Subject Index for the Years 1980 - 2000 : Geochemistry
This index uses the very latest list of keywords and numbers.
Volume |
Page # |
Author/Title |
48 | 329-332 | Morris, M., Morrison, D.L., and Rosenberg, G.D. |
Lithographic limestone as a teaching tool | ||
48 | 292-294, 352 | Henchman, M. |
Case studies of the geochemical investigations of art for science and science-and-art courses | ||
48 | 276-278, 347 | Hill, P.S. |
Teaching geochemistry through the artistic use of glass, ceramics and glazes | ||
48 | 261-266 | Velbel, M.A. |
Classroom index-card simulations of crystal growth | ||
48 | 209-215 | Kirschner, D., Encarnacion, J., and Agosta, F. |
Incorporating stable-isotope geochemistry in undergraduat laboratory courses | ||
48 | 203-208 | Roberts, S. |
Using a spreadsheet to introduce aqueous-speciation calculations to geochemistry students | ||
48 | 198-202 | Darling, R.S. |
Modeling magmatic phase equilibria with synthetic h2O - KCl fluid inclusions | ||
48 | 92-94 | Wampler, J.M. |
Misconceptions - A column about errors in geoscience textbooks: Misstatements of how cleavage relates to chemical bonding | ||
47 | 150-157 | Carlson, C.A. |
Field research as a pedagogical tool for learning hydrogeochemistry and scientific-writing skills | ||
47 |
158-165 |
Dunnivant, F.M., Newman, M.E., Brzenk, R., Moore, A., Alfano, M.J. |
A comprehensive stream study designed for an undergraduate non-majors course in earth science |
||
47 |
275-276 |
Wampler, J.M. |
Misconceptions - A column about errors in geoscience textbooks, problematic descriptions of some chemical bonds |
||
47 |
313-320 |
Warren, H.N. and Girty, G.H. |
A Matlab 5 program for calculating the statistics of mass change |
||
47 |
387-390 |
Wampler, J.M. |
Misconceptions - A column about errors in geoscience textbooks |
||
47 |
413-419 |
Levy,, J., and Mayer, L. |
Systems modeling of nonequilibrium chemical reactions using <EM>STELLA</EM> |
||
46 |
488-493 |
Rye, J.A. |
Understanding the role of chlorofluorocarbons in global atmospheric change |
||
46 |
261-266 |
Browne, K.M., and McAloon, K.M. |
Sampling thin horizontal water layers in tide pools for chemical analysis |
||
45 |
359-362 |
Hodder, A.P.W. |
A geotechnical approach to weathering simulation |
||
45 |
322-325 |
Foos, A.M. |
Integration of a class research project into a traditional geochemistry lab course |
||
45 |
243-245 |
Aydal, D., Kilinc, A.I., and Phillips, M. |
Using powder X-ray diffraction in the undergraduate curriculum to determine total iron in rocks and minerals |
||
45 |
157-161 |
Stern, L.A., and Fogel, M.L. |
Teaching multidisciplinary environmental science in a wetland setting |
||
44 |
565-568 |
Spear, F.S. |
The relationship between pH and PCO2 as the basis for simple classroom demonstration of chemical equilibrium in the carbonate system |
||
44 |
535-538 |
Argast, S.F., and Maloney, D.P. |
Weathering as a topic in an interdisciplinary science course for general education |
||
44 |
485-502 |
Lowman, P.D. Jr. |
Twelve key 20th-century discoveries in the geosciences |
||
44 |
321-322 |
Wampler, J.M., and Hannibal, J.T. |
Geomythology - A column about errors in geoscience textbooks - 2. Cleopatras needle still is not a good example of weathering in cities |
||
44 |
179-182 |
Merino, E. |
Melt and aqueous series of silicate crystallization displayed by chemical-potential diagrams |
