SEARCH

SEARCH BY CITATION

REFERENCES

  • Bodrov, R. A. (1955). The leaf structure of Poa anmuua with observations on its smog sensitivity in Los Angeles Country. American Journal of Botany 42, 467474.
  • Bressan, R. A., Wilson, I-. G. & Ftiner, P. (1978). Mechanisms of resistance to sulfur dioxide in the Cucurbitaceae. Plant Physiology 61, 761767.
  • Caput, C, Belot, Y, Auclair, D. & Decourt, N. (1978). Absorption of sulphur dioxide by pine needles leading to acute injury. Environmental Pollution 16, 315.
  • Dugger, W. M. Jr., Koukoi, J. & Palmer, R. L. (1966). Physiological and biochemical effects of atmospheric oxidants on plants. Journal of the Air Pollution Control Association 16, 467471.
  • Duccer, W. M. Jr, Koikol, J., Reed, W. D. & Palmer, R. L. (1963a). Effect of peroxyacetyl nitrate on C14O2 fixation by spinach chloroplasts & pinto bean plants. Plant Physiology 38, 468472.
  • Dugger, W. M. Jr, Taylor, O. C., Klein, W. H. & Shropshire, W. Jr (1963b). Action spectrum of peroxyacetyl nitrate damage to bean plants. Nature 198, 7576.
  • Dugger, W. M. Jr, Taylor, O. C., Thompson, C. R. & Cardiff, E. (1963c). The effect of light on predisposing plants to ozone and PAN damage. Journal of the Air Pollution Control Association 13, 423428.
  • Digger, W. M. Jr & Ting, I. P. (1968). The effect of peroxyacetyl nitrate on plants: photoreductive reactions and susceptibility of bean plants to PAN. Phytopathology 58, 11021107.
  • Dugger, W. M. Jr & Ting, I. P. (1970). Air pollution oxidants their effects on metabolic processes in plants. Annual Review of Plant Physiology 21, 215234.
  • Elkiey, T. & Ormrod, D. P. (1981). Absorption of ozone, sulphur dioxide, and nitrogen dioxide by petunia plants. Environmental and Experimental Botany 21, 6370.
  • Furukawa, A., Isoda, O., Iwaki, H. & Totsuka, T. (1980). Interspecific difference in resistance to sulfur dioxide. Research Report from the National Institute for Environmental Studies 11, 113126.
  • Gaffney, J. S., Fajer, R. & Senum, G. I. (1984). An improved procedure for high purity gaseous peroxyacyl nitrate production: Use of heavy lipid solvents. Atmospheric Environment 18, 215218.
  • Garland, J. A. & Penkett, R. A. (1976). Absorption of peroxy acctyl nitrate and ozone by natural surfaces. Atmospheric Environment 10, 11271131.
  • Hill, A. C. (1971). Vegetation: a sink for atmospheric pollutants. Journal of the Air Pollution Control Association 21, 341346.
  • Jensen, K. F. & Kozlowski, T. T. (1975). Absorption and translocation of sulfur dioxide by seedlings of four forest tree species. Journal of Environmental Quality 4, 379382.
  • Mayumi, H. & Yamazoe, F. (1983). Effects of photochemical air pollution on plants. Bulletin of the National Institute of Agricultural Sciences, Series B 35, 171.
  • Metzler, J. T. & Pell, E. J. (1980). The impact of peroxyacetyl nitrate on conductance of bean leaves and on associated cellular and foliar symptom expression. Phytopathology 70, 934938.
  • Mudd, J. B. (1963). Enzyme inactivation by peroxyacetyl nitrate. Archives of Biochemistry and Biophysics 102, 5965.
  • Mudd, J. B. (1976). The role of free radicals in toxicity of air pollutants (peroxyacyl nitrates). In: Free Radicals in Biology II (Ed. by W. A.Pryor), pp. 203211. Academic Press. New York .
