Affiliation Index

Anderson, David L., 84. Aoyama, M , 258. Bahnemann, Detlef W., 120. Bhatia, S. C , 170. Brachaczek, W. W., 28. Calkins, William, iii. Castleman, A. W...
2 downloads 0 Views 188KB Size
Downloaded by 80.82.77.83 on May 25, 2018 | https://pubs.acs.org Publication Date: September 3, 1987 | doi: 10.1021/bk-1987-0349.ix001

Author Index Anderson, David L., 84 Aoyama, M , 258 Bahnemann, Detlef W., 120 Bhatia, S. C , 170 Brachaczek, W. W., 28 Calkins, William, iii Castleman, A. W., Jr., 317 Chapman, E . G., 219 Charlson, Robert J., 204 Church, Thomas M , 39 Covert, David S., 204 Dasch, Jean Muhlbaier, 242 Derbyshire, Francis J., 304 Dokiya, Y., 258 Drake, J. J., 213 Elzerman, A. Z., iii Galloway, James N., 39 Gertler, A . W., 183 Gordon, Glen E., x,2,6 Gorse, R. Α., Jr., 28 Hall, J. H., Jr., 170 Harris, G . W., 274 Hashimoto, Yoshikazu, 158 Herrmann, G . J., 142 Hicks, Β. B., 196 Hidy, G . M , 10 Hoffmann, Michael R., 120,250 Hong, Andrew P., 120 Hosker, R. P., Jr., 196 Hynes, A . J., 133 Jacob, Daniel J., 250 Jaeschke, W. Α., 142 Japar, S. M , 28 Johnson, Russell W., χ Katsuragi, Y., 258 Keeler, G . J., 28 Keesee, R. G , 317 Kitto, Michael E., 84 Knap, Anthony H., 39 Kormann, Claudius, 120 Landsberger, S., 213 Larson, Timothy V., 204

Lee, J. H., 109 Lev-On, M , 229 Lewis, C. W., 58 Mackay, G. I., 274 Miller, D. R, 183 Miller, John M , 39 Miller, Theresa, 204 Munger, J. William, 250 Norbeck, J. M , 28 O'Loughlin, John F., 204 Olmez, I., 66 Orehowsky, Gregory J., 304 Parrington, J. R., 66 Paur, R. J., 66 Peterson, Richard, 204 Pierson, W. R., 28 Pollack, A . K., 229 Robinson, N. F., 183 Scaroni, Alan W., 304 Schiff, Η. I., 274 Schwartz, Stephen E., 93 Shaw, R. W., Jr., 66 Sklarew, D. S., 219 Stevens, R. K., 58 Stevenson, Margaret N., 204 Sweet, Ian, 204 Tanaka, Shigeru, 158 Tang, I. N., 109 Tanner, Roger L., 289 Toda, S., 258 Topol, L . E., 229 Tuncel, S. G , 66 Vermette, S. J., 213 Vong, Richard J., 204 Waldman, Jed M , 250 Whelpdale, Douglas M , 39 Wine, P. H., 133 Womack, J. D., 196 Yamanaka, Kazuo, 158 Yoshimura, E., 258 Zoller, William R , 204

Affiliation Index Brookhaven National Laboratory, 93,109,289 California Institute of Technology, 250 Desert Research Institute, 10

Atlanta University Center, 170 Atmospheric Environment Service, 39 Bermuda Biological Station, 39

326

Johnson et al.; The Chemistry of Acid Rain ACS Symposium Series; American Chemical Society: Washington, DC, 1987.

327

INDEX

Downloaded by 80.82.77.83 on May 25, 2018 | https://pubs.acs.org Publication Date: September 3, 1987 | doi: 10.1021/bk-1987-0349.ix001

Environmental Monitoring and Services, 229 Ford Motor Company, 28 General Motors Research Laboratory, 242 Georgia Institute of Technology, 133,170 J. W. Goethe-University, 142 Keio University, 158 McMaster University, 213 Meteorological Research Institute, 258 National Oceanic and Atmospheric Administration, 39,196 Pacific Northwest Laboratory, 219 Pennsylvania State University, 304,317

Systems Applications, 229 U.S. Environmental Protection Agency, 58,66 Unisearch Associates, 274 University of Delaware, 39 University of Maryland,x,2,66,84 University of Michigan, 28 University of Nevada System, 183 University of Tokyo, 258 University of Virginia, 39 University of Washington, 204 W. M Keck Laboratories, 120

Subject Index Acid Rain-Continued research, 2-8 susceptibility of soil, 270/ Absorption, H S 0 , 180 See also Acid precipitation Accommodation coefficients Acidic gases, collection from coal-fired calculations, 111 power plants, 84-91 measurements, 104-105 Acridine, nitrogen contents, 305 ozone, 109-116 Acridine char sulfur dioxide, 109-116,154 carbon and nitrogen reactivities, 306-309 Accuracy, estimation for an instrument, 188 conversions of char nitrogen to Acetate ions, introduction into Ν Ο , 312,315 precipitation, 219-227 sample weight effect on conversion to Acetic acid Ν Ο , 314/ atmospheric sources, 50-51 See also Chars clear air observations, 224/ Acridine char nitrogen, retention as formation function of burnoff, 307/, 308/ aerosol scavenging pathway, 223 Advection fluxes, calculation, 41-43 aqueous-phase oxidation pathway, 223-225 Aerosol particle size distribution, gas-phase concentration, 221 molecular clusters, 317 homogeneous gas-phase production, 225 Aerosol scavenging pathway, acetic and Acid, production, 318 formic acid formation, 223 Acid clusters, 317-322 Aerosol species, transformation over the ion-pair formation, 319 western Atlantic, 52 neutral, 318-322 Aerosol sulfate reaction with gases, 320-321 airborne determination, 298 See also Ionic acid clusters, Neutral acid See also Sulfate clusters Air flux, function of latitude and Acid deposition longitude, 44/ Allegheny Mountain, 28-36 Air pollutants, transport, 4 rain, 30 Air sampling—See Interstitial air sampling See also Deposition, Dry deposition, Wet Aldehydes, determination in atmospheric deposition samples, 299 Acid precipitation Allegheny Mountain susceptibility of Japanese soils, 271 acid deposition and atmospheric See also Acid rain chemistry, 28-36 Acid rain deposition budgets for sulfate and alternative research strategies, 6-8 nitrate, 33 formation pathway, 129 Allegheny Mountain study, 7 laboratory investigation, 317 Ammonia nitrogen oxide role, 304 effect on atmospheric acidity, 254 present knowledge, 4 incorporation into acid clusters, 320 A

3

χ

χ

Johnson et al.; The Chemistry of Acid Rain ACS Symposium Series; American Chemical Society: Washington, DC, 1987.