Authors:
B. Panwar CCS Haryana Agricultural University Department of Soil Science Hisar India

Search for other papers by B. Panwar in
Current site
Google Scholar
PubMed
Close
,
L. Marton Research Institute for Soil Science and Agricultural Chemistry of the Hungarian Academy of Sciences Budapest Hungary

Search for other papers by L. Marton in
Current site
Google Scholar
PubMed
Close
,
I. Kádár Research Institute for Soil Science and Agricultural Chemistry of the Hungarian Academy of Sciences Budapest Hungary

Search for other papers by I. Kádár in
Current site
Google Scholar
PubMed
Close
,
A. Anton Research Institute for Soil Science and Agricultural Chemistry of the Hungarian Academy of Sciences Budapest Hungary

Search for other papers by A. Anton in
Current site
Google Scholar
PubMed
Close
, and
T. Németh Research Institute for Soil Science and Agricultural Chemistry of the Hungarian Academy of Sciences Budapest Hungary

Search for other papers by T. Németh in
Current site
Google Scholar
PubMed
Close
Restricted access
  • Ahmed, K. S., Panwar, B. S., Gupta, S. P. (2001): Phytoremediation of cadmium contaminated soil by Brassica species. Acta Agron. Hung., 49, 351–360.

    Gupta S. P. , 'Phytoremediation of cadmium contaminated soil by Brassica species ' (2001 ) 49 Acta Agron. Hung. : 351 -360 .

    • Search Google Scholar
  • Ashot, P., Kochian, L. V. (2004): Identification of Thlaspi caerulescens genes that may be involved in heavy metal hyperaccumulation and tolerance. Characterization of a novel heavy metal transporting ATPase. Plant Physiol., 136, 3814–3823.

    Kochian L. V. , 'Identification of Thlaspi caerulescens genes that may be involved in heavy metal hyperaccumulation and tolerance. Characterization of a novel heavy metal transporting ATPase ' (2004 ) 136 Plant Physiol. : 3814 -3823 .

    • Search Google Scholar
  • Baker, A. J. M., Brooks, R. R. (1989): Terrestrial higher plants which hyperaccumulate metal elements — a review of their distribution, ecology and phytochemistry. Biorecovery, 1, 81–126.

    Brooks R. R. , 'Terrestrial higher plants which hyperaccumulate metal elements — a review of their distribution, ecology and phytochemistry ' (1989 ) 1 Biorecovery : 81 -126 .

    • Search Google Scholar
  • Baker, A. J. M., Reeves, R. D., McGrath, S. P. (1991): In situ decontamination of heavy metal polluted soils using crops of metal-accumulating plants — a feasibility study. pp. 600–605. In: Hinchee, R. L., Olfenbuttel, R. F. (eds.), In situ Bioreclamation. Butterworth-Heinemann, Boston.

    McGrath S. P. , '', in In situ Bioreclamation , (1991 ) -.

  • Banga, S. S. (1997): Genetics and breeding in Brassica oilseed crops. pp. 389–395. In: Thomas, G., Monteiro, A. A. (eds.), Proceedings of the International Symposium on Brassicas, Rennes, France ISHS. Acta Hort., 459.

  • Berti, W. R., Cunningham, S. D. (2000): Phytostabilization of metals. pp. 71–88. In: Raskin, I., Ensley, B. D. (eds.), Phytoremediation of Toxic Metals using Plants to Clean up the Environment. John Wiley & Sons, Inc., New York.

    Cunningham S. D. , '', in Phytoremediation of Toxic Metals using Plants to Clean up the Environment , (2000 ) -.

  • Biró, B., Köves-Péchy, K., Vörös, I., Kádár, I. (1998): Toxicity of field applied heavy metal salts to the rhizobial and fungal microsymbionts of alfalfa and red clover. Agrokémia és Talajtan, 47, 265–277.

    Kádár I. , 'Toxicity of field applied heavy metal salts to the rhizobial and fungal microsymbionts of alfalfa and red clover ' (1998 ) 47 Agrokémia és Talajtan : 265 -277 .

    • Search Google Scholar
  • Biró, B., Köves-Péchy, K., Vörös, I., Kádár, M. (1999): Intensification of nodulation and nitrogenfixing activity preceding the “loss of function” by the long-term application of some toxic metal rates. pp. 178–179. In: Wenzel, W. W. (ed.), Proc. of 5th Int. Conf. Biogeochem. Trace Elements. Vienna, Austria.

