Advanced search
Publication Cover
International Journal of Phytoremediation Volume 11, 2009 - Issue 4
Submit an article Journal homepage
275
Views
27
CrossRef citations to date
0
Altmetric
Original Articles

STABILITY OF ENHANCED YIELD AND METAL UPTAKE BY SUNFLOWER MUTANTS FOR IMPROVED PHYTOREMEDIATION

Erika Nehnevajova Phytotech-Foundation (PT-F), Quartiergasse 12, CH-3013, Berne, Switzerland; Institute of Biology/Applied Genetics, Free University of Berlin, Albrecht-Thaer-Weg 6, D-14195, Germany
,
Rolf Herzig Phytotech-Foundation (PT-F), Quartiergasse 12, CH-3013, Berne, Switzerland
,
Cécile Bourigault Phytotech-Foundation (PT-F), Quartiergasse 12, CH-3013, Berne, Switzerland
,
Sara Bangerter Phytotech-Foundation (PT-F), Quartiergasse 12, CH-3013, Berne, Switzerland
&
Jean-Paul Schwitzguébel Swiss Federal Institute of Technology Lausanne (EPFL), Laboratory for Environmental Biotechnology (LBE), Station 6, CH-1015, Lausanne, Switzerland
Pages 329-346 | Published online: 30 Dec 2008

