Percy / Cape / Jagels Air Pollutants and the Leaf Cuticle

Section I - Reviews.- Plant Cuticles: Physicochemical Characteristics and Biosynthesis.- Modelling Pollutant Deposition to Vegetation: Scaling Down from the Canopy to the Biochemical Level.- Air Pollutants and Plant Cuticles: Mechanisms of Gas and Water Transport, and Effects on Water Permeability.- Ion Transport across Leaf Cuticles: Concepts and Mechanisms.- Effects of Air Pollutants on Epicuticular Wax Chemical Composition.- Effects of Air Pollutants on Epicuticular Wax Structure.- Leaf Wettability as a Measure of Air Pollution Effects.- Air Pollutants and the Cuticle: Implications for Plant Physiology.- Cuticular Characteristics in the Detection of Plant Stress Due to Air Pollution — New Problems in the Use of These Cuticular Characteristics.- Evaluation of Pollutant Critical Levels from Leaf Surface Characteristics.- New Analytical Techniques for Cuticle Chemical Analysis.- Leaf Cuticles as Mediators of Environmental Influences: New Developments in the Use of Isolated Cuticles.- Section II - New Methods and Contributions.- The Effect of the Environment on the Structure, Quantity and Composition of Spruce Needle Wax.- Effect of Ozone and Elevated Carbon Dioxide on Cuticular Membrane Ultrastructure of Yellow Poplar (Liriodendrontulipifera).- Spatial Distribution of Sulphate Uptake by Wind-Damaged Beech Leaves.- Effects of UV-B Radiation on Wax Biosynthesis.- Effects of Acid Rain and Surfactant Pollution on the Foliar Structure of Some Tree Species.- Fourier Transform IR Studies on the Interaction of Selected Chemicals with Isolated Cuticles.- Effects of Wind and Simulated Acid Mist on Leaf Cuticles.- Measurements and Modelling of Ozone Deposition to Wet Foliage.- Section III - Effects and Biomonitoring.- The Effect of Age, Canopy Position and Elevation on FoliarWettability of Picearubens and Abiesbalsamea: Implications for Pollutant-Induced Epicuticular Wax Degradation.- Effect of Elevation and Foliar Age on Maximum Leaf Resistance to Water Vapor Diffusion in Conifers of the Central Rocky Mountains, USA.- The Effects of Pine (Pinussylvestris L.) Needle Surface Wax Layer Structure on Water Loss and Uptake of 14C02 and 35S02.- Effects of Acid Mist on Needle Surface and Water Status of Piceaabies.- Effect of High Dose SO2 and Ethylene Exposure on the Structure of Epicuticular Wax of Piceapungens.- Preliminary Observations on the Influence on Increasing Atmospheric CO2 Levels on Cuticular Waxes of Spruce Needles.- Effects of Ozone Exposures on Epicuticular Wax of Ponderosa Pine Needles.- Observations on the Effects of Acid Rain Treatment on Needle Surfaces of Scots Pine and Norway Spruce Seedlings.- Problems in Interpreting Effects of Air Pollutants on Spruce Epicuticular Waxes.- Recent Advances Using Electron Beam Analysis to Detect Cuticular Changes Induced by Air Pollution.- Physico-Chemical Characteristics of Pine Needle Surfaces Exposed to Different Air Pollution Sources.- A Comparison of Epicuticular Wax of Pinus sylvestris Needles from Three Sites in Ireland.- Characteristics and Geographical Distribution of the Changes in Scots Pine Needle Surfaces in Finnish Lapland and the Kola Peninsula.- Forest Health Monitoring by the Canadian Forest Service: Now and the Future.- Section IV – Rapporteurs’ Reports.- Session 1.- Session 2.- Session 3.- Session 4.- Session 5.- Session 6.- Recommendations by Participants.- List of Participants.