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International Journal of Phytoremediation Volume 13, 2011 - Issue 4
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Original Articles

Hydrocarbon Phytoremediation in the Family Fabacea—A Review

Jessica Hall Environmental Health, Flinders University of South Australia, Adelaide, South Australia
,
Kathleen Soole School of Biological Sciences, Flinders University of South Australia, Adelaide, South Australia
&
Richard Bentham Environmental Health, Flinders University of South Australia, Adelaide, South Australia
Pages 317-332 | Published online: 19 Feb 2011

REFERENCES

  • Adam , G and Duncan , H . 2002 . Influence of diesel fuel on seed germination . Environ Pollut. , 120 ( 2 ) : 363 – 370 .
  • Adam , G and Duncan , H . 2003 . The effect of diesel fuel on common vetch (Vicia sativa L.) plants . Environ Geochem Health , 25 : 123 – 130 .
  • Ahmad , D , Mehmannavaz , R and Damaj , M . 1997 . Isolation and characterization of symbiotic N2-fixing Rhizobium meliloti from soils contaminated with aromatic and chloroaromatic hydrocarbons: PAH and PCBs . Int Biodeter Biodegr , 39 ( 1 ) : 33 – 43 .
  • Alexander , M. 2000 . Aging, bioavailability, and overestimation of risk from environmental pollutants . Environ Sc. Technol. , 34 ( 20 ) : 4259 – 4265 .
  • Alkorta , I and Garbisu , C . 2001 . “ Phytoremediation of organic contaminants in soils ” . Vol. 79 , 273 – 276 . Bioresource Technol. .
  • Álvarez-Bernal , D , Contreras-Ramos , S M , Marsch , R and Dendooven , L . 2007 . “ Influence of Catclaw Mimosa monancistra on the dissipation of soil PAH ” . Vol. 9 , 79 – 90 . Int J Phytoremediat .
  • Angers , D A and Caron , J . 1998 . Plant-induced changes in soil structure: Processes and feedbacks . Biogeochemistry , 42 : 55 – 72 .
  • Atagana , H I , Haynes , R J and Wallis , F M . 2003 . Optimization of soil physical and chemical conditions for the bioremediation of creosote-contaminated soil . Biodegradation. , 14 ( 4 ) : 297 – 307 .
  • Agency for Toxic Substances and Disease Registry (ATSDR) . 1995 . Toxicological profile for Polycyclic Aromatic Hydrocarbons (PAH). Department of Health and Human Services, Public Health Service, Atlanta . Final Report , August 1995
  • Bachmann , G and Kinzel , H . 1992 . Physiological and ecological aspects of the interactions between plant roots and rhizosphere soil . Soil Biol and Biochem , 24 ( 6 ) : 543 – 552 .
  • Bałdyga , B , Wieczorek , J , Smoczyński , S , Wieczorek , Z and Smoczyńska , K . 2005 . Pea plant response to anthracene present in soil . Pol J Environ Stud. , 14 ( 4 ) : 397 – 401 .
  • Blum , SC and Swarbrick , RE. 1977 . Hydroponic growth of crops in solutions saturated with [14C]Benzo[a]pyrene . J Agric Food Chem. , 25 ( 5 ) : 1093 – 1096 .
  • Bridge , B J , Mott , J J , Winter , W H and Hartigan , R J . 1983 . Improvement in soil structure resulting from sown pastures on degraded areas in dry savanna woodlands of northern Australia . Aust J Soil Res. , 21 : 83 – 90 .
  • Carlsson , G and Huss-Danell , K . 2003 . Nitrogen fixation in perennial forage legumes in the field . Plant Soil. , 253 ( 2 ) : 353 – 372 .
  • Carpenter , S R , Caraco , N F , Correll , D L , Howarth , R W , Sharpley , A N and Smith , V H . 1998 . Nonpoint pollution of surface waters with phosphorus and nitrogen . Ecol Appl. , 8 ( 3 ) : 559 – 568 .
  • Clarkson , DT. 1985 . Factors affecting mineral nutrient acquisition by plants . Ann Rev Plant Physio , 36 : 77 – 115 .
  • Corbeels , M , O'Connell , A M , Grove , T S , Mendham , D S and Rance , S J . 2003 . Nitrogen release from eucalypt leaves and legume residues as influenced by their biochemical quality and degree of contact with soil . Plant Soil. , 250 : 15 – 28 .