  • Black, H. (1995): Absorbing possibilities: Phytoremediation. Environ. Health Persp., 103, 1106–1108.

    Black H. , 'Absorbing possibilities: Phytoremediation ' (1995 ) 103 Environ. Health Persp. : 1106 -1108 .

    • Search Google Scholar
  • Blaylock, M. J., Huang, J. W. (2000): Phytoextraction of metals. Pp. 53–70. In: Raskin, I., Ensley, B. D. (eds.), Phytoremediation of Toxic Metals using Plants to Clean up the Environment. John Wiley & Sons, Inc., New York.

    Huang J. W. , '', in Phytoremediation of Toxic Metals using Plants to Clean up the Environment , (2000 ) -.

  • Brooks, R. R. (ed.) (1998): Plants that Hyperaccumulate Heavy Metals: their Role in Phytoremediation, Microbiology, Archaeology, Mineral Exploration and Phytomining. CAB International, New York, pp. 1–14.

    '', in Plants that Hyperaccumulate Heavy Metals: their Role in Phytoremediation, Microbiology, Archaeology, Mineral Exploration and Phytomining , (1998 ) -.

  • Chaney, R. L. (1983): Plant uptake of inorganic waste constituents. pp. 50–76. In: Parr, J. F., Marsh, P. B., Kla, J. N. (eds.), Land Treatment of Hazardous Wastes. Noyes Data Corp., Park Ridge, NJ.

    Chaney R. L. , '', in Land Treatment of Hazardous Wastes , (1983 ) -.

  • Chaudhry, T. M., Hayes, W. J., Khan, A. G., Khoo, C. S. (1998): Phytoremediation — focusing on accumulator plants that remediate metal contaminated soils. Aust. J. Ecotoxicol., 4, 37–51.

    Khoo C. S. , 'Phytoremediation — focusing on accumulator plants that remediate metal contaminated soils ' (1998 ) 4 Aust. J. Ecotoxicol. : 37 -51 .

    • Search Google Scholar
  • Cherian, S., Oliveira, M. M. (2005): Transgenic plants in phytoremediation: recent advances and new possibilities. Environ. Sci. Technol., 39, 9377–9390.

    Oliveira M. M. , 'Transgenic plants in phytoremediation: recent advances and new possibilities ' (2005 ) 39 Environ. Sci. Technol. : 9377 -9390 .

    • Search Google Scholar
  • Comis, D. (1996): Green remediation: Using plants to clean the soil. J. Soil Water Conserv., 51, 184–187.

    Comis D. , 'Green remediation: Using plants to clean the soil ' (1996 ) 51 J. Soil Water Conserv. : 184 -187 .

    • Search Google Scholar
  • Cunningham, S. D., Berti, W. R., Huang, J. W. (1995): Phytoremediation of contaminated soils. Trends Biotechnol., 13, 393–397.

    Huang J. W. , 'Phytoremediation of contaminated soils ' (1995 ) 13 Trends Biotechnol. : 393 -397 .

    • Search Google Scholar
  • Cunningham, S. D., Ow, D. W. (1996): Promises and prospects of phytoremediation. Plant Physiol., 110, 715–719.

    Ow D. W. , 'Promises and prospects of phytoremediation ' (1996 ) 110 Plant Physiol. : 715 -719 .

    • Search Google Scholar
  • Cunningham, S. D., Shann, J. R., Crowley, D. E., Anderson, T. A. (1997): Phytoremediation of contaminated water and soil. pp. 2–19. In: Kruger, E. L., Anderson, T. A., Coats, J. R. (eds.), Phytoremediation of Soil and Water Contaminants. ACS Symposium Series 664. American Chemical Society, Washington, DC.

    Anderson T. A. , '', in Phytoremediation of Soil and Water Contaminants , (1997 ) -.

  • Dierberg, F. E., DeBusk, T. A., Goulet, N. A. (1987): Removal of copper and lead using a thin film technique. pp. 497–504. In: Reddy, K. R., Smith, W. H. (eds.), Aquatic Plants for Water Treatment and Resource Recovery. Magnolia Publishing, Orlando, FL.

