Plant Response to Air Pollution
Mohammed Iqbal, Mohammed Yunus
Wiley, Sep 10, 1996 - Science - 558 pages
Air pollution poses a serious threat to human health and the environment worldwide. It contributes significantly to regional and global atmospheric issues such as global warming, acidification and depletion of the ozone layer. It affects every living thing, including all kinds of vegetation on which we depend for our survival. Although several works have appeared on air pollution, few, are able to provide the broad background that encompasses the whole gamut of plant responses to atmospheric insult. This multi-authored work integrates the varied plant growth responses to the pollution stress; the focus of the attention is plant rather than pollutant. This portrays a clearer picture of plant performance versus air pollution, and helps develop a better insight of the pollution-based disturbances at the different levels of plant life. The book shall interest both students and researchers of environmental botany and forestry as well as all those who love plants and have any interest towards global vegetation and environmental health.
What people are saying - Write a review
We haven't found any reviews in the usual places.
The Role of Atmospheric Chemistry in the Assessment
Soil and Weather Effects
14 other sections not shown
air pollution ambient ammonia assimilation atmospheric CO2 Bauch biochemical bioindication carbon dioxide Cell Environ changes chlorophyll chloroplast CO2 concentration CO2 enrichment compounds crop cultivars cuticle damage decrease deposition ecosystems effects of ozone effects of SO2 elevated CO2 emissions environmental enzyme ethylene exposure factors fatty acids Figure foliar forest decline fumigation gases global guard cells increase inhibition injury interactions Iqbal Krupa leaf leaves levels lipid magnesium Mansfield mechanisms membrane metabolism needles nitrate reductase nitrogen nitrogen dioxide Norway spruce nutrient nutrition Oecologia Oren oxidation ozone peroxidase peroxide phenolics photosynthesis physiological Phytol Picea abies pine Pinus plant cuticles Plant Physiol Plant Response production protein reaction reduced Rennenberg Research result Rubisco Schulze Scots pine seedlings sensitive shoot soil species spruce Picea stomatal stomatal conductance stress studies sulphate sulphur dioxide surface synthesis temperature Tingey tissue tonnes toxic trees uptake Wellburn wood Zobel