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Critical Reviews in Environmental Science and Technology Volume 42, 2012 - Issue 7
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Original Articles

Phytoremediation of Metal-Polluted Soils by Arbuscular Mycorrhizal Fungi

Sebastián Meier Scientific and Technological Nucleus of Bioresources, Departamento de Ciencias Químicas, Universidad de la Frontera, Temuco, Chile
,
Fernando Borie Scientific and Technological Nucleus of Bioresources, Departamento de Ciencias Químicas, Universidad de la Frontera, Temuco, Chile
,
Nanthi Bolan University of South Australia, Adelaide, Australia
&
Pablo Cornejo Scientific and Technological Nucleus of Bioresources, Departamento de Ciencias Químicas, Universidad de la Frontera, Temuco, Chile
Pages 741-775 | Published online: 27 Jan 2012

REFERENCES

  • Adel , R. and Hashem , M. 2009 . Effect of microbial inoculation and EDTA on the uptake and translocation of heavy metal by corn and sunflower . Chemosphere , 76 : 893 – 899 .
  • Adriano , D. C. 2001 . Trace elements in terrestrial environments: Biogeochemistry, bioavailability, and risk of metals , New York , NY : Springer-Verlag .
  • Adriano , D. C. , Wenzel , W. , Vangronsveld , J. and Bolan , N. 2004 . Role of assisted natural remediation in environmental cleanup . Geoderma , 122 : 121 – 142 .
  • Agerer , R. 2001 . Exploration types of ectomycorrhizae. A proposal to classify ectomycorrhizal mycelial systems according to their patterns of differentiation and putative ecological importance . Mycorrhiza , 11 : 107 – 114 .
  • Ahalya , N. , Ramachandra , T. and Kanamadi , R. 2003 . Biosorption of heavy metals . Res. J. Chem. Environ. , 7 : 71 – 78 .
  • Akthar , M. , Sastry , K. and Mohan , P. 1996 . Mechanism of metal ion biosorption by fungal biomass . BioMetals , 9 : 21 – 28 .
  • Allen , M. 1996 . The ecology of arbuscular mycorrhizas: A look back into the 20th century and a peek into the 21st . Mycol. Res. , 100 : 769 – 782 .
  • Andrade , S. A.L. , Silveira , A. P.D. and Mazzafera , P. 2010 . Arbuscular mycorrhiza alters metal uptake and the physiological response of Coffea Arabica to increasing Zn and Cu concentrations in soil . Sci. Total Environ , 408 : 5381 – 5391 .
  • Audet , P. and Charest , C. 2006 . Effects of AM colonization on ‘wild tobacco’ plants grown in zinc-contaminated soil . Mycorrhiza , 16 : 277 – 283 .
  • Azcón-Aguilar , C. , Bago , B. and Barea , J. 1999 . “ Saprophytic growth of arbuscular mycorrhizal fungi ” . In Mycorrhiza: Structure, function, molecular biology and biotechnology , Edited by: Varma , A. and Hock , B. 399 – 408 . Heidelberg , , Germany : Springer-Verlag .
  • Bago , B. , Azcón-Aguilar , C. , Shachar-Hill , Y. and Pfeffer , P. 2000 . “ El micelio externo de la micorriza arbuscular como puente simbiótico entre la raíz y su entorno ” . In Ecología, fisiología y biotecnología de la micorriza arbuscular , Edited by: Alarcón , A. and Ferrera-Cerrato , R. Montecillo , , México : Colegio de Postgraduados, Ediciones Mundi Prensa .
  • Bago , B. and Bécard , G. 2002 . “ Bases of the obligate biotrophy of arbuscular mycorrhizal fungi ” . In Mycorrhizal technology in agriculture: From genes to bioproduct , Edited by: Gianinazzi , S. , Schüepp , H. , Barea , J. M. and Haselwandter , K. 296 – 297 . Basel , , Switzerland : Birkäuser Verlag .
  • Bai , J. , Lin , X. , Yin , R. , Zhang , H. , Junhua , W. , Xueming , Ch. and Yongming , L. 2008 . The influence of arbuscular mycorrhizal fungi on As and P uptake by maize (Zea mays L.) from As-contaminated soils . Appl. Soil. Ecol. , 38 : 137 – 145 .
  • Baker , A. J.M. 1987 . Metal tolerance . New Phytol , 106 : 93 – 111 .
  • Baker , A. J.M. 2000 . “ Metal hyperaccumulator plants: a review of the biological resource for possible exploitation in the phytoremediation of metal-polluted soils ” . In Phytoremediation of contaminated soil and water , Edited by: Bañeulos , T. 85 – 107 . Boca Raton , Florida : CRC Press .
  • Baligar , V. and Fageria , N. 1997 . “ Nutrient use efficiency in acid soils: nutrient management and plant use efficiency ” . In Plant-soil interactions at low pH: Sustainable agriculture and forestry production Moniz , Edited by: Furlani , A. , Schaffert , R. , Fageria , N. , Rosolem , C. and Cantarella , H. 75 – 95 . Campinas , , Brazil : Brazilian Soil Science Society .
  • Barceló , J. and Poschenrieder , C. 2003 . Phytoremediation: Principles and perspectives . Contrib. Sci. , 2 : 333 – 344 .
  • Barea , J. M. , Azcón-Aguilar , C. and Azcón , R. 1987 . VA mycorrhiza improve both symbiotic N2-fixation and N uptake from soil as assessed with a 15N technique under field conditions . New Phytol , 106 : 717 – 721 .
  • Barea , J. M. , Azcón , R. and Azcón-Aguilar , C. 2002 . Mycorrhizosphere interactions to improve plant fitness and soil quality . Anton. Leeuw. Int. J G. , 81 : 343 – 351 .
  • Barona , A. , Aranguiz , I. and Elias , A. 2001 . Metal associations in soils before and after EDTA extractive decontamination: implications for the effectiveness of further clean-up procedures . Environ. Pollut. , 113 : 79 – 85 .
  • Bhainsa , K. and D'Souza , S. 2008 . Removal of copper ions by the filamentous fungus, Rhizopus oryzae from aqueous solution . Bioresource Technol. , 99 : 3829 – 3835 .