REFERENCES

  • Angelova , V. , Ivanova , R. and Ivanov , K. 2004 . Heavy metal accumulation and distribution in oil crops . Comm. Soil Sci. Plant Anal. , 35 : 17 – 18 .
  • Cabelguenne , M. , Debaeke , P. and Bouniols , A. 1999 . EPIC phase, a version of the EPIC model simulating the effect of water and nitrogen stress on biomass and yield, taking account of the developmental stage: Validation on maize, sunflower, sorghum, soybean and winter wheat . Agric. Syst. , 60 : 175 – 196 .
  • Clemens , S. , Palmgren , M.G. and Krämer , U. 2002 . A long way ahead: understanding and engineering plant metal accumulation . Trends Plant Sci. , 7 : 309 – 315 .
  • Delhaize , E. 1996 . A metal-accumulator mutant of Arabidopsis thaliana . Plant Physiol. , 111 : 849 – 855 .
  • Eapen , S. and D'Souza , S.F. 2005 . Prospects of genetic engineering of plants for phytoreme-diation of toxic metals . Biotechnol. Adv. , 23 : 97 – 114 .
  • Gondek , K. and Filipek-Mazur , B. 2003 . Biomass yields of shoots and roots of plants cultivated in soil amended by vermicomposts based on tannery sludge and content of heavy metals in plant tissues . Plant Soil Environ , 49 : 402 – 409 .
  • Greger , M. 2004 . “ Metal availability, uptake, transport and accumulation in plants ” . In Heavy Metal Stress in Plants—From Biomolecules to Ecosystem , Edited by: Prasad , M.N.V. 1 – 27 . Berlin , , Heidelberg : Springer Verlag .
  • Guadagnini , M. , Herzig , R. , Erismann , K.H. and Müller-Schärer , H. 1998 . Im Labor gezüchtete Pflanzen für die Bodensanierung . BioWorld , 3 : 3 – 6 .
  • Herzig , R. , Guadagnini , M. , Erismann , K.H. and Müller-Schärer , H. 1997 . Chancen der Phytoextraktion. Sanfte Bodendekontamination von Schwermetallen mit Hilfe biotechnisch verbesserter Akkumulatorpflanzen . TerraTech , 2 : 49 – 52 .
  • Herzig , R. , Nehnevajova , E. , Vangronsveld , J. , Ruttens , A. and Mastretta , C. PHYTAC—Development of Systems to Improve Phytoremediation of Metal Contaminated Soils through Improved Phytoremediation . December 2005 . Final report of the 5th Framework Programme, Projects Nr QLRT-2001-00429 and QLRT-2001-02778 (NAS) , pp. 160 – 190 .
  • Jan , V.V. , Demacedo , C.C. , Kinet , J.M. and Bouharmont , J. 1997 . Selection of Al-resistant plants from a sensitive rice cultivar using somaclonal variation, in vitro and hydroponic cultures . Euphytica , 97 : 303 – 310 .
  • Kärenlampi , S. , Schat , H. , Vangronsveld , J. , Verkleij , J.A.C. , Van Der Lelie , D. , Mergeay , M. and Tervahauta , A.I. 2000 . Genetic engineering in the improvement of plants for phytoremediation of metal polluted soils . Environ. Pollut. , 107 : 225 – 231 .
  • Karlaganis , G . 2001 . Swiss concept of soil protection. Commentary on the Ordinance of 1 July 1998 relating to impact on the soil (OIS) . J. Soils Sediments , 1 : 239 – 254 .
  • Kayser , A. , Wenger , K. , Keller , A. , Attiger , W. , Felix , H.R. , Gupta , S.K. and Schulin , R. 2000 . Enhancement of phytoextraction of Zn, Cd, and Cu from calcareous soil: the use of NTA and sulfur amendments . Environ. Sci. Technol. , 34 : 1778 – 1783 .
  • Keller , C. , Hammer , D. , Kayser , A. , Richner , W. , Brodbeck , M. and Sennhauser , M. 2003 . Root development and heavy metal phytoextraction efficiency: comparison of different plant species in the field . Plant and Soil , 249 : 67 – 81 .
  • Krämer , U. and Chardonnens , A.N. 2001 . The use of transgenic plants in the bioremediation of soils contaminated with trace elements . Appl. Microbiol. Biotechnol. , 55 : 661 – 672 .
  • LeDuc , L.D. , AbdelSamie , M. , Móntes-Bayon , M. , Wu , C. , Reisinger , S.J. and Terry , N. 2006 . Overexpressing both ATP sulfurylase and selenocysteine methyltransferase enhances selenium phytoremediation traits in Indian mustard . Environ. Pollut. , 144 : 70 – 76 .
  • Lin , J. , Jiang , W. and Liu , D. 2003 . Accumulation of copper by roots, hypocotyls, cotyledons and leaves of sunflower (Helianthus annuus L.) . Biores. Technol. , 86 : 151 – 155 .
  • Lombi , E. , Gezabek , M. H. and Horak , O. 1998 . Mobility of heavy metals in soil and their uptake by sunflowers grown at different contamination levels . Agronomie , 18 : 361 – 371 .
  • Madejón , P. , Murillo , J.M. , Marañón , T. , Cabrera , F. and Soriano , M.A. 2003 . Trace element and nutrient accumulation in sunflower plants two years after the Aznacóllar mine spill . Sci. Total Environ. , 7 : 239 – 257 .
  • Maluszynski , M. , Ahloowalia , B.S. and Sigubjörnsson , B. 1995 . Application of in vivo and in vitro mutation techniques for crop improvement . Euphytica , 85 : 303 – 315 .
  • Marchiol , L. , Fellet , G. , Perosa , D. and Zerbi , G. 2007 . Removal of trace metals by Sorghum bicolor and Helianthus annuus in a site polluted by industrial waste: A field experience . Plant Physiol. Biochem. , 45 : 379 – 387 .
  • McGrath , S.P. and Zhao , F.J. 2003 . Phytoextraction of metals and metalloids from contaminated soil . Curr. Opin. Biotechnol. , 14 : 277 – 282 .