    Goulet N. A. , '', in Aquatic Plants for Water Treatment and Resource Recovery , (1987 ) -.

  • Dushenkov, S., Vasudev, D., Kapulnik, Y., Gleba, D., Fleisher, D., Ting, K. C., Ensley, B. (1997a): Removal of uranium from water using terrestrial plants. Environ. Sci. Technol,. 31, 3468–3474.

    Ensley B. , 'Removal of uranium from water using terrestrial plants ' (1997 ) 31 Environ. Sci. Technol : 3468 -3474 .

    • Search Google Scholar
  • Dushenkov, S., Vasudev, D., Kapulnik, Y., Gleba, D., Fleisher, D., Ting, K. C., Ensley, B. (1997b): Phytoremediation: A novel approach to an old problem. pp. 563–572. In: Wise, D. L. (ed.), Global Environmental Biotechnology. Elsevier Science B. V., Amsterdam.

    Ensley B. , '', in Global Environmental Biotechnology , (1997 ) -.

  • Dushenkov, V., Kumar, P. B., Motto, H., Raskin, I. (1995): Rhizofiltration: the use of plants to remove heavy metals from aqueous streams. Environ. Sci. Technol., 29, 1239–1245.

    Raskin I. , 'Rhizofiltration: the use of plants to remove heavy metals from aqueous streams ' (1995 ) 29 Environ. Sci. Technol. : 1239 -1245 .

    • Search Google Scholar
  • Ebbs, S. D., Lasat, M. M., Brady, D. J., Cornish, J., Gordon, R., Kochian, L. V. (1997): Phytoextraction of cadmium and zinc from a contaminated soil. J. Environ. Qual., 26, 1424–1430.

    Kochian L. V. , 'Phytoextraction of cadmium and zinc from a contaminated soil ' (1997 ) 26 J. Environ. Qual. : 1424 -1430 .

    • Search Google Scholar
  • Flathman, P. E., Lanza, G. R. (1998): Phytoremediation: current views on an emerging green technology. J. Soil Contam., 7, 415–432.

    Lanza G. R. , 'Phytoremediation: current views on an emerging green technology ' (1998 ) 7 J. Soil Contam. : 415 -432 .

    • Search Google Scholar
  • Füzy, A., Tóth, T., Biró, B. (2006): Seasonal dynamics of mycorrhiza (AMF) colonization in the rhizosphere of some dominant halophytes. Agrokémia és Talajtan, 56, 231–240.

    Biró B. , 'Seasonal dynamics of mycorrhiza (AMF) colonization in the rhizosphere of some dominant halophytes ' (2006 ) 56 Agrokémia és Talajtan : 231 -240 .

    • Search Google Scholar
  • Gisbert, C., Ros, R., De Haro, A., Walker, D. J., Pilar Bernal, M., Ramón Serrano, R., Navarro-Aviñó, J. (2003): A plant genetically modified that accumulates Pb is especially promising for phytoremediation. Biochem. Biophys. Res. Commun., 303, 440–445.

    Navarro-Aviñó J. , 'A plant genetically modified that accumulates Pb is especially promising for phytoremediation ' (2003 ) 303 Biochem. Biophys. Res. Commun. : 440 -445 .

    • Search Google Scholar
  • Gondola, I., Kadar, I. (1995): Heavy metal content of flue-cured tobacco leaf in different growing regions of Hungary. Acta Agron. Hung., 43, 243–251.

    Kadar I. , 'Heavy metal content of flue-cured tobacco leaf in different growing regions of Hungary ' (1995 ) 43 Acta Agron. Hung. : 243 -251 .

    • Search Google Scholar
  • Heaton, A., Rugh, C. L., Wang, N., Meagher, R. B. (1998): Phytoremediation of mercury- and methylmercury-polluted soils using genetically engineered plants. J. Soil Contam., 7, 497–509.

    Meagher R. B. , 'Phytoremediation of mercury- and methylmercury-polluted soils using genetically engineered plants ' (1998 ) 7 J. Soil Contam. : 497 -509 .

    • Search Google Scholar
  • Huang, J. W., Chen, J., Berti, W. R., Cunningham, S. D. (1997): Phytoremediation of leadcontaminated soils: role of synthetic chelates in lead phytoextraction. Environ. Sci. Tech., 31, 800–805.