  • Bi , Y. , Li , X. , Christie , P. , Hu , Z. and Wong , M. 2003 . Growth and nutrient uptake of arbuscular mycorrlizal maize in different depths of soil overlying coal fly ash . Chemosphere , 50 : 863 – 869 .
  • Bolan , N. 1991 . A critical review on the effect of mycorrhizal fungi on the uptake of phosphorus by plants . Plant Soil , 134 : 189 – 207 .
  • Bolan , N. , Adriano , D. , Duraisamy , P. and Mani , A. 2003 . Immobilization and phytoavailability of cadmium in variable charge soil. Effect of phosphate addition . Plant Soil , 250 : 83 – 94 .
  • Bolan , N. , Khan , M. , Tillman , R. , Naidu , R. and Syers , J. 1999 . The effects of anion sorption on sorption and leaching of cadmium . Aust. J. Soil Res. , 37 : 455 – 460 .
  • Bolan , N. , Ko , B. , Anderson , C. , Vogeler , I. , Mahimairaja , S. and Naidu , R. 2008 . Manipulating bioavailability to manage remediation of metal-contaminated soils . Develop. Soil Sci. , 32 : 657 – 678 .
  • Borie , F. and Rubio , R. 1999 . Effects of arbuscular mycorrhizae and liming on growth and mineral acquisition of aluminum-tolerant and aluminum-sensitive barley cultivars . J. Plant. Nutr. , 199 : 121 – 137 .
  • Borie , F. , Rubio , R. , Morales , A. and Castillo , C. 2000 . Relationships between arbuscular mycorrhizal hyphal density and glomalin production with physical and chemical characteristics of soils under no-tillage . Rev Chil. Hist. Nat. , 73 : 749 – 756 .
  • Bruins , M. , Kapil , S. and Oehme , F. 2000 . Microbial resistance to metals in the environment . Ecotox. Environ. Safe. , 45 : 198 – 207 .
  • Brundrett , M. , Ashwath , N. and Jasper , D. 1996 . Mycorrhizas in Kadau region of tropical Australia. II. Propagules of mycorrhizal fungi in disturbed habitats . Plant Soil , 184 : 173 – 184 .
  • Burkert , B. and Robson , A. 1994 . 65Zn uptake in subterranean clover (Trifolium subterraneum L.) by three vesicular arbuscular mycorrhizal fungi in a root free sandy soil . Soil Biol. Biochem. , 26 : 1117 – 1124 .
  • Caesar-Tonthat , T. , van Ommen Kloeke , F. , Geesey , G. and Henson , J. 1995 . Melanin production by a filamentous soil fungus in response to copper and localization of copper sulfide by sulfide-silver staining . Appl. Environ. Microbiol. , 61 : 1968 – 1975 .
  • Carvalho , L. , Caçador , I. and Martinis-Loução , M. 2006 . Arbuscular mycorrhizal fungi enhance root cadmium and copper accumulation in the roots of the salt marsh plant Aster tripolium L . Plant Soil , 285 : 161 – 169 .
  • Chaney , R. L. , Malik , M. , Li , Y. M. , Brown , S. L. , Brewer , E. P. , Angle , J. S. and Baker , A. J.M. 1997 . Phytoremediation of soil metals . Curr. Opin. Biotech. , 8 : 279 – 284 .
  • 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 .
  • Chen , Y. X. , Lin , Q. , Luo , Y. M. , He , Y. F. , Zhen , S. J. , Yu , Y. L. , Tian , G. M. and Wong , M. H. 2003 . The role of citric acid on the phytoremediation of heavy metal contaminated soil . Chemosphere , 50 : 807 – 811 .
  • Chern , E. C. , Tsai , D. W. and Ogunseitan , O. A. 2007 . Deposition of glomalin-related soil protein and sequestered toxic metals into watersheds . Environ. Sci. Technol. , 41 : 3566 – 72 .
  • Citterio , S. , Prato , N. , Fumagalli , P. , Massa , N. , Santagostino , A. , Sgorbati , S. and Berta , G. 2005 . The arbuscular mycorrhizal fungus Glomus mosseae induces growth and metal accumulation changes in Cannabis sativa L . Chemosphere , 59 : 21 – 29 .
  • Clemens , S. 2001 . Molecular mechanisms of plant tolerance and homeostasis . Planta , 212 : 475 – 486 .
  • Cobbett , C. and Goldsbrough , P. 2002 . Phytochelatins and metallothioneins: roles in heavy metal detoxification and homeostasis . Annu. Rev. Plant. Biol. , 53 : 159 – 182 .
  • Cornejo , P. , Meier , S. , Borie , G. , Rillig , M. and Borie , F. 2008 . Glomalin-related soil protein in a Mediterranean ecosystem affected by a copper smelter and its contribution to Cu and Zn sequestration . Sci. Total Environ. , 406 : 154 – 160 .
  • Da Silva , S. , Siqueira , J. and Fonsêca , C. 2006 . Mycorrhizal fungi influence on brachiariagrass growth and heavy metal extraction in a contaminated soil . Pesqui. Agropecu. Bras. , 41 : 1749 – 1757 .
  • Da Silva , S. , Trufem , S. , Saggin , O. and Maia , L. 2003 . Arbuscular mycorrhizal fungi in a semiarid copper mining area in Brazil . Mycorrhiza , 15 : 47 – 53 .
  • Davies , F. T. , Puryear , J. D. , Newton , R. J. , Egilla , J. N. and Saraiva Grossi , J. A. 2001 . Mycorrhizal fungi enhance accumulation and tolerance of chromium in sunflower (Helianthus annuus) . J. Plant. Physiol. , 158 : 777 – 786 .
  • De la Iglesia , R. , Castro , D. , Ginocchio , R. , van der Lelie , D. and González , B. 2006 . Factors influencing the composition of bacterial communities found at abandoned copper-tailings dumps . J. Appl. Microbiol. , 100 : 537 – 544 .
  • Del Val , C. , Barea , J. M. and Azcón-Aguilar , C. 1999 . Diversity of arbuscular mycorrhizal fungus population in heavy-metal contaminated soils . Appl. Environ. Microbiol. , 65 : 718 – 723 .
