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Global environmental chemistry research

We are indebted to Mostafa Tolba, Executive Director of the United Nations Environmental Programme, for his overview. Dr. Tolba s perspective on environmental issues is clearly a global one. We take this opportunity to thank Clayton Callis, past ACS president, for his support of the symposium upon which this book is based, and the Electric Power Research Institute and the ACS Division of Environmental Chemistry for financial assistance with speakers travel to that symposium. [Pg.3]

CHARLES E. KOLB is president and chief executive officer of Aerodyne Research, Inc. Since 1971, his principal research interests at Aerodyne have included atmospheric and environmental chemistry, combustion chemistry, materials chemistry, and the chemical physics of rocket and aircraft exhaust plumes. He has served on several National Aeronautics and Space Administration panels dealing with atmospheric chemistry and global change, as well as on five National Research Council committees and boards dealing with environmental issues. He served as vice chair of the Stockpile Committee from mid-1997 to mid-2000. From 1996 to 1999, he was atmospheric sciences editor for Geophysical Research Letters. In 1997, he received the Award for Creative Advances in Environmental Science and Technology from the American Chemical Society. [Pg.56]

Water quality projects such as those described below have been shown to be effective methods for engaging students in environmental chemistry courses for majors (Juhl et al. 1997) and for nonscience majors (Lunsford et al. 2007). When the water quality research projects were conducted, Chemistry and the Environment was linked to a world geography course as part of a learning community. Poor water quality and access to potable water were a global environmental theme for both courses. Consequently, the chemistry research projects focused primarily on water analysis. Field water testing kits, atomic absorption spectroscopy, and fluorescence methods (typically for biological con-... [Pg.38]

Researchers and professionals in environmental chemistry, photochemistry, photobiology and cell and molecular biology will value this book, as well as those looking at ozone depletion and global change. [Pg.578]

Peter J. Dillon, Ph.D. (Toronto), F.R.S.C. is a Professor in the Environmental Resource Studies and Chemistry Departments at Trent University where he is Director of the new Water Quality Center. His research interests focus on biogeochemistry effects of regional and global-scale stressors including acid deposition, climate change, mercury and other trace metals on environmental chemistry. [Pg.318]

Rowland, Molina, and Paul Crutzen (a Dutch chemist at the Max Planck Institute for Chemistry in Germany) were awarded the 1995 Nobel Prize for chemistry. As the Royal Swedish Academy of Sciences noted in awarding the prize, "By explaining the chemical mechanisms that affect the thickness of the ozone layer, these three researchers have contributed to our salvation from a global environmental problem that could have catastrophic consequences."... [Pg.204]

From the viewpoint of the relevance of atmospheric chemistry with global environmental issues, processes, chemical compotmds, ozone variability, climate change, and so on are discussed in each chapter by experts in each field. It is unique as it includes essays by senior scientists in atmospheric research at the end of each chapter. [Pg.8]

The chemistry of carbon, and radiocarbon, in the atmosphere represents one of the most important areas of environmental research today. The primary practical reason for this is the increasing attention which must be paid to the critical balance between energy and the environment, especially from the viewpoint of man s perturbations of natural processes and his need to maintain control. Probably more than other species, carbonaceous molecules play a central role in this balance. Some of the deleterious effects of carbonaceous gases and particles in the atmosphere are set down in Table 3. The potential effects of increased local or global concentrations of these species on health and climate have led to renewed interest in the carbon cycle and the "C02 Problem". It should be evident from the table, however, that carbon dioxide is not the only problem. In fact, the so-called "trace gases and particles" in the atmosphere present an important challenge to our interpretation of the climatic effects of carbon dioxide, itself [20]. [Pg.173]

Costas A. Varotsos received his B.Sc. in Physics at Athens University in 1980, and a Ph.D. in Atmospheric Physics in 1984. He was appointed Assistant Professor in 1989 at the Laboratory of Meteorology of the Physics Department of the Athens University, where he also set up the Laboratory of the Middle and Upper Atmosphere. In 1999 he became Associate Professor of the Department of Applied Physics at Athens University. He is Editor of the International Journal of Remote Sensing and Advisor to the Environmental Science Pollution Research journal. He has published more than 300 papers and 20 books in the fields of atmospheric physics, atmospheric chemistry, and global change. [Pg.1]


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