||
44 |
548 |
Duve, C. de |
Food for thought |
||
44 |
67 |
Dressler, A. |
Food for thought |
||
43 |
517-528 |
McLean, D.M. |
K - T transition greenhouse and embryogenesis dysfunction in the dinosaurian extinctions |
||
43 |
507-510 |
Biddle, D.L. |
Ion activity and speciation in environmental geochemistry |
||
43 |
460 |
Hazen, R.M. |
Food for thought |
||
43 |
236-243 |
DeLa'O, J.D. |
CAD solid modeling as an interactive tool for applications involving multicomponent phase diagrams |
||
43 |
63-64 |
trent, D.D. |
Have you read . . . ? |
||
41 |
500-502 |
Picard, M.D. |
Holly sugar |
||
41 |
438-441 |
Ariskin, A.A., and Nielsen, R.L. |
Application of computer simulation of magmatic processes to the teaching of petrology |
||
41 |
404-411 |
Railsback, L.B. |
A geochemical view of weathering and the origin of sedimentary rocks and natural waters |
||
41 |
370-372 |
Picard, M.D. |
At the landslide |
||
41 |
369 |
McKinney, R.G. |
Comments on the work of Harrell and Penrod |
||
41 |
364-369 |
Morris, M. |
How not to analyze pyramid stone - The invalid conclusions of James A. Harrell and Bret E. Penrod |
||
41 |
358-363 |
Harrell, J.A., and Penrod, B.E. |
The great pyramid debate - evidence from the Lauer sample |
||
41 |
277-278 |
Picard, M.D. |
Community |
||
41 |
275-276 |
Allen, J.E. |
Reflections of a field geologist on the ecology of science |
||
41 |
274 |
Morrison, P. |
Food for thought |
||
41 |
260-261 |
triplehorn, D.M., and triplehorn, J.H. |
Geologists select the great books of geology |
||
41 |
254-259 |
Blewett, W.L. |
Description, analysis, and critique of the method of multiple working hypotheses |
||
41 |
247-253 |
Schoonen, M.A.A., and Oswald, E.J. |
A graphic technique for illustrating thermodynamic constraints on the mass of precipitate from supersaturated solutions |
||
41 |
172-176 |
Picard, M.D. |
Valpola slide, Similaun man |
||
41 |
164-169 |
Martin, B.S. |
Interactive modelling of open magma systems with spreadsheets |
||
41 |
106-117 |
Reimold, W.U. |
A review of the geology of an deformation related to the Vredefort structure, South Africa |
||
41 |
52-56 |
Picard, M.D. |
The fall of Quail Creek dike |
||
41 |
35-37 |
Barker, D.S. |
Crustal abundances of elements and species diversity of minerals |
||
41 |
23-28 |
Kenah, C., and Craig, J.R. |
The importance of observations in geology with reference to gold-nugget formation |
||
41 |
12-14 |
Railsback, L.B. |
A thermodynamic perspective on the stability of carbonate minerals and its implications for carbonate petrology |
||
40 |
321-323 |
Follo, M.F. |
Using athletic assemblages to illustrate biostratigraphic principles |
||
40 |
125-129 |
Geist, D.J. |
Computer-aided instruction for the interpretation of phase diagrams for magma |
||
40 |
116-118 |
Brady, J.B. |
Does ice dissolve or does halite melt? |
||
39 |
444 |
Jorstad, R.B. |
Down-to-Earth software reviews |
||
39 |
127-132 |
Dutch, S.I. |
Geochemical calculations using spreadsheets |
||
39 |
44-47 |
Cawthorn, R.G. |
Simulation of layered magma chambers |
||
39 |
31-33 |
Emiliani, C. |
Avogadro Number and mole: a royal confusion |
||
37 |
354 |
Anderson, D.L. |
Food for thought |
||
37 |
341-342 |
Jacobson, G.L. |
A stand-up and sit-down approach to teaching Bowen's reaction series |
||
37 |
316 |
Booth, W. |
Food for thought |
||
37 |
290 |
Osmond, J.K. |
Food for thought |
||
37 |
261-279 |
