Nickel - The Risk Assessment Information System
Nickel - The Risk Assessment Information System
Nickel - The Risk Assessment Information System
Create successful ePaper yourself
Turn your PDF publications into a flip-book with our unique Google optimized e-Paper software.
tenuis Sibth. and Other Grasses. New Phytol. 64, 131-143<br />
OM Guo, Y., George, E., and Marschner, H. 1996. Contribution of an arbuscular mycorrhizal fungus to<br />
the uptake of cadmium and nickel in bean and maize plants. Plant Soil 184[2], 195-205<br />
ERE Guo, Yanliang, Schulz, Rudolf, and Marschner, Horst. 1995. Genotypic Differences in Uptake and<br />
Distribution of Cadmium and <strong>Nickel</strong> in Plants. Angew.Bot. 69, 42-48<br />
Score Gupta, S. K., Hani, H., Santschi, E., and Stadelmann, F. X. 1987. <strong>The</strong> Effect of Graded Doses of<br />
<strong>Nickel</strong> on the Yield, the <strong>Nickel</strong> content of Lettuce and the Soil Respiration. Toxicol Environ Chem<br />
14, 1-10.<br />
FL Gushchin, A. V. and Kukushkin, A. K. 1997. Effect of nickel and cadmium ions on bean leaf<br />
delayed luminescence. Biofizika 42[2], 466-471<br />
No Control Gworek, Barbara. 1992. Effect of zeolites on the nickel uptake by plants. Pol.J.Soil Sci. 25[2],<br />
127-133<br />
Media Hara, T., Sonoda, Y., and Iwai, I. 1976. Growth Response of Cabbage Plants to Transition Elements<br />
Under Water Culture Conditions. II. Cobalt, <strong>Nickel</strong>, Copper, Zinc, and Molybdenum. Soil<br />
Sci.Plant Nutr. 22[3], 317-325<br />
OM Hardison, J. R. 1963. Commercial Control of Puccinia striiformis and Other Rusts in Seed Crops of<br />
Poa pratensis by <strong>Nickel</strong> Fungicides. Phytopathology 53, 209-216<br />
ERE Hartenstein, R., Neuhauser, E. F., and Collier, J. 1980. Accumulation of Heavy Metals in the<br />
Earthworm, Eisenia foetida. J.Environ.Qual. 9[1], 23-26<br />
Score Hartenstein, R., Neuhauser, E. F., and Narahara, A. 1981. Effects of Heavy Metal and Other<br />
Elemental Additives to Activated Sludge on Growth of Eisenia foetida. J.Environ.Qual. 10[3],<br />
372-376<br />
Media Heale, E. L. and Ormrod, D. P. 1982. Effects of <strong>Nickel</strong> and Copper on Acer rubrum, Cornus<br />
stolonifera, Lonicera tatarica, and Pinus resinosa. Can.J.Bot. 60, 2674-2681<br />
Media Heikal, M. M. D., Berry, W. L., Wallace, A., and Herman, D. 1989. Alleviation of nickel toxicity<br />
by calcium salinity. Soil Sci. 147[6], 413-415<br />
FL Hein, A., Sauerbeck, D., Horst, H., and Bruene, H. 1996. <strong>The</strong> <strong>Nickel</strong> Uptake by Plants from<br />
Different Soils and Bondings and its Prediction by Chemical Extraction Procedures. (Die<br />
<strong>Nickel</strong>aufnahme Von Pflanzen aus Verschiedenen Boeden und Bindungsformen und Ihre Prognose<br />
Durch Chemische Extraktionsverfahren. Abschlussbericht.). Umweltbundesamt, Berlin, Germany<br />
FR , 197 (GER)<br />
Media Herstein, U. and Jager, H. J. 1986. Tolerances of Different Populations of Three Grass Species to<br />
Cadmium and Other Metals. Environ.Exp.Bot. 26[4], 309-319<br />
Mix Hewitt, E. J. and Bolle-Jones, E. W. 1951. Investigations on Possible Micronutrient Elements for<br />
Higher Plants. I. Experiments with Cobalt, <strong>Nickel</strong> and Gallium in Sand Culture58611.<br />
Ann.Rep.Agric.Hortic.Res.Sta., Long Ashton, Bristol, England , 62-66<br />
Mix Hlusek, J., Juzl, M., and Zrust, J. 1997. Potato yields and cadmium, nickel, and zinc contents in<br />
tubers 52693. Rostl.Vyroba 43[6], 263-267<br />
FL Horst, H. and Brune, H. 1987. Influence of Soil, Origin and Plant Species on the Uptake and<br />
Eco-SSL for <strong>Nickel</strong> 24<br />
March 2007