 9 : 331 – 336 .
  • Luo , C , Shen , Z and Lin , X . 2005 . Enhanced phytoextraction of Cu, Pb, Zn and Cd with EDTA and EDDS . Chemosphere. , 59 ( 1 ) : 1 – 11 .
  • Luo , C , Shen , Z , Lou , L and Li , X . 2006 . EDDS and EDTA-enhanced phytoextraction of metals from artificially contaminated soil and residual effects of chelant compounds . Environ Pollut , 144 : 862 – 871 .
  • Malcova , R , Vosatka , M and Gryndler , M . 2003 . Effects of inoculation with Glomus intraradices on lead uptake by Zea mays L. and Agrostis capillaries L . Appl Soil Ecol. , 646 : 1 – 13 .
  • Mbila , M O and Thompson , M L . 2004 . Plant-available zinc and lead in mine spoils and soils at the mines of Spain, Iowa . J Environ Qual. , 33 ( 2 ) : 553 – 558 .
  • Mertens , J , Luyssaert , S and Verheyen , K . 2005 . Use and abuse of trace metal concentrations in plant tissue for biomonitoring and phytoextraction . Environ Pollut. , 138 : 1 – 4 .
  • Neugschwandtner , R W , Tlustoš , P , Komárek , M and Száková , J . 2008 . Phytoextraction of Pb and Cd from a contaminated agricultural soil using different EDTA application regimes: laboratory versus field scale measures of efficiency . Geoderma. , 144 ( 3/4 ) : 446 – 454 .
  • Pawlowska , T E , Chaney , R L , Chin , M and Charavat , I . 2000 . Effects of metal phytoextraction practices on the indigenous community of arbuscular mycorrhizal fungi at a metal-contaminated landfill . Appl Environ Microbiol. , 66 ( 6 ) : 2526 – 2530 .
  • Pereira , B , Abreu , C , Romeiro , S , Lagoa , A and Paz-Gonzales , A . 2007 . Pb phytoextraction by maise in Pb-EDTA treated Oxisol . Scientia Agricola. , 64 : 1
  • Phillips , J M and Hayman , D S . 1970 . Improved procedures for clearing roots and staining parasitic and vesicular-arbuscular mycorrhizal fungi for rapid assessment of infection . Trans Br Mycol Soc. , 55 : 158 – 161 .
  • Pilon-Smits , EAH. 2005 . Phytoremediation . Ann Rev Plant Sci. , 56 : 15 – 39 .
  • Rydlova , J and Vosatka , M . 2003 . Effect of Glomus intraradices isolated from Pb contaminated soil on Pb uptake by Agrostis capillaries is changed by its cultivation in metal-free substrate . Folia Geobot. , 38 : 155 – 165 .
  • Salt , D E , Smith , R D and Raskin , I . 1998 . Phytoremediation . Plant Mol Biol. , 49 : 643 – 668 .
  • Smith , S E and Read , D J . 2008 . “ Mycorrhizal symbiosis ” . 145 – 188 . London , , UK : Academic Press, Ltd. p. .
  • Sudova , R , Jurkiewicz , A , Turnau , K and Vosatka , M . 2007a . Persistence of heavy metal tolerance of the arbuscular mycorrhizal fungus Glomus intraradices under different cultivation regime . Symbiosis , 43 : 71 – 81 .
  • Sudova , R , Pavlikova , D , Macek , T and Vosatka , M . 2007b . The effects of EDDS chelate and inoculation with the arbuscular mycorrhizal fungus Gloum intraradices on the efficacy of lead phytoextraction by two tobacco clones . Appl Soil Ecol. , 35 : 163 – 173 .
  • Sun , Y , Zhou , Q , An , J , Liu , W and Liu , R . 2009 . Chelator-enhanced phytoextraction of heavy metals from contaminated soil irrigated by industrial wastewater with hyperaccumulator plant (Sedum alfredii Hance) . Geoderma. , 150 : 106 – 112 .
  • Usman , A RA and Mohamed , H M . 2009 . Effect of microbial inoculation and EDTA on the uptake and translocation of heavy metal by corn and sunflower . Chemosphere. , 76 ( 7 ) : 893 – 899 .
  • Van der Heijden , MGA , Klironomos , JN , Ursic , M , Moutoglis , P , Streitwolf-Engel , R , Boller , T , Wiemken , A and Sanders , IR . 1998 . Mycorrhizal fungal diversity determines plant biodiversity, ecosystem variability and productivity . Nature , 396 : 69 – 72 .
  • Vandenhove , H and Van Hees , M . 2004 . Phytoextraction for clean-up of low-level uranium contaminated soil evaluated . J Environ Radioact. , 72 : 41 – 45 .
  • Vogel-Mikus , K , Drobne , D and Regvar , M . 2005 . Zn, Cd, and Pb accumulation and arbuscular mycorrhizal colonization of pennygrass Thlaspi praecox Wulf. (Brassicaceae) from the vicinity of a lead mine and smelter in Slovenia . Environ Pollut. , 133 ( 2 ) : 233 – 242 .
  • Wang , G , Koopmans , G , Song , J , Temminghoff , E , Luo , Y , Zhao , Q and Japenga , J . 2007 . Mobilization of heavy metals from contaminated paddy soil by EDDS, EDTA, and elemental sulfur. Environ . Geochem Health. , 29 : 221 – 235 .
  • Wang , J , Ren , H , Liu , J , Yu , J and Zhang , X . 2006 . Distribution of lead in urban soil and its potential risk in Shenyang City, China . Chinese Geogr Sci. , 16 ( 2 ) : 127 – 132 .
  • Wang , X , Wang , Y , Mahmood , Q , Islam , E , Jin , X , Li , T and Liu , D . 2009 . The effect of EDDS addition on the phytoextraction efficiency from Pb contaminated soil by Sedum alfredii Hance . J Hazard Mater. , 168 : 530 – 535 .
  • Wenzel , R , Unterbrunner , P , Sommer , P and Sacco , P . 2003 . Chelate-assisted phytoextraction using canola (Brassica napus L.) in outdoors pot and lysimeter experiments . Plant Soil. , 249 : 83 – 96 .

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