Page 125 - Plant-Based Remediation Processes
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114 M.d.S. Santos-Dı ´az
Pandolfini T, Gabbrielli R, Comparini C (1992) Nickel toxicity and peroxidase activity in
seedlings of Triticum aestivum L. Plant Cell Environ 15:719–925
Pilon-Smits E (2005) Phytoremediation. Annu Rev Plant Biol 56:15–39
Pilon-Smits E, Pilon M (2002) Phytoremediation of metals using transgenic plants. Crit Rev Plant
Sci 21:439–456
Pistelok F, Galas W (1999) Zinc pollution of the Przemsza river and its tributaries. Pol J Environ
Stud 8:47–53
Pollard AJ, Baker AJM (1996) Quantitative genetics of hyperaccumulation in Thlaspi
caerulescens. New Phytol 132:113–118
Ramakrishnan D, Salim J, Curtis WR (1994) Inoculation and tissue distribution in pilot-scale plant
root culture bioreactors. Biotechnol Tech 8:639–644
Ramgareeb S, Watt MP, Marsh C, Cooke JA (1999) Assessment of Al 3+ availability in callus
culture media for screening tolerant genotypes of Cynodon dactylon. Plant Cell Tiss Org Cult
56:65–68
Ribera D, Labrot F, Tisnerat G, Narbonne JF (1996) Uranium in the environment: occurrence,
transfer, and biological effects. Rev Environ Contam Toxicol 146:53–89
2+
Rivetta A, Negrini N, Cocucci M (1997) Involvement of Ca -calmodulin in Cd 2+ toxicity during
the early phases of radish (Raphanus sativus L.) seed germination. Plant Cell Environ
20:600–608
Robinson BH, Chiarucci A, Brooks RR, Petit D, Kirkman JH, Gregg PEH, De Dominicis V (1997)
The nickel hyperaccumulator plant Alyssum beroloniii as a potential agent for
phytoremediation and phytomining of nickel. J Geochem Explor 59:75–86
Ros A, Morales A, Segura J, Picazo I (1992) In vivo and in vitro effects of nickel and cadmium on
the plasmalemma ATPase from rice (Oryza sativa L.) shoots and roots. Plant Sci 83:1–6
Rout GR, Samantary S, Das P (1999) In vitro selection and biochemical characterization of zinc
and manganese adapted callus in Brassica spp. Plant Sci 146:89–100
Santos-Dı ´az MS, Barro ´n-Cruz MC (2011) Lead, chromium and manganese removal by in vitro
root cultures of two aquatic macrophytes species: Typha latifolia L. and Scirpus americanus
Pers. Int J Phytoremediation 13:538–551
Santos-Dı ´az MS, Barro ´n-Cruz MC, Alfaro-de la Torre MC (2007) Induction of in vitro roots
cultures of Typha latifolia and Scirpus americanus and study of their capacity to remove heavy
metals. Electron J Biotechnol 10:417–424
Schutzendu ¨bel A, Polle A (2002) Plant response to abiotic stresses: heavy metal-induced oxidative
stress and protection by mycorrhization. J Exp Bot 53:1351–1365
Shanks JV, Morgan J (1999) Plant “hairy root” culture. Curr Opin Biotechnol 10:151–155
Singh OV, Labana S, Pandey G, Budhiraja R, Jain RK (2003) Phytoremediation: an overview of
metallic ion decontamination from soil. Appl Microbiol Biotechnol 61:405–412
Sivakumar G, Yu K, Lee J, Kang J, Lee L, Kim W, Paek K (2006) Tissue cultured mountain
ginseng adventitious roots. Eng Life Sci 6:372–383
Soudek P, Petrova ´ S, Benes ˇova ´ D, Vane ˘k T (2011) Uranium uptake and stress respose of in vitro
cultivated hairy root culture of Amoracia rusticana. Agrochimica 60:15–28
Stohs SJ, Bagchi D (1995) Oxidative mechanisms in the toxicity of metal ions. Free Radic Biol
Med 18:321–336
Straczek A, Wannijn J, Van Hees M, Thijs H, Tiry Y (2009) Tolerance of hairy roots of carrots to
U chronic exposure in standardized in vitro device. Environ Exp Bot 65:82–89
Subroto MA, Priambodo S, Indrasti NS (2007) Accumulation of zinc by hairy root cultures of
Solanum nigrum. Biotechnology 6:344–348
Sudha CG, Seeni S (2001) Establishment and analysis of fast-growing normal root culture of
Decalepis arayalpathra, a rare endemic medicinal plant. Curr Sci 81:371–374
Suresh B, Ravishankar GA (2004) Phytoremediation – a novel and promising approach for
environmental clean-up. Crit Rev Biotechnol 24:97–124
Suza W, Harris RS, Lorence A (2008) Hairy roots: from high-value metabolite production to
phytoremediation. Electron J Integr Biosci 3:57–65
