SEARCH

SEARCH BY CITATION

References

  • 1
    Alscher R.G., Donahue J.L., Cramer C.L. (1997) Reactive oxygen species and antioxidants: relationships in green cells. Physiologia Plantarum 100, 224233.
  • 2
    Aono M., Kubo A., Saji H., Tanaka K., Kondo N. (1993) Enhanced tolerance to photooxidative stress of transgenic Nicotiana tabacum with high chloroplastic glutathione reductase activity. Plant and Cell Physiology 34, 129135.
  • 3
    Bender J., Weigel H.J., Wegner U., Jäger H.J. (1994) Response of cellular antioxidants to ozone in wheat flag leaves at different stages of plant development. Environmental Pollution 84, 1521.
  • 4
    Bradford M.M. (1976) A rapid and sensitive method for the quantitation of microgram quantities of protein utilizing the principle of protein-dye binding. Analytical Biochemistry 72, 248254.
  • 5
    Brendley B.W. & Pell E.J. (1998) Ozone-induced changes in biosynthesis of Rubisco and associated compensation to stress in foliage of hybrid poplar. Tree Physiology 18, 8190.
  • 6
    Cao G., Alessio H.M., Cutler R.G. (1993) Oxygen-radical absorbance capacity assay for antioxidants. Free Radical Biology and Medicine 14, 303311.
  • 7
    Eckardt N.A. & Pell E.J. (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.
  • 8
    Edwards G.S., Wullschleger S.D., Kelly J.M. (1994) Growth and physiology of northern red oak: preliminary comparisons of mature tree and seedling responses to ozone. Environmental Pollution 83, 215221.
  • 9
    Foyer C.H., Descourviéres P., Kunert K.J. (1994) Protection against oxygen radicals: an important defence mechanism studied in transgenic plants. Plant, Cell and Environment 17, 507523.
  • 10
    Fredericksen T.S., Joyce B.J., Skelly J.M., Steiner K.C., Kolb T.E., Kouterick K.B., Savage J.E., Snyder K.R. (1995) Physiology, morphology, and ozone uptake of leaves of black cherry seedlings, saplings, and canopy trees. Environmental Pollution 89, 273283.
  • 11
    Fredericksen T.S., Skelly J.M., Steiner K.C., Kolb T.E., Kouterick K.B. (1996) Size-mediated foliar response to ozone in black cherry trees. Environmental Pollution 91, 5363.
  • 12
    Gates D.M. (1980) Biophysical Ecology, p. 611. Springer-Verlag, New York.
  • 13
    Guri A. (1983) Variation in glutathione and ascorbic acid content among selected cultivars of Phaseolus vulgaris prior to and after exposure to ozone. Canadian Journal of Plant Science 63, 733737.
  • 14
    Guzy M.R. & Heath R.L. (1993) Responses to ozone of varieties of common bean (Phaseolus vulgaris L.). New Phytologist 124, 617625.
  • 15
    Hanson P.J., Samuelson L.J., Wullschleger S.D., Taberer T.A., Edwards G.S. (1994) Seasonal patterns of light-saturated photosynthesis and leaf conductance for mature and seedling Quercus rubra L. foliage: differential sensitivity to ozone exposure. Tree Physiology 14, 13511366.
  • 16
    Harkov R. & Brennan E. (1979) An ecophysiological analysis of the response of trees to oxidant pollution. Journal of Air Pollution Control 29, 157161.
  • 17
    Hinckley T.M., Ceulemans R., Dunlap J.M., Figliola A., Heilman P.E., Isebrands J.G., Scarascia-Mungnozza G., Shulte P.J., Smit B., Stettler R.F., Van Volkenburgh E., Wiard B. (1989) Physiological, morphological and anatomical components of hybrid vigor in Populus. In Structural and Functional Responses to Environmental Stresses (eds K.H. Kreeb, H. Richter & T.M. Hinckley), pp. 199–217. SPB Academic Publishers, The Hague. The Netherlands.
  • 18
    Kangasjärvi J., Talvinen J., Utrianen M., Karjalainen R. (1994) Plant defence systems induced by ozone. Plant, Cell and Environment 17, 783794.
  • 19
    Karnosky D.F., Gagnon Z.E., Dickson R.E., Coleman M.D., Lee E.H., Isebrands J.G. (1996) Changes in growth, leaf abscission, and biomass associated with seasonal tropospheric ozone exposures of Populus tremuloides clones and seedlings. Canadian Journal of Forest Research 26, 2337.
  • 20
    Laisk A.O., Kull O., Moldau H. (1989) Ozone concentration in leaf intercellular air spaces is close to zero. Plant Physiology 90, 11631167.
  • 21
    Landry L.G. (1992) The role of proteolysis in ozone-induced Rubisco decline in hybrid poplar. PhD Dissertation, The Pennsylvania State University, University Park, PA. 90 pp.
  • 22
    Matyssek R., Keller T., Koike T. (1993) Branch growth and leaf gas exchange of Populus tremula exposed to low ozone concentrations throughout two growing season. Environmental Pollution 79, 17.
  • 23
    Miller J.D., Arteca R.N., Pell E.J. (1998) Ozone-induced changes in senescence- and photosynthesis-associated gene expression. Plant Physiology Abstract Suppl. 109.