  • DeMars , B. and Boerner , R. 1996 . Vesicular arbuscular mycorrhizal development in the Brassicaceae in relation to plant life span . Flora , 191 : 179 – 189 .
  • Denton , B. 2007 . Advances in phytoremediation of heavy metals using plant growth promoting bacteria and fungi . Basic Biotechnol , 3 : 1 – 5 .
  • Díaz , D. and Honrubia , M. 1993 . Notes on Glomales from Spanish semiarid lands . Nova Hedwigia , 57 : 159 – 168 .
  • Díaz , G. , Azcón-Aguilar , C. and Hornubia , M. 1996 . Influence of arbuscular mycorrhizae on heavy metal (Zn and Pb) uptake and growth of Lygeum spartum and Anthyllis cystoides . Plant Soil , 180 : 241 – 249 .
  • Dietz , A. and Schnoor , J. 2001 . Advances in phytoremediation . Environ. Health Persp. , 109 : 163 – 168 .
  • Duffus , J. H. 2002 . Heavy metals a meaningless term? . Pure Appl. Chem. , 74 : 793 – 807 .
  • Dushenkov , V. , Kumar , P. , Motto , H. and Raskin , I. 1995 . Rhizofiltration: the use of plants to remove heavy metals from aqueous streams . Environ. Sci. Technol. , 29 : 1239 – 1245 .
  • Ebbs , S. and Kochian , L. 1998 . Phytoextraction of zinc by oat (Avena sativa), barley (Hordeum vulgare) and Indian mustard (Brassica juncea) . Environ. Sci. Technol , 32 : 802 – 806 .
  • Edvantoro , B. , Naidu , R. , Megharaj , M. and Singleton , I. 2003 . Changes in microbial properties associated with long-term arsenic and DDT contaminated soils at disused cattle dip sites . Ecotox. Environ. Safe. , 55 : 344 – 351 .
  • Elless , P. , Poynton , Y. , Williams , A. , Doyle , P. , Lopez , C. and Sokkary , D. 2005 . Pilot-scale demonstration of phytofiltration for drinking arsenic in New Mexico drinking water . Water Res , 39 : 3863 – 3872 .
  • Ellis , R. , Morgan , P. and Weightman , A. 2003 . Cultivation dependent and independent approaches for determining bacterial diversity in heavy-metal-contaminated soil . Appl. Environ. Microbiol. , 69 : 3223 – 3230 .
  • Ernst , W. , Verkleij , J. and Schat , H. 1992 . Metal tolerance in plants . Acta Bot. Neerl. , 41 : 229 – 248 .
  • Ferrol , N. , González Guerrero , M. , Valderas , A. , Benabdellah , K. and Azcón-Aguilar , C. 2009 . Survival strategies of arbuscular mycorrhizal fungi in Cu-polluted environments . Phytochem. Rev. , 8 : 551 – 559 .
  • Fischerová , Z. , Tlustos , P. , Száková , J. and Sichorová , K. 2006 . A comparison of phytoremediation capability of selected plant species for given trace elements . Environ. Pollut. , 144 : 93 – 100 .
  • Fitter , A. 1985 . Functioning of vesicular-arbuscular mycorrhizas under field conditions . New Phytol , 99 : 257 – 265 .
  • Frankenberger , W. T. and Karlson . 1995 . Volatilization of selenium from adewatered seleniferous sediment: A field study . J. Ind. Microbiol. , 14 : 226 – 232 .
  • Fred , T. , Davies , F. , Puryear , J. , Newton , R. , Egilla , J. and Saraiva-Grossi , J. 2001 . Mycorrhizal fungi enhance accumulation and tolerance of chromium in sunflower (Helianthus annuus) . J. Plant Physiol. , 158 : 777 – 786 .
  • Frey , B. and Schüepp , H. 1993 . Acquisition of nitrogen by external hyphae of arbuscular mycorrhizal fungi associated with Zea mays L . New Phytol. , 124 : 221 – 230 .
  • Gadd , G. M. 1986 . “ The responses of fungi towards heavy metals ” . In Microbes in extreme environments , Edited by: Herbert , R. A. and Codd , G. A. 83 – 110 . London , , England : Academic Press .
  • Gadd , G. M. 1993 . Interaction of fungi with toxic metals . New Phytol. , 124 : 25 – 60 .
  • Gadd , G. M. 1996 . “ Metal tolerance ” . In Microbiology of extreme environments , Edited by: Edwards , C. 178 – 210 . London , , England : Open University Press .
  • Gadkar , V. and Rillig , M. 2006 . The arbuscular mycorrhizal fungal protein glomalin is a putative 16 homolog of heat shock protein 60 . FEMS Microbiol. Lett. , 263 : 93 – 101 .
  • Gaur , A. and Adholeya , A. 2004 . Prospects of arbuscular mycorrhizal fungi in phytoremediation of heavy metal contaminated soils . Current Sci , 86 : 528 – 534 .
  • Giasson , P. , Jaouich , A. , Gagné , S. and Moutoglis , P. 2005 . Arbuscular mycorrhizal fungi involvement in zinc and cadmium speciation change and phytoaccumulation . Remediation , 15 : 75 – 81 .
  • Gildon , A. and Tinker , P. 1983 . Interactions of vesicular arbuscular mycorrhizal infection and heavy metals in plants. 1. The effects of heavy metals on the development of vesicular-arbuscular mycorrhizas . New Phytol. , 95 : 247 – 261 .
  • Giller , K. , Witter , E. and McGrath , S. 1998 . Toxicity of heavy metals to microorganisms and microbial processes in agricultural soil: A review . Soil Biol. Biochem. , 30 : 1389 – 1414 .
  • Ginocchio , R. 2000 . Effects of a copper smelter on a grassland community in the Puchuncavi Valley, Chile . Chemosphere , 41 : 15 – 23 .
  • Ginocchio , R. and Baker , A. 2004 . Metallophytes in Latin America: a remarkable biological and genetic resource scarcely known and studied in the region . Rev. Chil. Hist. Nat. , 77 : 185 – 194 .
