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Archives of Agronomy and Soil Science Volume 59, 2013 - Issue 4
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Articles

Assessing arbuscular mycorrhizal plant metal uptake and soil metal bioavailability among ‘dwarf’ sunflowers in a stratified compartmental growth environment

Patrick Audet Centre for Mined Land Rehabilitation, University of Queensland, Brisbane, AustraliaCorrespondence[email protected]
&
Christiane Charest Department of Biology, University of Ottawa, Ottawa, Canada
Pages 533-548 | Received 02 Nov 2011, Accepted 22 Dec 2011, Published online: 11 Apr 2012

References

  • Allen , M F. 2001 . Modeling arbuscular mycorrhizal infection: is % infection an appropriate variable? . Mycorrhiza , 10 : 255 – 258 .
  • Apak , R. 2002 . “ Adsorption of heavy metal ions on soil surfaces and similar substances ” . In Encyclopedia of surface and colloid science , Edited by: Hubbard , A T . 385 – 417 . New York : Dekker Encyclopedias .
  • Audet , P and Charest , C. 2006 . Effects of AM colonization on ‘wild’ tobacco grown in zinc-contaminated soil . Mycorrhiza , 16 : 277 – 283 .
  • Audet , P and Charest , C. 2007a . Heavy metal phytoremediation from a meta-analytical perspective . Environ Pollut , 147 : 231 – 237 .
  • Audet , P and Charest , C. 2007b . Dynamics of arbuscular mycorrhizal symbiosis in heavy metal phytoremediation: meta-analytical and conceptual perspectives . Environ Pollut , 147 : 609 – 614 .
  • Audet , P and Charest , C. 2008 . Allocation plasticity and metal-partitioning: meta-analytical perspectives in phytoremediation . Environ Pollut , 156 : 290 – 296 .
  • Audet , P and Charest , C. 2009 . Contribution of AM symbiosis to in vitro root metal uptake: from trace to toxic metal conditions . Botany , 87 : 913 – 921 .
  • Audet , P and Charest , C. 2010a . Determining the impact of the AM-mycorrhizosphere on ‘dwarf’ sunflower Zn uptake and soil Zn bioavailability . J Bot , 10 ( 11 ) doi: 10.1155/2010/268540
  • Audet , P and Charest , C. 2010b . Identification of constraining experimental design factors in mycorrhizal pot-growth studies . J Bot , 10 ( 6 ) doi:10.1155/2010/718013
  • Augé , R M , Stodola , A JW , Tims , J E and Saxton , A M. 2001 . Moisture retention properties of a mycorrhizal soil . Plant Soil , 230 : 87 – 97 .
  • Baccouch , S , Chaoui , A and El Ferjani , E. 1998 . Nickel-induced oxidative damage and antioxidant responses in Zea mays shoots . Plant Physiol Biochem , 36 : 689 – 694 .
  • Bago , B , Vierheilig , H , Piché , Y and Azcón-Aguilar , C. 1996 . Nitrate depletion and pH changes induced by the extraradical mycelium of the arbuscular mycorrhizal fungus Glomus intraradices grown in monoxenic culture . New Phytol , 133 : 273 – 280 .
  • Barceloux , D G. 1999 . Zinc . J Toxicol Clin Toxic , 37 : 279 – 292 .
  • Bearden , B N and Petersen , L. 2000 . Influence of arbuscular mycorrhizal fungi on soil structure and aggregate stability of a vertisol . Plant Soil , 218 : 173 – 183 .
  • Bradl , H B. 2004 . Adsorption of heavy metal ions on soils and soil constituents . J Colloid Interf Sci , 277 : 1 – 18 .
  • Cavagnaro , T R . 2008 . The role of arbuscular mycorrhizas in improving plant zinc nutrition under low soil zinc concentrations: a review . Plant Soil , 304 : 315 – 325 .
  • Cavagnaro , T R , Dickson , R S and Smith , F A. 2010 . Arbuscular mycorrhizas modify plant responses to soil zinc addition . Plant Soil , 329 : 307 – 313 .
  • Chaney , R L. 1993 . “ Zinc phytotoxicity ” . In Zinc in soils and plants , Edited by: Robson , A D . 135 – 150 . Dordrecht (The Netherlands) : Kluwer Academic Press .
  • Chen , B , Christie , P and Li , X. 2001 . A modified glass bead compartment cultivation system for studies on nutrient and trace metal uptake by arbuscular mycorrhiza . Chemosphere , 42 : 185 – 192 .
  • Cho , U H and Seo , N H. 2005 . Oxidative stress in Arabidopsis thaliana exposed to cadmium is due to hydrogen peroxide accumulation . Plant Sci , 168 : 113 – 120 .
  • Christie , P , Li , X and Chen , B. 2004 . Arbuscular mycorrhiza can depress translocation of zinc to shoots of host plants in soils moderately polluted with zinc . Plant Soil , 261 : 209 – 217 .
  • Chuan , M C , Shu , G Y and Liu , J C. 1996 . Solubility of heavy metals in a contaminated soil: effects of redox potential and pH . Water Air Soil Pollut , 90 : 543 – 556 .
  • Cobbett , C S. 2000 . Phytochelatins and their roles in heavy metal detoxification . Plant Physiol , 123 : 825 – 832 .
  • Cobbett , C S and Goldsbrough , P. 2002 . Phytochelatins and metallothioneins: role in heavy metal detoxification and homeostasis . Annu Rev Plant Biol , 53 : 159 – 182 .
  • Dalpé , Y. 1993 . “ Vesicular–arbuscular mycorrhizae ” . In Soil sampling and methods of analysis , Edited by: Carter , M D . 287 – 301 . Boca Raton (FL) : CRC Press .