    Cunningham S. D. , 'Phytoremediation of leadcontaminated soils: role of synthetic chelates in lead phytoextraction ' (1997 ) 31 Environ. Sci. Tech. : 800 -805 .

    • Search Google Scholar
  • Kadar, I. (1992): Principals and Methods in Plant Nutrition. RISSAC, Akaprint, Budapest.

    Kadar I. , '', in Principals and Methods in Plant Nutrition , (1992 ) -.

  • Kádár, I., Németh, T. (2005): Leaching of microelement contaminants: a long-term field study. Zbl. Naturforsch., 60c, 260–264.

    Németh T. , 'Leaching of microelement contaminants: a long-term field study ' (2005 ) 60c Zbl. Naturforsch. : 260 -264 .

    • Search Google Scholar
  • Kay, S. H., Haller, W. T., Garrard, L. A. (1984): Effect of heavy metals on water hyacinth [Eichhornia crassipes (Mart.) Solms]. Aquatic Toxicol., 5, 117–128.

    Garrard L. A. , 'Effect of heavy metals on water hyacinth [Eichhornia crassipes (Mart.) Solms] ' (1984 ) 5 Aquatic Toxicol. : 117 -128 .

    • Search Google Scholar
  • Kumar, P., Dushenkov, V., Motto, H., Raskin, I. (1995): Phytoextraction: The use of plants to remove heavy metals from soils. Environ. Sci. Technol., 29, 1232–1238.

    Raskin I. , 'Phytoextraction: The use of plants to remove heavy metals from soils ' (1995 ) 29 Environ. Sci. Technol. : 1232 -1238 .

    • Search Google Scholar
  • Lasat, M. M., Fuhrmann, M., Ebbs, S. D., Cornish, J. E., Kochian, L. V. (1998): Phytoremediation of a radiocesium-contaminated soil: evaluation of cesium-137 bioaccumulation in the shoots of three plant species. J. Environ. Qual., 27, 163–169.

    Kochian L. V. , 'Phytoremediation of a radiocesium-contaminated soil: evaluation of cesium-137 bioaccumulation in the shoots of three plant species ' (1998 ) 27 J. Environ. Qual. : 163 -169 .

    • Search Google Scholar
  • Lewis, B. G., Johnson, C. M., Delwiche, C. C. (1966): Release of volatile selenium compounds by plants: collection procedures and preliminary observations. J. Agr. Food Chem., 14, 638–640.

    Delwiche C. C. , 'Release of volatile selenium compounds by plants: collection procedures and preliminary observations ' (1966 ) 14 J. Agr. Food Chem. : 638 -640 .

    • Search Google Scholar
  • Mishra, S., Panwar, B. S., Mehta, S. C., Poonia, S. R. (2007): Effect of chelating agents, FYM and herbicides on the phytoextractability of Indian mustard from Cd-enriched soil. J. Environ. Ecol., 25, 591–595.

    Poonia S. R. , 'Effect of chelating agents, FYM and herbicides on the phytoextractability of Indian mustard from Cd-enriched soil ' (2007 ) 25 J. Environ. Ecol. : 591 -595 .

    • Search Google Scholar
  • Mo, S. C., Choi, D. S., Robinson, J. W. (1989): Uptake of mercury from aqueous solution by duckweed: the effect of pH, copper, and humic acid. J. Environ. Health Sci., 24, 135–146.

    Robinson J. W. , 'Uptake of mercury from aqueous solution by duckweed: the effect of pH, copper, and humic acid ' (1989 ) 24 J. Environ. Health Sci. : 135 -146 .

    • Search Google Scholar
  • Naár, Z., Biró, B. (2006): Species composition of indigenous Trichoderma fungi affected by Cd, Ni and Zn heavy metals in calcareous chernozem soil. Agrokémia és Talajtan, 56, 261–270.

    Biró B. , 'Species composition of indigenous Trichoderma fungi affected by Cd, Ni and Zn heavy metals in calcareous chernozem soil ' (2006 ) 56 Agrokémia és Talajtan : 261 -270 .

    • Search Google Scholar
  • Pal, M. K. (2009): Impact of chelating agents and bioinoculants on phyto-extraction of Pb and Hg by Indian mustard. M.Sc. Thesis, CCS, HAU, Hisar, India.