Frey, R.W., and Wheatcroft, R.A. |
Organism-substrate relations and their impact on sedimentary petrology |
||
37 |
250-260 |
Folk, R.L. |
Internal structuring of quartz as revealed by boiling in concentrated hydrofluoric acid |
||
36 |
286-289 |
Meijer, E.L. |
Stability fields of solid solutions in phase diagrams |
||
36 |
282-286 |
Meijer, E.L. |
A versatile GWBASIC program for calculations on mineral equilibria |
||
36 |
276-281 |
Rock, N.M.S. |
A general-purpose FORtrAN-77 program for generating normalized multi-element abundance diagrams in petrology and geochemistry |
||
36 |
237-243 |
McLean, D.M. |
K-T transition into chaos |
||
36 |
236 |
Feigl, F.J. |
Food for thought |
||
36 |
205-206 |
Schmidt, M.F., Jr. |
Cover photo of exfoliating basalt pillows, OR. |
||
36 |
161-175 |
Wakefield, J.R. |
The geology of Gentry's tiny mystery |
||
36 |
140-142 |
Cercone, K.R. |
A classroom simulation of water-rock interaction for upper-level geochemistry courses |
||
36 |
24-29 |
Davis, S.N. |
Natural radionuclides in ground water |
||
36 |
4-8 |
Varekamp, J.C. |
Lake-pollution modelling |
||
35 |
256-259 |
Mursky, G. |
Flow chart for mineral separation from granitic rocks |
||
35 |
203-204 |
Garlick, G.D. |
Petrographic distinction between basalt and andesite |
||
35 |
181-182 |
Kresan, P.L. |
Cover photo of Gulf of California tidal slew |
||
35 |
144-149 |
Matisoff, G. |
A model for biological mixing of sediments |
||
35 |
61-62 |
Bending, L. |
Cover photo of aragonite crystallites from hot spring |
||
34 |
196-197 |
Corbett, R.G. |
Battery-powered field filtration assembly |
||
34 |
32-36 |
Manche, E.P. |
Obsidian hydration dating |
||
34 |
4-6 |
Dudley, W.C. |
Gold from the sea |
||
33 |
269-270 |
Halsor, Sid P., and Chesner, Craig A. |
A color video tape introduction to fluid inclusions for economic geology classes of suspended sediments |
||
33 |
171-174 |
Corbett, Robert G., Manner, Barbara M., and Tompkins, Frank G. |
Using a FORtrAN program and piper diagrams to facilitate understanding of water chemistry |
||
33 |
132-133 |
Siegel, Frederic R. |
In-situ recovery from streams |
||
33 |
112-125 |
Land, Lynton S. |
The origin of massive dolomite |
||
33 |
40-44 |
Kretz, R. |
Calculation and illustration of uncertainty in geochemical analyses |
||
33 |
11 |
Morris, William |
Acid etching feldspar - the easy way |
||
33 |
1-2 |
Allen, J.E. |
Cover photo of Oregon thunder egg (lithophysae) |
||
32 |
288 |
Hazen, R.M. |
Mineralogy: a historical review |
||
32 |
177 |
Brown, I.F. |
Three techniques to help students teach themselves concepts in environmental geology |
||
32 |
138 |
Burger, H.R. |
RAMblings |
||
32 |
86 |
Wilson, J.R., |
Speleothems as examples of chemical equilibrium processes |
||
31 |
265 |
Judson, H.F. |
Food for thought |
||
31 |
219-229 |
Burger, H.R. |
Catalog of computer programs used in undergraduate geological education, Installment 1 - Mineralogy, petrology and geochemistry |
||
31 |
211-218 |
Bathurst, B. |
Rediscovering Schreinemakers' theorem |
||
31 |
193-197 |
Hodder, A.P.W. |
A titration technique for demonstrating a magma replenishment model |
||
31 |
5-8 |
Rowe, M.W. |
Characterization of coals and lignites by thermo-magneto-gravimetric analysis |
||
30 |
273 |
Goodell, P.C. |
Computer-oriented teaching modules in geochemistry |
||
30 |
271 |
Carl, J.D. |
Atomic absorption spectrophotometer |