  • Costa , R , Götz , M , Mrotzek , N , Lottmann , J , Berg , G and Smalla , K . 2005 . Effects of site and plant species on rhizosphere community structure as revealed by molecular analysis of microbial guilds . FEMS Microbiol Ecol. , 56 ( 2 ) : 336 – 349 .
  • Cresswell , H P and Kirkegaard , J. A. 1995 . Subsoil amelioration by plant roots—the process and the evidence . Aust. J. Soil Res. , 33 : 221 – 239 .
  • Davis , L C , Castro-Diaz , S , Zhang , Q and Erickson , L E . 2002 . Benefits of vegetation for soil with organic contaminants . Cr Rev Plant Sci. , 21 : 457 – 491 .
  • Dietz , A C and Schnoor , J L . 2001 . Advances in phytoremediation . Environ Health Persp. , 109 : 163 – 168 .
  • Ferdinandy van Vlerken MMA . 1998 . Chances for biological techniques in sediment remediation . Water Sci Technol. , 37 : 345 – 353 .
  • Fletcher , J S and Hegde , R S . 1995 . Release of phenols by perennial plant roots and their potential importance in bioremediation . Chemosphere , 31 ( 4 ) : 3009 – 3016 .
  • Gaffney , T , Friedrich , L , Vernooij , B , Negrotto , D , Nye , G , Uknes , S , Ward , E , Kessman , H and Ryals , J . 1993 . Requirement of salicylic acid for the induction of systemic acquired resistance . Science. , 261 : 754 – 756 .
  • Gao , Y and Zhu , L . 2004 . Plant uptake, accumulation and translocation of phenanthrene and pyrene in soils . Chemosphere , 55 : 1169 – 1178 .
  • Garbeva , P , van Veen , J A and van Elsas , J D . 2004 . Microbial diversity in soil: Selection of microbial populations by plant and soil type and implications for disease suppressiveness . Annu Rev Phytopathol. , 42 : 243 – 270 .
  • Genney , D R , Alexander , I J , Killham , K and Meharg , A A . 2004 . Degradation of the polycyclic aromatic hydrocarbon (PAH) fluorene is retarded in a Scots pine ectomycorrhizosphere . New Phytol , 163 ( 3 ) : 641 – 649 .
  • Green , N A , Meharg , A A , Till , C , Troke , J and Nicholson , J K . 1999 . Degradation of 4-Fluorobiphenyl by mycorrhizal fungi as determined by 19F nuclear magnetic resonance spectroscopy and 14C radiolabelling analysis . Appl Environ Microb. , 65 ( 9 ) : 4021 – 4027 .
  • Gregory , PJ. 2006 . Plant Roots: Growth, Activity and Interaction with Soils , 149 – 153 . Oxford, UK : Blackwell Publishing .
  • Gudin , C and Syratt , W J . 1975 . Biological aspects of land rehabilitation following hydrocarbon contamination . Environ Pollut. , 8 : 107 – 112 .
  • Hagström , J , James , W M and Skene , K R . 2001 . A comparison of structure, development and function in cluster roots of Lupinus albus L. under phosphate and iron stress . Plant Soil. , 232 : 81 – 90 .
  • Harmsen , J , Rulkens , W H , Sims , R C , Rijtema , P E and Zweers , A J . 2007 . Theory and application of landfarming to remediate polycyclic aromatic hydrocarbons and mineral oil-contaminated sediments; beneficial reuse . J Env Qual. , 36 : 1112 – 1122 .
  • Hinsinger , P. 2001 . Bioavailability of soil inorganic P in the rhizosphere as affected by root-induced chemical changes: a review . Plant Soil. , 237 : 173 – 195 .
  • Hülster , A , Müller , J F and Marschner , H . 1994 . Soil-plant transfer of polychlorinated dibenzo-p-dioxins and dibenzofurans to vegetables of the cucumber family (Curcurbitaceae) . Environ Sci Technol , 28 : 1110 – 1115 .
  • Hulugalle , N R and Lal , R. 1986 . Root growth of maize in a compacted gravelly tropical alfisol as affected by rotation with a woody perennial . Field Crop. Res. , 13 : 33 – 44 .
  • Incorvia Mattina , M-J , Lannucci-Berger , W , Musante , C and White , J C . 2003 . Concurrent plant uptake of heavy metals and persistent organic pollutants from soil . Environ Pollu. , 124 : 375 – 378 .
  • Jones , DL. 1998 . Organic acids in the rhizosphere—a critical review . Plant Soil. , 205 ( 1 ) : 25 – 44 .