  • Ginocchio , R. , Carvallo , G. , Toro , I. , Bustamante , E. , Silva , Y. and Sepúlveda , N. 2004 . Micro-spatial variation of soil metal pollution and plant recruitment near a copper smelter in Central Chile . Environ. Pollut. , 127 : 343 – 352 .
  • Glass , D. J. 1999 . U.S., and international markets for phytoremediation , Needham , MA : Glass Associates .
  • Göhre , V. and Paszkowski , U. 2006 . Contribution of the arbuscular mycorrhizal symbiosis to heavy metal phytoremediation . Planta , 223 : 1115 – 1122 .
  • González-Chávez , C. , D'Haen , J. , Vangronsveld , J. and Dodd , J. 2002a . Copper sorption and accumulation by the extraradical mycelium of different Glomus spp. (arbuscular mycorrhizal fungi) isolated from the same polluted soil . Plant Soil , 240 : 287 – 297 .
  • González-Chávez , C. , Harris , P. , Dodd , J. and Meharg , A. 2002b . Arbuscular mycorrhizal fungi confer enhanced arsenate resistance on Holcus lanatus . New Phytol. , 155 : 163 – 171 .
  • González-Chávez , M. C. , Carrillo-González , R. , Wright , S. and Nichols , K. 2004 . The role of glomalin, a protein produced by arbuscular mycorrhizal fungi, in sequestering potentially toxic elements . Environ. Pollut. , 130 : 317 – 323 .
  • González-Chávez , M. C. , Carrillo-González , R. and Gutíerrez-Castorena , M. C. 2009 . Natural attenuation in a slag heap contaminated with cadmium: The role of plants and arbuscular mycorrhizal fungi . J. Hazard. Mater. , 161 : 1288 – 1298 .
  • González-Guerrero , M. , Azcón-Aguilar , C. and Ferrol , N. Paper presented at the 5th International Conference on Mycorrhiza, “Mycorrhiza for science and society . Granada , Spain. GintABC1 and GintMT1 are involved in Cu and Cd homeostasis in Glomus intraradices ,
  • González-Guerrero , M. , Azcón-Aguilar , C. , Mooney , M. , Valderas , A. , MacDiarmid , C. W. , Eide , D. J. and Ferrol , N. 2005 . Characterization of a Glomus intraradices gene encoding a putative Zn transporter of the cation diffusion facilitator family . Fungal Genet. Biol , 42 : 130 – 140 .
  • González-Guerrero , M. , Benabdellah , K. , Ferrol , N. and Aguilar , C. 2009 . “ Mechanisms underlying heavy metal tolerance in arbuscular mycorrhizas ” . In Mycorrhizas: functional processes and ecological impact , Edited by: Azcón-Aguilar , C. , Barea , J. M. , Gianinazzi , S. and Gianinazzi-Pearson , V. 107 – 122 . Berlin , , Germany : Springer .
  • González-Guerrero , M. , Cano , C. , Azcón-Aguilar , C. and Ferrol , N. 2007 . GintMT1 encodes a functional metallothionein in Glomus intraradices that responds to oxidative stress . Mycorrhiza , 17 : 327 – 335 .
  • González-Guerrero , M. , Melville , L. , Ferrol , N. , Lott , J. , Azcón-Aguilar , C. and Peterson , R. 2008 . Ultrastructural localization of heavy metals in the extraradical mycelium and spores of the arbuscular mycorrhizal fungus Glomus intraradices . Can. J. Microbiol. , 54 : 103 – 110 .
  • Gray , C. W. , McLaren , R. G. and Roberts , A. H.C. 2003 . Atmospheric accessions of heavy metals to some New Zealand pastoral soils . Sci. Total Environ. , 305 : 165 – 115 .
  • Guibaud , G. , Bordas , F. , Saaid , A. , D'abzac , P. and Hullebusch , E. 2008 . Effect of pH on cadmium and lead binding by extracellular polymeric substances (EPS) extracted from environmental bacterial strains . Colloid Surface B , 63 : 48 – 54 .
  • Hall , J. L. 2002 . Cellular mechanisms for heavy metal detoxification and tolerance . J. Exp. Bot. , 53 : 1 – 11 .
  • Haq , F. , Mahoney , M. and Koropatnick , J. 2003 . Signaling events for metallothionein induction . Mutat. Res. , 533 : 211 – 226 .
  • Hasegawa , I. , Terada , E. , Sunairi , M. , Wakita , H. , Shinmachi , F. , Noguchi , A. , Nakajima , M. and Yazaki , J. 1997 . Genetic improvement of heavy metal tolerance in plants by transfer of the yeast metallothionein gene (CUP1) . Plant Soil , 196 : 277 – 281 .
  • Haselwandter , K. and Bowen , G. 1996 . Mycorrhizal relations in trees for agroforestry and land rehabilitation . Forest. Ecol. Manage. , 81 : 1 – 17 .
  • Hepper , C. and Smith , G. 1976 . Observations on the germination of Endogone spores . Transactions Brit. Mycol. Soc. , 66 : 189 – 194 .
  • Hildebrandt , U. , Kaldorf , M. and Bothe , H. 1999 . The zinc violer and its colonization by arbuscular mycorrhizal fungi . J. Plant. Physiol. , 154 : 709 – 717 .
  • Hildebrandt , U. , Regvar , M. and Bothe , H. 2007 . Arbuscular mycorrhiza and heavy metal tolerance . Phytochemistry , 68 : 139 – 146 .
  • Hinde , C. 2000 . The global mining industry in Mining and sustainable development. II. Challenges and perspectives. Industry and environment , Nairobi , , Kenya : United Nations Environment Programme .
  • Hirrel , M. , Mehravaran , H. and Gerdemann , J. 1978 . Vesicular arbuscular mycorrhizae in the Chenopodiaceae and Cruciferae: do they occur? . Can. J. Bot. , 56 : 2813 – 2817 .
  • Hodson , M. 2004 . Heavy metals-geochemical bogey men? . Environ. Pollut. , 129 : 341 – 343 .
  • Horne , A. 2000 . “ Phytoremediation by constructed wetlands ” . In Phytoremediation of contaminated soil and water , Edited by: Bañeulos , T. 13 – 40 . Boca Raton , FL : CRC Press .