    Pal M. K. , '', in Impact of chelating agents and bioinoculants on phyto-extraction of Pb and Hg by Indian mustard , (2009 ) -.

  • Panwar, B. S. (2010): Phytoremediation: Enhanced cadmium accumulation by organic, chemical chelates and microbial inoculants in Indian mustard (Brassica juncea). Proceedings 3rd IFSDAA International Seminar on “Crop Science for Food Security, Bio-energy and Sustainability”. Szeged, Hungary. (in press).

  • Panwar, B. S., Ahmed, K. S., Mittal, S. B. (2002a): Phytoremediation of nickel contaminated soils by Brassica species. J. Environ. Dev. Sustain., 1, 1–6.

    Mittal S. B. , 'Phytoremediation of nickel contaminated soils by Brassica species ' (2002 ) 1 J. Environ. Dev. Sustain. : 1 -6 .

    • Search Google Scholar
  • Panwar, B. S., Ahmed, K. S., Sihag, D., Patel, A. L. (2005): Distribution of cadmium and nickel among various forms in natural and contaminated soils amended with EDTA. J. Environ. Dev. Sustain., 7, 153–160.

    Patel A. L. , 'Distribution of cadmium and nickel among various forms in natural and contaminated soils amended with EDTA ' (2005 ) 7 J. Environ. Dev. Sustain. : 153 -160 .

    • Search Google Scholar
  • Panwar, B. S., Ahmed, K. S., Singh, J. P., Dahiya, S. S. (2002b): Effect of EDTA on the distribution of cadmium and nickel among various fractions in natural and contaminated soils. Proc. XIth National Symposium on Environment. pp. 190–194.

  • Panwar, B. S., Marton, L. (2008): Phytoremediation of Potentially Toxic Heavy Metals Contaminated Soils by Agricultural Crop Genotypes. Project Report-DST, New Delhi, India and HAS MOE, Budapest, Hungary.

    Marton L. , '', in Phytoremediation of Potentially Toxic Heavy Metals Contaminated Soils by Agricultural Crop Genotypes , (2008 ) -.

  • Pilon-Smits, E. A. H., de Souza, M. P., Hong, G., Amini, A., Bravo, R. C., Payabyab, S. T., Terry, N. (1999): Selenium volatilization and accumulation by twenty aquatic plant species. J. Environ. Qual., 28, 1011–1017.

    Terry N. , 'Selenium volatilization and accumulation by twenty aquatic plant species ' (1999 ) 28 J. Environ. Qual. : 1011 -1017 .

    • Search Google Scholar
  • Posta, K., Füleky, G. (1997): Growth and P nutrition of mycorrhizal maize plants at different soil volumes and phosphorus supply. Acta Agron. Hung., 45, 135–145.

    Füleky G. , 'Growth and P nutrition of mycorrhizal maize plants at different soil volumes and phosphorus supply ' (1997 ) 45 Acta Agron. Hung. : 135 -145 .

    • Search Google Scholar
  • Raskin, I., Ensley, B. D. (2000): Phytoremediation of Toxic Metals: Using Plants to Clean Up the Environment. John Wiley & Sons, Inc., New York. pp. 53–70.

    Ensley B. D. , '', in Phytoremediation of Toxic Metals: Using Plants to Clean Up the Environment , (2000 ) -.

  • Reeves, R. D., Baker, A. J. M. (2000): Metal-accumulating plants. pp. 193–230. In: Raskin, I., Ensley, B. D. (eds.), Phytoremediation of Toxic Metals: Using Plants to Clean Up the Environment. John Wiley & Sons, Inc., New York.

    Baker A. J. M. , '', in Phytoremediation of Toxic Metals: Using Plants to Clean Up the Environment , (2000 ) -.

  • Reeves, R. D., Brooks, R. R. (1983): Hyperaccumulation of lead and zinc by two metallophytes from a mining area of Central Europe. Environ. Pollut., 31, 277–287.

    Brooks R. R. , 'Hyperaccumulation of lead and zinc by two metallophytes from a mining area of Central Europe ' (1983 ) 31 Environ. Pollut. : 277 -287 .