  • Kaimi , E , Mukaidani , T and Tamaki , M . 2007 . Screening of twelve plant species for phytoremediation of petroleum hydrocarbon-contaminated soil . Plant Prod Sci. , 10 ( 2 ) : 211 – 218 .
  • Kirkpatrick , W D , White , P M , Wolf , D C , Thoma , G J and Reynolds , C M . 2006 . Selecting plants and nitrogen rates to vegetate crude-oil contaminated soil . Int J Phytoremediat. , 8 : 285 – 297 .
  • Lal , R and Shukla , M K . 2004 . “ Principles of Soil Physics ” . 86 – 153 . New York : Dekker .
  • Lambers , H , Shane , M W , Cramer , M D , Pearse , S J and Veneklaas , E J . 2006 . Root structure and functioning for efficient acquisition of phosphorus matching morphological and physiological traits . Annals of Botany , 98 : 693 – 713 .
  • Lee , S-H , Lee , W-S , Lee , C-H and Kim , J-G . 2008 . Degradation of phenanthrene and pyrene in rhizosphere of grasses and legumes . J Hazard Mater. , 153 : 892 – 898 .
  • Liste , H-H and Alexander , M . 2000 . Plant-promoted pyrene degradation in soil . Chemosphere , 40 : 7 – 10 .
  • Liste , H-H and Felgentreu , D. 2006 . Crop growth, culturable bacteria, and degradation of petrol hydrocarbons (PHCs) in a long-term contaminated field soil . Appl. Soil Ecol. , 31 : 43 – 52 .
  • Liste , H-H and Prutz , I. 2006 . Plant performance, dioxygenase-expressing rhizosphere bacteria, and biodegradation of weathered hydrocarbons in contaminated soil . Chemosphere , 62 : 1411 – 1420 .
  • Lucas García , J A , Probanza , A , Ramos , B and Gutiérrez Mañero , F J . 2001 . Genetic variability of rhizobacteria from wild populations of four Lupinus species based on PCR-RAPDS . J Plant Nutr Soil Sci. , 164 : 1 – 7 .
  • Lynch , JM. 2002 . Resilience of the rhizosphere to anthropogenic disturbance . Biodegradation. , 13 : 21 – 27 .
  • Marschner , P , Neumann , G , Kania , A , Weisskopf , L and Lieberei , R . 2002 . Spatial and temporal dynamics of the microbial community structure in the rhizosphere of cluster roots of white lupin (Lupinus albus L.) . Plant Soil. , 246 : 167 – 174 .
  • Mayer , J , Buegger , F , Jensen , E , Schloter , M and HeßSteen , J . 2003 . Residual nitrogen contribution from grain legumes to succeeding wheat and rape and related microbial process . Plant Soil. , 255 : 541 – 554 .
  • McCallum , M H , Kirkegaard , J A , Green , T W , Cresswell , H P , Davies , S L , Angus , J F and Peoples , M B . 2004 . Improved subsoil macroporosity following perennial pastures . Aust J Exp Agr. , 44 : 299 – 307 .
  • Meagher , R B . 2000 . Phytoremediation of toxic elemental and organic pollutants . Curr Opin Plant Biol. , 3 : 153 – 162 .
  • Muratova , A , Hübner , T , Narula , N , Wand , H , Turkovskaya , O , Kuschk , P , Jahn , R and Merbach , W . 2003 . Rhizosphere microflora of plants used for phytoremediation of bitumen-contaminated soil . Microbiol Res. , 158 : 151 – 161 .
  • Neumann , G , Massonneau , A , Langlade , N , Dinkelaker , G , Hengeler , C , Römheld , V and Martinoia , E . 2000 . Physiological aspects of cluster root function and development in phosphorus-deficient white lupin (Lupinus albus L.) . Annals of Botany , 85 : 909 – 919 .
  • Nichols , T D , Wolf , D C , Rogers , H B , Beyrouty , C A and Reynolds , C M . 1997 . Rhizosphere microbial populations in contaminated soils . Water Air Soil Poll. , 95 ( 1–4 ) : 165 – 178 .
  • Olson , P E , Castro , A , Joem , M and Du Teau , N M . 2007 . Comparison of plant families in a greenhouse phytoremediation study on aged polycyclic aromatic hydrocarbon-contaminated soil . J Environ Qual. , 36 ( 5 ) : 1461 – 1469 .