  • Huang , C. and Huang , C. 1996 . Application of Aspergillus oryzae and Rhizopus oryzae for Cu(II) removal . Water Res. , 30 : 985 – 1990 .
  • Huang , J. and Cunningham , S. 1996 . Lead phytoextraction: Species variation in lead uptake and translocation . New Phytol. , 134 : 75 – 84 .
  • Huising , D. 1974 . Heavy metals: Implications for agriculture . Annu. Rev. Phytopathol. , 12 : 375 – 388 .
  • Jakobsen , I. , Abbott , L. and Robson , A. 1991 . External hyphae of vesicular-arbuscular mycorrhizal fungi associated with Trifolium subterraneum L . New Phytol. , 120 : 509 – 516 .
  • Janousková , M. , Pavlíková , D. , Macek , T. and Vosátka , M. 2005 . Arbuscular mycorrhiza decreases cadmium phytoextraction by transgenic tobacco with inserted metallothionein . Plant Soil , 272 : 29 – 40 .
  • Janousková , M. , Pavlíková , D. and Vosátka , M. 2006 . Potential contribution of arbuscular mycorrhiza to cadmium immobilisation in soil . Chemosphere , 65 : 1959 – 1965 .
  • Javot , H. , Pumplin , N. and Harrison , J. 2007 . Phosphate in the arbuscular mycorrhizal symbiosis: Transport properties and regulatory roles . Plant Cell Environ , 30 : 310 – 322 .
  • Jeffries , P. , Gianinazzi , S. , Perotto , S. , Turnau , K. and Barea , J. M. 2003 . The contribution of arbuscular mycorrhizal fungi in sustainable maintenance of plant health and soil fertility . Biol. Fert. Soils , 37 : 1 – 16 .
  • Ji , G. , Yang , Y. , Zhou , Q. , Sun , T. and Ni , J. 2004 . Phytodegradation of extra heavy oil-based drill cuttings using mature reed wetland: an in situ pilot study . Environ. Int. , 30 : 509 – 517 .
  • Joho , M. , Inouhe , M. , Tohoyama , H. and Murayama , T. 1995 . Nickel resistance in yeast and other fungi . J. Ind. Microbiol. , 14 : 64 – 168 .
  • Joner , E. , Briones , R. and Leyval , C. 2000 . Metal-binding capacity of arbuscular mycorrhizal mycelium . Plant Soil , 226 : 227 – 234 .
  • Joner , E. and Leyval , C. 1997 . Uptake of 109Cd by roots and hyphae of a Glomus mosseae/Trifolium subterraneum mycorrhiza from soil amended with high and low concentrations of cadmium . New Phytol. , 135 : 353 – 360 .
  • Joner , E. and Leyval , C. 2001 . Time-course of heavy metal uptake in maize and clover as affected by root density and different mycorrhizal inoculation regimes . Biol. Fert. Soils , 33 : 351 – 357 .
  • Kabata-Pendias , A. 1992 . “ Trace metals in Soils of Poland Occurrence and Behavior ” . In Trace substances in environmental health XXV , Edited by: Beck , B. D. 53 – 144 . Columbia , MO : University of Missouri Press .
  • Kaldorf , M. , Kuhn , A. , Schröder , W. , Hildebrandt , U. and Bothe , H. 1999 . Selective element deposits in maize colonized by a heavy-metal tolerance conferring arbuscular mycorrhizal fungus . J. Plant Physiol. , 154 : 718 – 728 .
  • Kernaghan , C. 2005 . Mycorrhizal diversity: Cause and effect? . Pedobiologia , 49 : 511 – 520 .
  • Khan , A. G. 2005 . Role of soil microbes in the rhizospheres of plants growing on trace metal contaminated soils in phytoremediation . J. Trace Elem. Med. Biol. , 18 : 355 – 364 .
  • 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 .
  • Kojima , Y. 1991 . Definitions and nomenclature of metallothioneins . Method. Enzymol. , 205 : 8 – 10 .
  • Kumar , P. , Dushenkov , V. , Motto , H. and Rasakin , I. 1994 . Phytoextraction: the use of plants to remove heavy metals from soils . Environ. Sci. Technol. , 29 : 1232 – 1238 .
  • Lanfranco , L. , Bolchi , A. , Ros , E. , Ottonello , S. and Bonfante , P. 2002 . Differential expression of a metallothionein gene during the presymbiotic versus the symbiotic phase of an arbuscular mycorrhizal fungus . Plant Physiol , 130 : 58 – 67 .
  • Lasat , M. 2001 . The uses of plants for removal of toxic metal from contaminated soil , Washington , DC : U.S. Environmental Protection Agency .
  • Ledin , M. 2000 . Accumulation of metals by microorganism's processes and importance for soil systems . Earth-Sci. Rev. , 51 : 1 – 31 .
  • Leung , H. , Ye , Z. and Wong , M. 2006 . Interactions of mycorrhizal fungi with Pteris vittata (As hyperaccumulator) in As-contaminated soils . Environ. Pollut. , 139 : 1 – 8 .
  • Lewandowski , I. , Schmidt , U. , Londo , M. and Faaij , A. 2006 . The economic value of the phytoremediation function assessed by the example of cadmium remediation by willow (Salix ssp) . Agr. Syst. , 89 : 68 – 89 .
  • Leyval , C. , Joner , E. , del Val , C. and Haselbandter , K. 2002 . “ Potential of arbuscular mycorrhizal fungi for bioremediation. Mycorrhiza technology ” . In Agriculture, from genes to bioproducts , Edited by: Gianinazzi , S. , Schüepp , H. , Barea , J. M. and Haselwandter , K. 175 – 186 . Basel , , Switzerland : Birkäuser Verlag .
  • Leyval , C. , Singh , B. and Joner , E. 1995 . Occurrence and infectivity of arbuscular mycorrhizal fungi in some Norwegian soils influenced by heavy metals and soil properties . Water Air Soil Poll. , 84 : 203 – 216 .
  • 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 .