  • Douds , D D , Pfeffer , P E and Shachar-Hill , Y. 2000 . “ Carbon partitioning, cost, and metabolism of arbuscular mycorrhizas ” . In Arbuscular mycorrhizas: physiology and function , Edited by: Kapulnik , Y and Douds , D D . 107 – 129 . Dordrecht (The Netherlands) : Kluwer Academic Press .
  • Eckhard , G , Marschner , H and Jakobsen , I. 1995 . The role of arbuscular mycorrhizal fungi in uptake of phosphorus and nitrogen from soil . Crit Rev Biotechnol , 15 : 257 – 270 .
  • Filion , M , St-Arnaud , M and Fortin , F A. 1999 . Direct interaction between the arbuscular mycorrhizal fungus Glomus intraradices and different rhizosphere microorganisms . New Phytol , 141 : 525 – 533 .
  • Gadd , G M. 1993 . Interactions of fungi with toxic metals . New Phytol , 124 : 25 – 60 .
  • Gahoonia , T S and Nielsen , N E. 1992 . The effects of root-induced pH changes on the deletion of organic phosphorus in the rhizosphere . Plant Soil , 143 : 185 – 191 .
  • Galli , U , Schüepp , H and Brunold , C. 1994 . Heavy metal binding by mycorrhizal fungi . Physiol Plant , 92 : 364 – 368 .
  • Garbaye , J. 1991 . Biological interactions in the mycorrhizosphere . Experientia , 47 : 370 – 375 .
  • Göhre , V and Paszkowski , U. 2006 . Contribution of the arbuscular mycorrhizal symbiosis to heavy metal phytoremediation . Planta , 223 : 1115 – 1122 .
  • González-Chavez , C , d'Haen , J , Vangronsveld , J and Dodd , J C. 2002 . 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-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 .
  • Hendershot , W H , Lalande , H and Duquette , M. 2008 . “ Soil reaction and exchangeable acidity ” . In Soil sampling and methods of analysis , Edited by: Carter , M R and Gregorich , E G . 173 – 178 . Boca Raton (FL) : CRC Press .
  • Janoušková , M and Vosatká , M. 2005 . Response to cadmium of Daucus carota hairy roots dual cultures with Glomus intraradices or Gigaspora margarita . Mycorrhiza , 15 : 217 – 224 .
  • 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 Fertil Soil , 37 : 1 – 16 .
  • Joner , E J , Briones , R and Leyval , C. 2000 . Metal-binding capacity of arbuscular mycorrhizal mycelium . Plant Soil , 226 : 227 – 234 .
  • Kabata-Pendias , A. 2007 . Trace elements in soils and plants , Boca Raton (FL) : CRC Press .
  • 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 .
  • 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 .
  • Li , X and Christie , P. 2001 . Changes in soil solution Zn and pH and uptake of Zn by arbuscular mycorrhizal red clover in Zn-contaminated soil . Chemosphere , 42 : 201 – 207 .
  • Martínez , C E and Motto , H L. 2000 . Solubility of lead, zinc and copper added to mineral soil . Environ Pollut , 107 : 153 – 158 .
  • McBride , M B. 1994 . Environmental chemistry of soils , Oxford : Oxford University Press .
  • Meharg , A A. 2003 . The mechanistic basis of interactions between mycorrhizal associations and toxic metal cations . Mycol Res , 107 : 1253 – 1265 .
  • Miller , R M and Jastrow , J D. 1990 . Hierarchy of aggregation . Soil Biol Biochem , 22 : 579 – 584 .
  • Pawlowska , T E and Charvat , I. 2004 . Heavy-metal stress and developmental patterns of arbuscular mycorrhizal fungi . Appl Environ Microb , 70 : 6643 – 6649 .
  • Pilon-Smits , E. 2005 . Phytoremediation . Annu Rev Plant Biol , 56 : 15 – 39 .
  • Piotrowski , J S , Denich , T , Klironomos , J N , Graham , J M and Rillig , M C. 2004 . The effects of arbuscular mycorrhizas on soil aggregation depend on the interaction between plant and fungal species . New Phytol , 164 : 365 – 373 .
  • Ross , S M. 1994 . “ Retention, transformation and mobility of toxic metals in soils ” . In Toxic metals in soil–plant systems , Edited by: Ross , S M . 63 – 152 . New York : Wiley .
  • Schüßler , A , Schwarzott , D and Walker , C. 2001 . A new fungal phylum, the Glomeromycota: phylogeny and evolution . Mycol Res , 105 : 1413 – 1421 .
  • Schützendübel , A and Polle , A. 2002 . Plant responses to abiotic stresses: heavy metal-induced oxidative stress and protection by mycorrhization . J Exp Bot , 372 : 1351 – 1365 .
  • Smith , G S , Johnston , C M and Cornforth , I S. 1983 . Comparison of nutrient solutions for growth of plants in sand culture . New Phytol , 94 : 537 – 548 .
  • Tinker , P B , Durall , D M and Jones , M D. 1994 . Carbon use efficiency in mycorrhizas: theory and sample calculations . New Phytol , 128 : 115 – 122 .
  • Tack , F M , Callewaert , O WJJ and Verloo , M G. 1996 . Metal solubility as a function of pH in a contaminated, dredged sediment affected by oxidation . Environ Pollut , 91 : 199 – 208 .
  • Wenger , K , Gupta , S K , Furrer , G and Schulin , R. 2002 . “ Zinc extraction potential of two common crop plants, Nicotiana tabacum and Zea mays ” . 217 – 225 . New Phytol .
  • Zar , J H. 1993 . Biostatistical analysis , Upper-Saddle River (NJ) : Prentice Hall .

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