  • Palmroth , M RT , Pichtel , J and Puhakka , J A . 2002 . Phytoremediation of subarctic soil contaminated with diesel fuel . Bioresource Technol. , 84 ( 3 ) : 221 – 228 .
  • Parrish , Z D , Banks , M K and Schwab , A P . 2005 . Effect of root death and decay on dissipation of polycyclic aromatic hydrocarbons in the rhizosphere of yellow sweet clover and tall fescue . J Environ Qual. , 34 ( 1 ) : 207 – 216 .
  • Phillips , L A , Greer , C W and Germida , J J . 2006 . Culture-based and culture-independent assessment of the impact of mixed and single plant treatments on rhizosphere microbial communities in hydrocarbon contaminated flare-pit soil . Soil Biol Biochem. , 38 : 2823 – 2833 .
  • Polhill , R M , Raven , P H and Stirton , C H . 1981 . “ Evolution and Systematics of the Leguminosae ” . In Advances in Legume Systematics Part 1. Royal Botanic Gardens , Edited by: Polhill , R M and Raven , P H . 1 – 26 . Kew : Crown Press .
  • Pollard , S JT , Hrudey , S E and Fedorak , P M . 1994 . Bioremediation of petroleum- and creosote- contaminated soils: a review of constraints . Waste Manage and Res , 12 : 173 – 194 .
  • Pradhan , S P , Conrad , J R , Paterek , J R and Srivastava , V J . 1998 . Potential of phytoremediation for treatment of PAH in soil at MGP sites . J Soil Contam. , 7 ( 4 ) : 467 – 480 .
  • Pypers , P , Huybrighs , M , Diels , J , Abaidoo , R , Smolders , E and Merckx , R . 2007 . Does the enhanced P acquisition by maize following legumes in a rotation result from improved soil P availability . Soil Biol and Biochem , 39 : 2555 – 2566 .
  • Pypers , P , Van Loon , L , Diels , J , Abaidoo , R , Smolders , E and Merckx , R . 2006 . Plant-available P for maize and cowpea in P-deficient soils from the Nigerian Northern Guinea savanna—Comparison of E- and L- values . Plant Soil , 283 : 251 – 264 .
  • Radwan , S S , Al-Awadhi , H and El-Nemr , I M . 2000 . Cropping as phytoremediation practice for oily desert soil with reference to crop safety as food . Int J Phytoremediat. , 2 ( 4 ) : 383 – 396 .
  • Radwan , S S , Dashti , N , El-Nemr , I M and Khanafer , M . 2007 . Hydrocarbon utilization by nodule bacteria and plant growth-promoting rhizobacteria . Int J Phytoremediat. , 9 : 475 – 486 .
  • Radwan , S S , Al-Awadhi , H , Sorkhoh , N A and El-Nemr , I M . 1998 . Rhizospheric hydrocarbon-utilizing microorganisms as potential contributors to phytoremediation for the oily Kuwaiti desert . Microbiol Res. , 153 : 247 – 251 .
  • Rasse , D P and Smucker , A JM . 1998 . Root recolonization of previous root channels in corn and alfalfa rotations . Plant Soil , 204 : 203 – 212 .
  • Rentz , J A , Alvarez , P JJ and Schnoor , J L . 2005 . Benzo[a]pyrene co-metabolism in the presence of plant root extracts and exudates: Implications for phytoremediation . Environ. Pollut. , 136 ( 3 ) : 477 – 484 .
  • 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 .
  • Schnoor , J L , Licht , L A , McCutcheon , S C , Wolfe , N L and Carreira , L H . 1995 . Phytoremediation of organic and nutrient contaminants . Environ Sci Technol. , 29 ( 7 ) : 318 – 323A .
  • Schüßler , A , Schwarzott , D and Walker , C . 2001 . A new fungal phylum, the Glomeromycota: phylogeny and evolution . Mycol Res. , 105 ( 12 ) : 1413 – 1421 .
  • Semple , K T , Morriss , A WJ and Paton , G I . 2003 . Bioavailability of hydrophobic organic contaminants in soils: fundamental concepts and techniques for analysis . Eur J Soil Sci. , 54 ( 4 ) : 809 – 818 .
  • Sharma , S , Aneja , M K , Mayer , J , Munch , J C and Schloter , M . 2005 . Characterization of bacterial community structure in rhizosphere soil of grain legumes . Microbial Ecol. , 49 : 407 – 415 .