  • Leyval , C. and Weissenhorn , I. 1996 . “ Tolerance to metals of arbuscular mycorrhizal fungi from heavy metal polluted soils. A summary of results ” . In Mycorrhizae in integrated systems: From genes to plant development , Edited by: Azcón-Aguilar , C. and Barea , J. M. 452 – 454 . Brussels , , Belgium : European Commission .
  • Li , Y. , Chaney , R. , Brewer , E. , Roseberg , R. , Angle , J. , Baker , A. , Reeves , R. and Nelkin , J. 2003 . Development of a technology for commercial phytoextraction of nickel: Economic and technical considerations . Plant Soil , 249 : 107 – 115 .
  • Liao , J. , Lin , X. , Cao , Z. , Shi , Y. and Wong , M. 2003 . Interactions between arbuscular mycorrhizae and heavy metals under sand culture experiment . Chemosphere , 50 : 847 – 853 .
  • Liu , D. , Islama , E. , Li , T. , Yang , X. , Jin , X. and Mahmood , Q. 2008 . Comparison of synthetic chelators and low molecular weight organic acids in enhancing phytoextraction of heavy metals by two ecotypes of Sedum alfredii Hance . J. Hazard. Mater. , 153 : 114 – 122 .
  • Liu , H. and Fang , H. 2002 . Extraction of extracellular polymeric substances (EPS) of sludges . J. Biotechnol. , 95 : 249 – 256 .
  • Liu , Y. , Christie , P. , Zhang , J. and Li , X. 2009 . Growth and arsenic uptake by Chinese brake fern inoculated with an arbuscular mycorrhizal fungus . Environ. Exp. Bot. , 66 : 435 – 441 .
  • López-Pedrosa , A. , González-Guerrero , M. , Valderas , A. , Azcón-Aguilar , C. and Ferrol , N. 2006 . GintAMT1 encodes a functional high-affinity ammonium transporter that is expressed in the extraradical mycelium of Glomus intraradices . Fungal Genet. Biol. , 43 : 102 – 110 .
  • Ma , L. , Komar , K. , Tu , C. , Zhang , W. , Cai , Y. and Kennelley , E. 2001 . A fern that hyperaccumulates arsenic . Nature , 409 : 579 – 579 .
  • Macnair , M. R. , Tilstone , G. H. and Smith , S. E. 2000 . “ The genetics of metal tolerance and accumulation in higher plants ” . In Phytoremediation of contaminated soil and water , Edited by: Bañeulos , T. 235 – 250 . Boca Raton , FL : CRC Press .
  • Marchiol , L. , Assolari , S. , Sacco , P. and Zerbi , G. 2004 . Phytoextraction of heavy metals by canola (Brassica napus) and radish (Raphanus sativus) grown on multicontaminated soil . Environ. Pollut. , 132 : 21 – 27 .
  • Martino , E. , Perotto , S. , Parsons , R. and Gadd , R. 2003 . Solubilization of insoluble inorganic zinc compounds by ericoid mycorrhizal fungi derived from heavy metal polluted sites . Soil Biol. Biochem. , 35 : 133 – 141 .
  • McGrath , S. P. , Lombi , E. , Zhao , F. J. and Dunham , S. J. 2001 . Phytoremediation of heavy metal contaminated soils: Natural hyperaccumulation versus chemically enhanced phytoextraction . J. Environ. Qual. , 30 : 1919 – 1926 .
  • McGrath , S. P. and Zhao , F. J. 2003 . Phytoextraction of metals and metalloids from contaminated soils . Curr. Opin. Biotech. , 14 : 277 – 282 .
  • Meagher , R. B. 2000 . Phytoremediation of toxic elemental and organic pollutants . Curr. Opin. Plant Biol. , 3 : 153 – 162 .
  • Meier , S. 2011 . “ Contribution of metallophyte/arbuscular mycorrhizal symbiosis to the phytoremediation processes of copper contaminated soils ” . (Unpublished doctoral thesis). Universidad de la Frontera, Temuco, Chile.
  • Moynahan , O. S. , Zabinski , C. A. and Gannon , J. E. 2002 . Microbial community structure and carbon-utilization diversity in a mine tailings revegetation study . Res. Ecol. , 10 : 77 – 87 .
  • Mulligan , C. , Young , R. and Gibbs , B. 2001a . Remediation technologies for metal-contaminated soils and ground-water: an evaluation . Eng. Geol. , 60 : 193 – 207 .
  • Mulligan , C. , Young , R. and Gibbs , B. 2001b . An evaluation of technologies for the heavy metalremediation of dredged sediments . J. Hazard. Mater. , 85 : 145 – 163 .
  • Navarro , M. , Pérez-Sirvent , C. , Martínez-Sánchez , M. , Vidal , J. , Tovar , P. and Bech , J. 2008 . Abandoned mine sites as a source of contamination by heavy metals: A case study in a semi-arid zone . J. Geochem. Explor. , 96 : 183 – 193 .
  • Nedelkoska , T. V. and Doran , P. M. 2000 . Characteristics of heavy metal uptake by plant species with potential for phytoremediation and phytomining . Miner. Eng. , 13 : 549 – 561 .
  • Nichols , K. 2003 . Characterization of glomalin a glycoprotein produced by arbuscular mycorrhizal fungi , College Park : Doctoral dissertation, University of Maryland .
  • Orlowska , E. , Ryszka , P. , Jurkiewicz , A. and Turnau , K. 2005 . Effectiveness of arbuscular mycorrhizal fungal (AMF) strains in colonisation of plants involved in phytostabilisation of zinc wastes . Geoderma , 129 : 92 – 98 .
  • Pawlowska , T. E. , Blaszkowski , J. and Ruhling , A. 1996 . The mycorrhizal status of plants colonizing a calamine spoil mound in southern Poland . Mycorrhiza , 6 : 499 – 505 .
  • Pawlowska , T. E. , Chaney , R. , Chin , M. and Charvat , I. 2000 . Effects of metal phytoextraction practices on the indigenous community of arbuscular mycorrhizal fungi at a metal-contaminated landfill . Appl. Environ. Microbiol. , 66 : 2526 – 2530 .
  • Peuke , A. and Rennenberg , H. 2005 . Phytoremediation “viewpoint” . EMBO J. , 6 : 497 – 501 .