  • McGrath , S.P. , Lombi , E. , Gray , C.W. , Caille , N. , Dunham , S.J. and Zhao , F.J. 2006 . Field evaluation of Cd and Zn phytoextraction potential by the hyperaccumulators Thlaspi caerulescens and Arabidopsis halleri . Environ. Pollut. , 141 : 115 – 125 .
  • Nehnevajova , E. 2005 . “ Non-GMO approach for the improvement of heavy metal accumulation and extraction of high yielding crop species for efficient phytoextraction of contaminated soil ” . In PhD Thesis Nr 3414, EPFL Lausanne 145 Switzerland
  • Nehnevajova , E. , Herzig , R. , Federer , G. , Erismann , K.H. and Schwitzguébel , J.P. 2005 . Screening of sunflower cultivars for metal phytoextraction in a contaminated field prior to mutagenesis . Int. J. Phytorem. , 7 : 337 – 349 .
  • Nehnevajova , E. , Herzig , R. , Erismann , K.H. and Schwitzguébel , J.P. 2007a . In vitro breeding of Brassica juncea L. to enhance metal accumulation and extraction properties . Plant Cell Rep. , 26 : 429 – 437 .
  • Nehnevajova , E. , Herzig , R. , Federer , G. , Erismann , K.H. and Schwitzguébel , J.P. 2007b . Chemical mutagenesis—an efficient technique to enhance metal accumulation and extraction in sunflowers . Int. J. Phytorem. , 9 : 149 – 165 .
  • PhyLes . 2004 . Phytoextraction of Lead from Soil . Available from http://www.phyles.ge.cnr.it
  • Salt , D.E. , Smith , R.D. and Raskin , I. 1998 . Phytoremediation . Annu. Rev. Plant Phys. , 49 : 643 – 668 .
  • Sas-Nowosielska , A. , Kucharski , R. , Malkowski , E. , Pogrzeba , M. and Kuperberg , J.M. 2004 . Phytoextraction crop disposal: an unsolved problem . Environ. Pollut. , 128 : 373 – 379 .
  • Schröder , P. , Herzig , R. , Bojnov , B. , Ruttens , A. , Nehnevajova , E. , Stamatiadis , S. , Memon , A. , Vassilev , A. , Caviezel , M. and Vangronsveld , J. 2008 . Bioenergy to save the world. Producing novel energy plants for growth on abandoned land . Env. Sci. Poll. Res. , 15 : 196 – 204 .
  • Schwitzguébel , J.P. , Van Der Lelie , D. , Baker , A. , Glass , D.J. and Vangronsveld , J. 2002 . Phytoremediation: European and American trends, success, obstacles and needs . J. Soils Sediments , 2 : 91 – 99 .
  • Schwitzguébel , J.P. , Nehnevajova , E. , Federer , G. and Herzig , R. 2005 . “ Metal concentration and metabolism in higher plants: potential for phytoremediation ” . In Soil and Sediments Remediation, Mechanisms, Technologies and Applications , Edited by: Lens , P. , Grotenhuis , T. , Malina , G. and Tabak , H. 289 – 307 . London , Seattle : IWA Publishing .
  • Singh , S. , Saxena , R. , Pandey , K. , Bhatt , K. and Sinha , S. 2004 . Response of antioxidants in sunflower (Helianthus annuus L.) grown on different amendments of tannery sludge: its metal accumulation potential . Chemosphere , 57 : 1663 – 1673 .
  • Soudek , P. , Tykva , R. , Vanková , R. and Vanek , T. 2006 . Accumulation of radioiodine from aqueous solution by hydroponically cultivated sunflower (Helianthus annuus L.) . Environ. Exp. Bot. , 57 : 220 – 225 .
  • Van Der Lelie , D. , Schwitzguébel , J.P. , Glass , D.J. , Vangronsveld , J. and Baker , A. 2001 . Assessing phytoremediation's progress in the United States and Europe . Environ. Sci. Technol. , 35 : 447 – 452 .
  • Van Ginneken , L. , Meers , E. , Guisson , R. , Ruttens , A. , Elst , K. , Tack , F.M.G. , Vangronsveld , J. , Diels , L. and Dejonghe , W. 2007 . Phytoremediation for heavy metal-contaminated soils combined with bioenergy production . J. Environ. Eng. Landscape Management , 15 : 227 – 236 .
  • Vassilev , A. , Schwitzguébel , J.P. , Thewys , T. , Van Der Lelie , D. and Vangronsveld , J. 2004 . The use of plants for remediation of metal-contaminated soils . Scientific World J. , 4 : 9 – 34 .
  • Wenger , K. 2000 . “ Ligand-Assisted Phytoextraction of Heavy Metals from Contaminated Soil Using Common Crop Plants ” . In PhD Thesis Nr 13900, ETH Zurich Switzerland
  • Yankov , B. and Tahsin , N. 2001 . Accumulation and distribution of Pb, Cu, Zn and Cd in sunflower (Helianthus annuus L.) grown in an industrially polluted region . Helia , 24 : 131 – 136 .

Reprints and Corporate Permissions

Please note: Selecting permissions does not provide access to the full text of the article, please see our help page How do I view content?

To request a reprint or corporate permissions for this article, please click on the relevant link below:

Order Reprints Request Corporate Permissions

Academic Permissions

Please note: Selecting permissions does not provide access to the full text of the article, please see our help page How do I view content?

Obtain permissions instantly via Rightslink by clicking on the button below:

Request Academic Permissions

If you are unable to obtain permissions via Rightslink, please complete and submit this Permissions form. For more information, please visit our Permissions help page.

Related research

People also read lists articles that other readers of this article have read.

Recommended articles lists articles that we recommend and is powered by our AI driven recommendation engine.

Cited by lists all citing articles based on Crossref citations.
Articles with the Crossref icon will open in a new tab.