  • Nielsen, T., Hansen, A. M. & Thomsen, E. L. (1982). A convenient method for preparation ol pure standards of peroxyacetyl nitrate for atmospheric analyses. Atmospheric Environment 16, 24472450.
  • Noucm, I. (1988). Leaf injury of plants and mechanism of injury by photochemical oxidants (ozone and peroxyacetyl nitrate). Bulletin of the National Institute of Agro-Environmental Sciences 5, 1121.
  • Noucm, I. & Toyama, S. (1988). Effects of ozone and peroxyacetyl nitrate on polar lipids and fatty acids in leaves of morning glory and kidney bean. Plant Physiology 87, 638646.
  • Okano, K., Machida, T. & Totsuka, T. (1988). Absorption of atmospheric NOa by several herbaceous species: estimation by the “N dilution” method. New Phytologist 109, 203210.
  • Okano, K., Machida, T. & Totsuka, T. (1989). Differences in ability of NO2 absorption in various broad-leaved tree species. Environmental Pollution 58, 117.
  • Posthumus, A. C. & Tonneijck, A. E. G. (1982). Monitoring of effects of photo-oxidants on plants. In: Monitoring of Air Pollutants (Ed. by L.Steubing and H. J.Jager), pp. 115119. Dr W. Junk Publishers, The Hague .
  • Rich, S., Waggoner, P. E. & Tomlinson, H. (1970). Ozone uptake by bean leaves. Science 169, 7980.
  • Rogers, H. H., Jeffries, H. E. & Witherspoon, A. M. (1979). Measuring air pollutant uptake by plants: nitrogen dioxide. Journal of Environmental Quality 8, 551557.
  • Spedding, D. J. (1969). Uptake of sulphur dioxide by barley leaves at low sulphur dioxide concentrations. Nature 224, 12291231.
  • Stahkey, T. E., Davis, D. D., Pell, E. J. & Merkii.L, W. (1981). Influence of peroxyacetyl nitrate (PAN) on water stress m bean plants. HortScience 16, 547548.
  • Stephens, E. R. (1969). The formation, reactions and properties of peroxyacyl nitrates (PANs) in photochemical air pollution. Advances in Environmental Science and Technology 1, 119146.
  • Takagi, H., Tobe, K., Takesita, S. & Omasa, K. (1989). Development of PAN exposure system for plants. Journal of Agricultural Meteorology 45, 3942.
  • Taylor, O. C. (1969). Importance of peroxyacetyl nitrate (PAN) as a phytotoxic air pollutant. Journal of the Air Pollution Control Association 19, 347351.
  • Taylor, O. C, Dugger, W. M. Jr., Cardiee, E. A. & Darley, E. F. (1961). Interaction of light and atmospheric photochemical products (‘smog’) within plants. Nature 192, 814816.
  • Temple, P. J. & Taylor, O. C. (1983). World-wide ambient measurements of peroxyacetyl nitrate (PAN) and implications for plant injury. Atmospheric Environment 17, 15831587.
  • Terakado, K. & Kuno, H. (1981). Analysis of photochemical oxitlant injury to plants using filtered air chamber. Report from the Tokyo Metropolitan Institute for Agriculture 14, 1325.
  • Thorne, L, & Hanson, G. P. (1976). Relationship between genetically controlled ozone sensitivity and gas exchange rate in Petunia hybrids Vilm. Journal of the American Society for Horticultural Science 101, 6063.
  • Turner, N. C., Rich, S. & Tomlinson, H. (1972). Stomatal conductance, fleck injury, and growth of tobacco cultivars varying in ozone tolerance. Phytopathology 62, 6367.
  • Winer, A.M., Peters, J. W., Smith, J. P. & Pitts, J. N. Jr. (1974). Response of commercial chemiluminescent NO-NO2 analyzers to other nitrogen-containing compounds. Environmental Science and Technology 8, 11181121.