    • Search Google Scholar
  • Rugh, C. L., Gragson, G. M., Meagher, R. B., Merkle, S. A. (1998): Toxic mercury reduction and remediation using transgenic plants with a modified bacterial gene. Hortscience, 33, 618–621.

    Merkle S. A. , 'Toxic mercury reduction and remediation using transgenic plants with a modified bacterial gene ' (1998 ) 33 Hortscience : 618 -621 .

    • Search Google Scholar
  • Rylott, E., Jackson, R. G., Edwards, J., Womack, G. L., Seth-Smith, H. M. B., Rathbone, D. A., Stran, S. E., Bruce, N. C. (2006): An explosive-degrading cytochrome P450 activity and its targeted application for the phytoremediation of RDX. Nature, 24, 216–219.

    Bruce N. C. , 'An explosive-degrading cytochrome P450 activity and its targeted application for the phytoremediation of RDX ' (2006 ) 24 Nature : 216 -219 .

    • Search Google Scholar
  • Salt, D. E., Blaylock, M., Kumar, N. P., Dushenkov, V., Ensley, D., Chet, I., Raskin, I. (1995): Phytoremediation: a novel strategy for the removal of toxic metals from the environment using plants. Biotechnol., 13, 468–474.

    Raskin I. , 'Phytoremediation: a novel strategy for the removal of toxic metals from the environment using plants ' (1995 ) 13 Biotechnol. : 468 -474 .

    • Search Google Scholar
  • Salt, D. E., Pickering, I. J., Prince, R. C., Gleba, D., Dushenkov, S., Smith, R. D., Raskin, I. (1997): Metal accumulation by aquacultured seedlings of Indian mustard. Environ. Sci. Technol., 31, 1636–1644.

    Raskin I. , 'Metal accumulation by aquacultured seedlings of Indian mustard ' (1997 ) 31 Environ. Sci. Technol. : 1636 -1644 .

    • Search Google Scholar
  • Schnoor, J. L. (2000): Phytostabilization of metals using hybrid poplar trees. pp. 133–150. In: Raskin, I., Ensley, B. D. (eds.), Phytoremediation of Toxic Metals: Using Plants to Clean up the Environment. John Wiley & Sons, Inc., New York.

    Schnoor J. L. , '', in Phytoremediation of Toxic Metals: Using Plants to Clean up the Environment , (2000 ) -.

  • Schnoor, J. L. (2002): Phytoremediation of Soil and Groundwater. Technology Evaluation Report TE-02-01, Ground-Water Remediation Technologies Analysis Center, Pittsburgh, PA. ( http://www.gwrtac.org )

    Schnoor J. L. , '', in Phytoremediation of Soil and Groundwater , (2002 ) -.

  • Shingu, Y., Yokomizo, S., Kimura, M., Ono, Y., Yamaguchi, I., Hamamoto, H. (2006): Conferring cadmium resistance to mature tobacco plants through metal absorbing particles of tomato mosaic virus. Plant Biotechnol. J., 4, 281–288.

    Hamamoto H. , 'Conferring cadmium resistance to mature tobacco plants through metal absorbing particles of tomato mosaic virus ' (2006 ) 4 Plant Biotechnol. J. : 281 -288 .

    • Search Google Scholar
  • Simon, L., Biró, B. (2005): Role of amendments and Zn-tolerant mycorrhizal fungi in phytostabilization of metal-contaminated mine spoil from Gyöngyösoroszi. Agrokémia és Talajtan, 54, 163–177.

    Biró B. , 'Role of amendments and Zn-tolerant mycorrhizal fungi in phytostabilization of metal-contaminated mine spoil from Gyöngyösoroszi ' (2005 ) 54 Agrokémia és Talajtan : 163 -177 .

    • Search Google Scholar
  • Simon, L., Biró, B., Balázsy, S. (2008): Impact of pseudomonads and ethylene on the cadmium and nickel rhizofiltration of sunflower, squash and Indian mustard. Commun. Soil Sci. Plant Anal., 36, 2440–2455.

    Balázsy S. , 'Impact of pseudomonads and ethylene on the cadmium and nickel rhizofiltration of sunflower, squash and Indian mustard ' (2008 ) 36 Commun. Soil Sci. Plant Anal. : 2440 -2455 .

