SEARCH

SEARCH BY CITATION

REFERENCES

  • Barnes RL. 1972. Effects of chronic exposure to ozone on photosynthesis and respiration of pines. Environmental Pollution 3: 131138.
  • Braun S, Flückiger W. 1995. Effects of ambient ozone on seedlings of Fagus sylvatica L. and Picea abies (L.) Karst. New Phytologist 129: 3344.
  • Carlsson AS, Hellgren LI, Selldén G, Sandelius S. 1994. Effects of moderately enhanced levels of ozone on the acyl lipid composition of leaves of garden pea (Pisum sativum). Physiologia Plantarum 91: 754762.
  • Chappelka AH, Chevone BI. 1992. Tree responses to ozone. In: LefohnAS. ed. Surface Level Ozone Exposures and their Effects on Vegetation. Chelsea : Lewis Publishers, 271323.
  • Cooley DR, Manning WJ. 1987. The impact of ozone on assimilate partitioning in plants: a review. Environmental Pollution 47: 95113.
  • Darrall NM. 1989. The effects of air pollutants on physiological processes in plants. Plant. Cell and Environment 12: 130.
  • Davis DD, Wood FA. 1972. The relative susceptibility of eighteen coniferous species to ozone. Phytopathology 62: 1419.
  • Davis DD, Coppolino JB. 1974. Relationship between age and ozone sensitivity of current needles of ponderosa pine. Plant Disease, Reporter 58: 660663.
  • Eckardt NA, Pell EJ. 1994. O3-induced degradation of Rubisco protein and loss of Rubisco mRNA in relation to leaf age in Solanum tuberosum L. New Phytologist 127: 741748.
  • Forberg E, Aarnes H, Nilsen S, Semb A. 1987. Effect of ozone on net photosynthesis in oat (Avenu sativa) and duckweed (Lemna gibba). Environmental Pollution 43: 285291.
  • FuhrerJ, AchermannB. (eds.). 1993. Workshop on crtical levels for ozone. Background Papers. Bern, Switzerland. 1–4 November 1993.
  • Günthardt-Goerg MS, Matyssek R, Keller T. 1992. Birch (Betula pendula): possible acclimation CO ozone. Air Pollution and Interactions between Organisms in Forest Ecosystems. 15th International Meeting of Specialists in Air Pollution Effects, on Forest Ecosystems. Abstracts. Tharandt/Dresden, Germany, 4–11 September 1992, p. 36.
  • Günthardi-Goerg MS, Matyssek B, Scheidefiger C, Keller T. 1993. Differentiation and structural decline in the leaves and bark of birch (Betula pendula) under low ozone concentrations. Trees 7: 104114.
  • Hassan IA, Ashmore MR, Bell JNB. 1994. Effects of O3 on the stomatal behaviour of Egyptian varieties of radish (Raphanus sativus L. cv. Baladey) and turnip (Brassica rapa L. cv. Sultani). New Phytologist 128: 243249.
  • Holopainen T, Anttonen S, Wulff A, Palomäki, V, Kärenlampi L. 1992. Comparative evaluation (if the effects of gaseous pollutants, acidic deposition and mineral deficiencies: structural changes in the cells of forest plants. Agriculture, Ecosystems and Environment 42: 365398.
  • Jensen KF. 1983. Growth relationships in silver maple seedlings fumigated with O3 and SO2, Canadian Journal of forest Research 13: 298302.
  • Krupa SV, Manning WJ. 1988. Atmospheric ozone: formation and effects on vegetation. Environmental Pollution 50: 101137.
  • Kubinová L. 1994. Recent stereological methods for measuring leaf anatomical characteristics: estimation of the number and sizes of stomata and mesophyll cells. Journal of Experimental Botany 45: 114127.
  • Laurila T, Lättilä H. 1994. Surface ozone exposures measured in Finland. Atmospheric Environment 28: 103114.
  • Matyssek R, Günthardt-Georg MS, Keller T, Scheidegger C. 1991. Impairment of gas exchange and structure in birch leaves (Betula pendula) caused by low ozone concentrations. Trees 5: 513.
  • Matyssek R, Günthardt-Georg MS, Landolt W, Keller T. 1993. Whole-plant growth and teat formation in ozonated hybrid poplar (Populus × euramericana). Environmental Pollution 81: 207212.