  • Pilon-Smits , E. 2005 . Phytoremediation . Annu. Rev. Plant. Biol. , 56 : 15 – 39 .
  • Pongrac , P. , Sonjak , S. , Vogel-Mikuš , K. , Kump , P. , Nečemer , M. and Regvar , M. 2009 . Roots of metal hyperaccumulating population of Thlaspi praecox (Brassicaceae) harbour arbuscular mycorrhizal and other fungi under experimental conditions . Int. J. Phytoremediat. , 11 : 347 – 359 .
  • Prasad , M. and Freitas , H. 2003 . Metal hyperaccumulation in plants biodiversity prospecting for phytoremediation technology . Electron. J. Biotechn. , 6 : 275 – 321 .
  • Purin , S. and Rillig , M. 2007 . The arbuscular mycorrhizal fungal protein glomalin: Limitations, progress, and a new hypothesis for its function . Pedobiologia , 51 : 123 – 130 .
  • Quartacci , M. F. , Argilla , A. , Baker , A. J.M. and Navari-Izzo , F. 2006 . Phytoextraction of metals from a multiply contaminated soil by Indian mustard . Chemosphere , 63 : 918 – 925 .
  • Ramsey , P. , Rillig , M. , Feris , K. , Gordon , N. , Moore , J. , Holben , W. and Gannon , J. 2005 . Relationship between communities and processes: New insights from a field study of a contaminated ecosystem . Ecol. Lett. , 8 : 1201 – 1210 .
  • Reimann , C. , Koller , F. , Kashulina , H. , Niskavaara , G. and Englmaier , P. 2001 . Influence of extreme pollution on the inorganic chemical composition of some plants . Environ. Pollut. , 115 : 239 – 252 .
  • Reinhardt , D. 2007 . Programming good relation development of the arbuscular mycorrhizal symbiosis . Plant Biol. , 10 : 98 – 105 .
  • Reynolds , C. M. , Wolf , D. C. , Gentry , T. J. , Perry , L. B. , Pidgeon , C. S. , Koenen , B. A. , Rogers , H. B. and Beyrouty , C. A. 1999 . Plant enhancement of indigenous soil micro-organisms: A low-cost treatment of contaminated soils . Polar Rec. , 35 : 33 – 40 .
  • Rillig , M. 2004 . Arbuscular mycorrhizae, glomalin, and soil aggregation . Can. J. Soil. Sci. , 84 : 355 – 363 .
  • Rillig , M. and Mummey , D. 2006 . Mycorrhizas and soil structure . New Phytol. , 171 : 41 – 53 .
  • Rouch , D. A. , Lee , B. and Morby , A. 1995 . Understanding cellular responses to toxic agents: A model for mechanism choice in bacterial metal resistance . J. Ind. Microbiol. , 14 : 132 – 141 .
  • Salt , D. , Blayblock , M. , Kumar , P. , Dushenkov , V. , Ensley , B. , Chet , I. and Raskin , I. 1995 . Phytoremediation: A novel strategy for the removal of toxic metals from the environment using plants . Biotechnology , 13 : 468 – 474 .
  • Say , R. , Denizli , A. and Yakup , A. 2001 . Biosorption of cadmium (II), lead (II) and copper (II) with the filamentous fungus Phanerochaete chrysosporium . Bioresource Technol. , 76 : 67 – 70 .
  • Schnoor , L. , Licht , L. , McCutcheon , S. , Wolfe , N. and Carreira , L. 1995 . Phytoremediation of organic and nutrient contaminants . Environ. Sci. Technol. , 29 : 318 – 323 .
  • Schüßler , A. , Gehrig , H. , Schwarzott , D. and Walker , C. 2001 . Analysis of partial Glomales SSU rRNA gene sequences: Implications for primer design and phylogeny . Mycol. Res. , 105 : 5 – 15 .
  • Shah , K. and Nongkynrih , J. 2007 . Metal hyperaccumulation and bioremediation . Biol. Plantarum , 51 : 618 – 634 .
  • Sheoran , V. , Sheoran , A. and Poonia , P. 2009 . Phytomining: A review . Miner. Eng. , 22 : 1007 – 1019 .
  • Shetty , K. G. , Hetrick , B. A. , Figge , D. A. and Schwab , A. P. 1994 . Effects on mycorrhizae and other soil microbes on revegetation of heavy metal contaminated mine spoil . Environ. Pollut. , 86 : 181 – 188 .
  • Shukurov , N. , Pen-Mouratov , S. and Steinberger , Y. 2005 . The impact of the Almalyk industrial complex on soil chemical and biological properties . Environ. Pollut. , 136 : 331 – 340 .
  • Singh , O. , Labana , V. , Pandey , S. , Budhiraja , G. and Jain , R. 2003 . Phytoremediation: An overview of metallic ion decontamination from soil . Appl. Microbiol. Biot. , 61 : 405 – 412 .
  • Smith , S. E. and Read , D. J. 1997 . Mycorrhizal symbiosis , San Diego , CA : Academic Press .
  • Stommel , M. , Mann , P. and Franken , P. 2001 . EST-library construction using spore RNA of the arbuscular mycorrhizal fungus Gigaspora rosea . Mycorrhiza , 10 : 281 – 285 .
  • Sudová , R. , Doubková , P. and Vosátka , M. 2008 . Mycorrhizal association of Agrostis capillaris and Glomus intraradices under heavy metal stress: Combination of plant clones and fungal isolates from contaminated and uncontaminated substrates . Appl. Soil. Ecol. , 40 : 19 – 29 .
  • Sudová , R. , Pavlíková , D. , Macek , T. and Vosátka , M. 2007 . The effect of EDDS chelate and inoculation with the arbuscular mycorrhizal fungus Glomus intraradices on the efficacy of lead phytoextraction by two tobacco clones . Appl. Soil. Ecol. , 35 : 163 – 173 .
  • Sudová , R. and Vosátka , M. 2007 . Differences in the effects of three arbuscular mycorrhizal fungal strains on P and Pb accumulation by maize plants . Plant Soil , 296 : 77 – 83 .