  • Singer , A C , Crowley , D E and Thompson , I P . 2003 . Secondary plant metabolites in phytoremediation and biotransformation . Trends Biotechnol. , 21 ( 3 ) : 123 – 130 .
  • Singh , O V and Jain , R K . 2003 . Phytoremediation of toxic aromatic pollutants from soil . Appl Microbiol Biotechnol. , 63 : 128 – 135 .
  • Skene , KR. 2000 . Pattern formation in cluster roots: some developmental and evolutionary considerations . Annals of Botany , 85 : 901 – 908 .
  • Stroud , J L , Paton , G I and Semple , K T . 2007 . Microbe-aliphatic hydrocarbon interactions in soil: implications for biodegradation and bioremediation . J Appl Microbiol. , 102 : 1239 – 1253 .
  • Thompson , O A , Wolf , D C , Mattice , J D and Thoma , G J . 2008 . Influence of nitrogen addition and plant root parameters on phytoremediation of pyrene-contaminated soil . Water Air Soil Poll. , 189 : 37 – 47 .
  • Thorsen , W A , Cope , W G and Shea , D . 2004 . Bioavailability of PAH: Effects of soot carbon and PAH source . Environ Sci Technol. , 38 : 2029 – 2037 .
  • Tuomi , J , Kytöviita , M-M and Härdling , R . 2001 . Cost efficiency of nutrient acquisition and the advantage of mycorrhizal symbiosis for the host plant . OIKOS. , 92 : 62 – 70 .
  • Vance , C P , Uhde-Stone , C and Allan , D L . 2003 . Phosphorus acquisition and use: critical adaptations by plants for securing a nonrenewable resource . New Phytol. , 157 : 423 – 447 .
  • Veitch , NC. 2007 . Isoflavonoids of the Leguminosae . Nat Prod Rep. , 24 : 417 – 464 .
  • Veneklaas , E J , Stevens , J , Cawthray , G R , Turner , S , Grigg , A M and Lambers , H . 2003 . Chickpea and white lupin rhizosphere carboxylates vary with soil properties and enhance phosphorus uptake . Plant Soil , 248 : 187 – 197 .
  • Weisskopf , L , Abou-Mansour , E , Fromin , N , Tomasi , N , Santelia , D , Edelkott , I , Neumann , G , Aragno , M , Tabacchi , R and Martinoia , E . 2006 . White lupin has developed a complex strategy to limit microbial degradation of secreted citrate required for phosphate acquisition . Plant Cell Environ. , 29 : 919 – 927 .
  • White , J C , Parrish , Z D , Isleyen , M , Gent , M PN , Iannucci-Berger , W , Eitzer , B D and Incorvia Mattina , M-J . 2005 . Uptake of weathered p,p′-DDE by plant species effective at accumulating soil elements . Microchem J. , 81 : 148 – 155 .
  • Wiltse , C C , Rooney , W L , Chen , Z , Schwab , A P and Banks , M K . 1998 . Greenhouse evalauation of agronomic and crude oil-phytoremediation potential among Alfalfa genotypes . J Environ Qual. , 27 : 169 – 173 .
  • Wong , MH. 2003 . Ecological restoration of mine degraded soils, with emphasis on metal contaminated soils . Chemosphere , 50 ( 6 ) : 775 – 780 .
  • Xing , B and Pignatello , J J . 1998 . Competitive sorption between 1,3-dichlorobenzene or 2,4-dichlorophenol and natural aromatic acids in soil organic matter . Environ Sci Technol. , 32 : 614 – 619 .
  • Xu , S-Y , Chen , Y-X , Lin , K-F , Chen , X-C , Lin , Q , Li , F and Wang , Z-W . 2009 . Removal of pyrene from contaminated soils by white clover . Pedosphere , 19 : 265 – 272 .
  • Yang , H , Su , Y H , Zhu , Y G , Chen , M M , Chen , B D and Liu , Y X . 2007 . Influences of polycyclic aromatic hydrocarbons (PAH) on soil microbial community composition with or without vegetation . J Environ Sci Heal A. , 42 : 65 – 72 .
  • Yen , K-M and Gunsalus , I C . 1982 . Plasmid gene organization: Napthalene/salicylate oxidation . P Natl Acad Sci USA. , 79 : 874 – 878 .
  • Yi , H and Crowley , D E . 2007 . Biostimulation of PAH degradation with plants containing high concentrations of linoleic acid . Environ Sci Technol. , 41 : 4382 – 4388 .

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