    • Search Google Scholar
  • Simon, L., Széles, É., Balázsy, S., Biró, B. (2007): Selenium phytoextraction, speciation and microbial groups in Se-contaminated soils. pp. 554–555. In: Zhu, Y. G. (ed.), Proceedings. Biogeochemistry of Trace Elements. Environmental Protection, Remediation and Human Health. Beijing, China.

  • Smith, R. A. H., Bradshaw, A. D. (1979): The use of metal tolerant plant populations for the reclamation of metalliferous wastes. J. Appl. Ecol., 16, 595–612.

    Bradshaw A. D. , 'The use of metal tolerant plant populations for the reclamation of metalliferous wastes ' (1979 ) 16 J. Appl. Ecol. : 595 -612 .

    • Search Google Scholar
  • Takács, T., Lukács, A., Karátsonyi, M. (2006): Effect of five phosphate rocks on the bioavailability of phosphorus and cadmium. Cereal Res. Commun., 34, 347–350.

    Karátsonyi M. , 'Effect of five phosphate rocks on the bioavailability of phosphorus and cadmium ' (2006 ) 34 Cereal Res. Commun. : 347 -350 .

    • Search Google Scholar
  • Takács, T., Vörös, I. (2003): Effect of metal non-adapted AM fungi on Cd, Ni and Zn uptake by ryegrass. Acta Agron. Hung., 51, 347–354.

    Vörös I. , 'Effect of metal non-adapted AM fungi on Cd, Ni and Zn uptake by ryegrass ' (2003 ) 51 Acta Agron. Hung. : 347 -354 .

    • Search Google Scholar
  • Terry, N., Carlson, C., Raab, T. K., Zayed, A. (1992): Rates of selenium volatilization among crop species. J. Environ. Qual., 21, 341–344.

    Zayed A. , 'Rates of selenium volatilization among crop species ' (1992 ) 21 J. Environ. Qual. : 341 -344 .

    • Search Google Scholar
  • US EPA (2000): Introduction to Phytoremediation. US Environmental Protection Agency (EPA) Reports. EPA 600/R-99/107.

  • Vivas, A., Biró, B., Ruíz-Lozano, J. M., Barea, J. M., Azcón, R. (2006): Two bacterial strains isolated from a Zn-polluted soil enhance plant growth and mycorrhizal efficiency under Zn toxicity. Chemosphere, 62, 1523–1533.

    Azcón R. , 'Two bacterial strains isolated from a Zn-polluted soil enhance plant growth and mycorrhizal efficiency under Zn toxicity ' (2006 ) 62 Chemosphere : 1523 -1533 .

    • Search Google Scholar
  • Watanabe, M. E. (1997): Phytoremediation on the brink of commercialization. Environ. Sci. Technol., 31, 182–186.

    Watanabe M. E. , 'Phytoremediation on the brink of commercialization ' (1997 ) 31 Environ. Sci. Technol. : 182 -186 .

    • Search Google Scholar
  • Zhu, Y. L., Zayed, A. M., Quian, J. H., de Souza, M., Terry, N. (1999): Phytoaccumulation of trace elements by wetland plants: II. Water hyacinth. J. Environ. Qual., 28, 339–344.

    Terry N. , 'Phytoaccumulation of trace elements by wetland plants: II. Water hyacinth ' (1999 ) 28 J. Environ. Qual. : 339 -344 .

    • Search Google Scholar
  • Collapse
  • Expand

Acta Agronomica Hungarica
Language English
Russian
German
French
Size  
Year of
Foundation
1950
Publication
Programme
ceased
Volumes
per Year
 
Issues
per Year
 
Founder Magyar Tudományos Akadémia   
Founder's
Address
H-1051 Budapest, Hungary, Széchenyi István tér 9.
Publisher Akadémiai Kiadó
Publisher's
Address
H-1117 Budapest, Hungary 1516 Budapest, PO Box 245.
Responsible
Publisher
Chief Executive Officer, Akadémiai Kiadó
ISSN 0238-0161 (Print)
ISSN 1588-2527 (Online)

Monthly Content Usage

Abstract Views Full Text Views PDF Downloads
Apr 2024 11 0 0
May 2024 3 0 0
Jun 2024 9 0 0
Jul 2024 34 0 0
Aug 2024 26 1 1
Sep 2024 39 3 4
Oct 2024 3 0 0