  • Tabak , H. , Lens , P. , van Hullebusch , E. and Dejonghe , W. 2005 . Developments in bioremediation of soil and sediments polluted with metals and radionuclides. 1. Microbial processes and mechanism affecting bioremediation of metal contamination and influencing metal toxicity and transport . Rev. Environ. Sci. Bio/Tech. , 4 : 115 – 156 .
  • Terry , N. , Carlson , C. , Raab , T. and Zayed , A. 1992 . Rates of selenium volatilization among crop species . J. Environ. Qual. , 21 : 341 – 344 .
  • Tiller , K. G. 1989 . Heavy metals in soils and their environmental significance pollution . Adv. Soil Sci. , 9 : 113 – 141 .
  • Tonin , C. , Vandenkoornhuyse , P. , Joner , E. , Straczek , J. and Leyval , C. 2001 . Assessment of arbuscular mycorrhizal fungal diversity in the rhizosphere of Viola calaminaria and effect of these fungi on heavy metal uptake by clover . Mycorrhiza , 10 : 161 – 168 .
  • Trotta , A. , Falaschi , P. , Cornara , L. , Minganti , V. , Fusconi , A. , Drava , G. and Berta , G. 2006 . Arbuscular mycorrhizae increase the arsenic translocation factor in the As hyperaccumulating fern Pteris vittata L . Chemosphere , 65 : 74 – 81 .
  • Turnau , K. and Mesjasz-Przybylowics , J. 2003 . Arbuscular mycorrhiza occurrence in Berkheya coddii another Ni-hyperaccumulating members of Asteraceae from ultramafic soils in South Africa . Mycorrhiza , 13 : 185 – 190 .
  • Turnau , K. , Miszalki , Z. , Trouvelot , A. , Bonfante , P. and Gianinazzi , S. 1996 . “ Oxalis acetosella as a monitoring plant on highly polluted soils ” . In Mycorrhizae in integrated systems, from genes to plant development , Edited by: Azcón-Aguilar , C. and Barea , J. M. 479 – 482 . Luxembourg : European Comission .
  • Turnau , K. , Ryszka , P. , Gianinazzi-Pearson , V. and van Tuinen , D. 2001 . Identification of arbuscular mycorrhizal fungi in soils and roots of plants colonizing zinc wastes in southern Poland . Mycorrhiza , 10 : 169 – 174 .
  • Vasak , M. and Hasler , D. 2000 . Metallothioneins: new functional and structural insights . Curr. Opin. Chem. Biol. , 4 : 177 – 183 .
  • Vivas , A. , Biro , B. , Nemethb , T. , Barea , J. M., R. and Azcón , R. 2006 . Nickel-tolerant Brevibacillus brevis and arbuscular mycorrhizal fungus can reduce metal acquisition and nickel toxicity effects in plant growing in nickel supplemented soil . Soil Biol. Biochem. , 38 : 2694 – 2704 .
  • Vivas , A. , Vörös , I. , Biro , B. , Campos , E. , Barea , J. M. and Azcón , R. 2003 . Symbiotic efficiency of autochthonous arbuscular mycorrhizal fungus (G. mosseae) and Brevibacillus sp. Isolated from cadmium polluted soil under increasing cadmium levels . Environ. Pollut. , : 126 – 179–189 .
  • Vodnik , D. , Grčman , H. , Maček , I. , van Elteren , J. T. and Kovačevič , M. 2008 . The contribution of glomalin related soil protein to Pb and Zn sequestration in polluted soil . Sci. Total Environ. , 392 : 130 – 136 .
  • Vögel-Mikus , K. , Pongrac , P. , Kump , P. , Necemer , M. and Regvar , M. 2006 . Colonization of a Zn, Cd and Pb hyper accumulator Thlaspi praecox Wulfen with indigenous arbuscular mycorrhizal fungal mixture induces changes in heavy metal and nutrient uptake . Environ. Pollut. , 139 : 362 – 371 .
  • Weissenhorn , I. and Leyval , C. 1995 . Root colonization of maize by a Cd-sensitive and a Cd-tolerant Glomus mosseae and cadmium uptake in sand culture . Plant Soil , 175 : 233 – 238 .
  • Whitfield , L. , Richards , A. and Rimmer , D. 2004 . Relationships between soil heavy metal concentration and mycorrhizal colonisation in Thymus polytrichus in northern England . Mycorrhiza , 14 : 55 – 62 .
  • Whiting , S. N. , Reeves , R. D. , Richards , D. , Johnson , M. S. , Cooke , J. A. , Malaisse , F. , Paton , A. , Smith , J. A.C. , Angle , J. S. , Chaney , R. L. , Ginocchio , R. , Jaffré , T. , Johns , R. , McIntyre , T. , Purvis , O. W. , Salt , D. E. , Schat , H. , Zhao , F. J. and Baker , A. J.M. 2004 . Research priorities for conservation of metallophyte biodiversity and their potential for restoration and site remediation . Rest. Ecol. , 12 : 106 – 116 .
  • Wilkinson , D. and Dickinson , N. 1995 . Metal resistance in trees: the role of mycorrhizae . Oikos , 72 : 298 – 300 .
  • Wright , S. F. and Upadhyaya , A. 1996 . Extraction of an abundant and unusual protein from soil and comparison with hyphal protein of arbuscular mycorrhizal fungi . Soil. Sci. , 161 : 575 – 86 .
  • Wright , S. F. and Upadhyaya , A. 1998 . A survey of soils for aggregate stability and glomalin, a glycoprotein produced by hyphae of arbuscular mycorrhizal fungi . Plant Soil , 198 : 97 – 107 .
  • Zack , J. , Danielson , R. and Parkinson , D. 1982 . Mycorrhizal fungal spore numbers and species occurrence in two amended mine spoils in Alberta, Canada . Mycologia , 74 : 785 – 792 .
  • Zhou , J. L. 1999 . Zn biosorption by Rhizopus arrhizus and other fungi . Appl. Microbiol. Biotechnol. , 51 : 686 – 693 .
  • Zhu , Y. G. , Chen , S. B. and Yang , J. C. 2004 . Effects of soil amendments on lead uptake by two vegetable crops from a lead-contaminated soil from Anhui, China . Environ. Int. , 30 : 351 – 356 .

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