  • 24
    Neufeld H.S., Lee E.H., Renfro J.R., Hacker W.D., Yu Ben-Hui. (1995) Sensitivity of seedlings of black cherry (Prunus serotina Ehrh.) to ozone in Great Smoky Mountains National Park I. Exposure-response curves for biomass. New Phytologist 130, 447459.
  • 25
    Noodén L.D. (1988) The phenomena of senescing and aging. In Senescence and Aging in Plants (eds L.D. Noodén & A.C. Leopold ), pp. 1–50. Academic Press, San Diego, CA.
  • 26
    Pell E.J. & Dann M.S. (1991) Multiple stress-induced foliar senescence and implications for whole-plant longevity. In Response of Plants to Multiple Stresses (eds H.A. Mooney, W.E. Winner & E.J. Pell. pp. 189–204. Academic Press, San Diego, CA.
  • 27
    Pell E.J., Eckardt N., Enyedi A.J. (1992) Timing of ozone stress and resulting status of ribulose bisphosphate carboxylase/oxygenase and associated net photosynthesis. New Phytologist 120, 397405.
  • 28
    Pell E.J., Eckardt N.A., Glick R.E. (1994) Biochemical and molecular basis for impairment of photosynthetic potential. Photosynthesis Research 39, 453462.
  • 29
    Pell E.J., Sinn J.P., Eckardt N., Vinten Johansen C., Winner W.E., Mooney H.A. (1993) Response of radish to multiple stresses. II. Influence of season and species on plant response to ozone and soil moisture deficit. New Phytologist 123, 153163.
  • 30
    Pell E.J., Sinn J.P., Vinten Johansen C. (1995) Nitrogen supply as a limiting factor determining sensitivity of Populus tremuloides to ozone. New Phytologist 130, 436446.
  • 31
    Peters J.L., Castillo F.J., Heath R.L. (1989) Alteration of extracellular enzymes in pinto bean leaves upon exposure to air pollutants, ozone and sulfur dioxide. Plant Physiology 89, 159164.
  • 32
    Polle A., Wieser G., Havranek W.M. (1995) Quantification of ozone influx and apoplastic ascorbate content in needles of Norway spruce trees (Picea abies L., Karst.) at high altitude. Plant, Cell and Environment 18, 681688.
  • 33
    Ranieri A., D’Urso G.D., Nali C., Lorenzini G., Saldatini G.F. (1996) . Physiologia Plantarum 97, 381387.
  • 34
    Rank B. (1997) Oxidative stress response and photosystem 2 efficiency in trees of urban areas. Photosynthetica 33, 467481.
  • 35
    Rebbeck J. & Loats K.V. (1997) Ozone effects on seedling sugar maple (Acer saccharum) and yellow-poplar (Liriodendron tulipifera): gas exchange. Canadian Journal of Forest Research 27, 15951605.
  • 36
    Reich P.B. (1987) Quantifying plant response to ozone: a unifying theory. Tree Physiology 3, 6391.
  • 37
    Reich P.B. & Lassoie J.P. (1985) Influence of low concentrations of ozone on growth, biomass partitioning and leaf senescence in young hybrid poplar plants. Environmental Pollution 39, 3951.
  • 38
    Samuelson L.J. & Edwards G.S. (1993) A comparison of sensitivity to ozone in seedlings and trees of Quercus Rubra L. New Phytologist 125, 373379.
  • 39
    Samuelson L.J. & Kelly J.M. (1997) Ozone uptake in Prunus serotina, Acer rubrum and Quercus rubra forest trees of different sizes. New Phytologist 136, 255264.
  • 40
    SAS Institute Inc. (1985) SAS user's guide: statistics, Version 5. SAS Institute Inc., Cary, NC.
  • 41
    Sen Gupta A., Alscher R.G., McCune D. (1991) Response of photosynthesis and cellular antioxidants to ozone in Populus leaves. Plant Physiology 96, 650655.
  • 42
    Smith I.K., Vierheller T.L., Thorne C.A. (1988) Assay of glutathione reductase in crude tissue homogenates using 5,5’-dithiobis (2-nitrobenzoic acid). Analytical Biochemistry 175, 408413.
  • 43
    Tanaka K., Suda Y., Kondo N., Sugahara K. (1985) O3 tolerance and the ascorbate-dependent H2O2 decomposing system in chloroplasts. Plant and Cell Physiology 26, 14251430.
  • 44
    Torsethaugen G., Pitcher L.H., Zilinskas B.A., Pell E.J. (1997) Overproduction of ascorbate peroxidase in the tobacco chloroplast does not provide protection against ozone. Plant Physiology 114, 529537.
  • 45
    Weaver L.M., Himelblau E., Amasino R.M. (1997) Leaf senescence: gene expression and regulation. In Genetic Engineering Principles and Methods (ed. J.K. Setlow), Vol 19, pp. 215–234. Plenum Press, New York.
  • 46
    Woo S.Y. (1996) Physiological differences between resistant and sensitive clones of hybrid poplar (Populus trichocarpa×Populus deltoides) to ozone exposure. PhD Dissertation, University of Washington, Seattle. 205 pp.
  • 47
    Wullschleger S.D., Hanson P.J., Edwards G.S. (1996) Growth and maintenance respiration in leaves of northern red oak seedlings and mature trees after 3 years of ozone exposure. Plant, Cell and Environment19, 577.