  • Mehlhorn H, O'Shea J, Wellburn AR. 1991. Atmospheric ozone interacts with stress ethylene formation by plants to cause visible plant injury Journal of Experimental Botany 42: 1724.
  • Mortensen LM. 1993. Effects of ozone on young plants of Betula pubescens Ehrh. at different temperature and light levels. Norwegian Journal of Agricultural Sciences 7: 293300.
  • Mortensen LM. 1994. Variation in ozone sensitivity of Betula pubescens Ehrh. from different sites in South-Norway. Direktoratet for natuforvaltning (DN). Utredning for DN, NO. 1994–7.
  • Noble R, Jensen KF. 1980. Effects f sulfur dioxide and ozone on growth of hybrid poplar leaves. American Journal of Botany 67: 10051009.
  • Ojanperä K, Sutinen S, Pleijei H, Selldén G. 1992. Exposure of spring wheat, Triticum aestivum L., cv. Drabant, to different concentrations of ozone in open-top chambers: effects on the ultrastructure of flag leaf cells. New Phytologist 120: 3948.
  • Pell EJ, Eckardt N, Enyedi AJ. 1992. Timing of ozone stress and resulting status of ribulose bisphosphate carboxylase/oxygenase and associated net photosynthesis. New Phytologist 120: 397405.
  • Pääkkönen E, Holopainen T, Kärenlampi L. 1995a. Ageing-related anatomical and ultrastructural changes in leaves of birth (Bettula pendula Roth.) clones as affected by low1 ozone exposure. Annals of Botany 75: 285294.
  • Pääkkönen E, Paasisalo S, Holopainen T, Kärenlampi L. 1993. Growth and stomatal responses of birth (Betula pendula Roth.) clones to ozone in open-air and field fumigations. New Phytologist 125: 615623.
  • Pääkkönen E, Holopainen T, Kärenlampi L. 1995b. Effects of ozone on birch (Betula pendula Roth.) clones. Journal of Water, Air and Soil Pollution, In press.
  • Reich PB. 1983. Effects of low concentrations of O3 exposure on net photosynthesis, dark respiration, and chlorophyll contents in aging hybrid poplar leaves. Plant Physiology 73: 291296.
  • Rich S. 1964. Ozone damage to plants. Annual Review of Phytopathology 2: 253266.
  • Sakaki T, Kondo N, Yamada. 1990. Pathway for the synthesis of triacylgycerols from monogalactosyldiacylglycerols in ozone-fumigated spinach leaves. Plant Physiology 94, 773780.
  • Sakaki T, Tanaka K, Yamada M. 1994. General metabolic changes in leaf lipids in response to ozone. Plant and Cell Physiology 35: 5362.
  • Samuelson LJ, Edwards GS. 1993. A comparison of sensitivity to ozone in seedlings and trees of Quercus rubra L. New Phytologist 125: 373379.
  • Sutinen S. 1989. Ultrastructure of conifer needles exposed to O3 and O3+ SO3 compared to the needle structure in the field in Finland. Sweden and in West Germany. Aquilo Series Botanica 27: 2934.
  • Sutinen S, Skärby L, Wallin G, Sellden G. 1990. long-term exposure of Norway spruce. Picea abies (L.) Karst., to ozone in open-top chambers, II, Effects Oil die ultrastructure of needles. New Phytologist 115: 345355.
  • Taylor GE, Ross-Todd BM, Gunderson CA. 1988. Action of ozone of foliar gas exchange in Glycine max L. Merr: a potential role for endogenous stress ethylene. New Phytologist 110: 301307.
  • Taylor GE, Gunderson CA. 1986. The response of foliar gas exchange to exogenous applied ethylene. Plant Physiology 82: 653657.
  • Tingey DT, Taylor GE. 1982. Variation in plant response to ozone: a conceptual model of physiological event: In: UnsworthMH, OrmrodDP. eds. Effects of Gaseous Air Pollution in Agriculture and Horticulture. Cambridge : Butterworths, 113138.
  • Woodbury PB, Laurence JA, Hudler GW. 1994. Chronic ozone exposure alters the growth of leaves, stems and roots of hybrid Papulus. Environmental Pollution 85: 103108.