Geochimica et Cosmochimica Acta 1992: Vol 56 Index PDF
Preview Geochimica et Cosmochimica Acta 1992: Vol 56 Index
SUBJECT INDEX A racemization, dating, 56(2):739 Arsenic sources, marine environment, 56(5):1963 solubility, As.S3;, amorphous, 56(6):2267 Acantharia thermodynamic properties, 56(9):3481 speciation, aqueous solution, 56(6):2272 geochemistry, Sr, Ba, oceans, 56(8):3273 Ammonia Aspartic acid Acapulco (meteorite, unclassified) equation of state, 56(10):3611 racemization, 56(10):3847 Sm-Nd dating, 56(2):797 Ammonium Asphaltene Acetate organogenic, Monterey Formation, Cali- Dead Sea, archaeological, 56(7):2743 porewater, marine sediment, 56(3):1247 fornia, USA, 56(5):1979 isotope composition, Dead Sea, H and C, Activity Angra dos Reis (angrite) 56(7):2747 REEs, electrolyte solutions, 56(8):3123 age determinations, 56(4):1673 N, functionality, petroleum, 56(10):3745 silicate melts, FeO, NiO, Fe,O3, and Anhydrite pyrolysis, 56(4):1545 MgO, 56(1):303 target rocks, K/T boundary, 56(9):3603 Atlantic Ocean Adsorption Anorthite 5'°C, suspended organic matter, 56(3): adsorption/desorption model, leaching of dissolution kinetics, 25°C, 56(5):1815 1413 solids, 56(7):2589 expansivity, glass, 56(2):689 mid-Atlantic ridge, fluid inclusions, 56(1): alkaline earth elements, Mn oxides, 56(2): noble gases, solubility, 56(2):709 35 602 Anorthosite Oceanographer Transform, 56(1):35 Au, pyrite, geothite, 56(5):1801 lunar, Fe partitioning, plagioclase-basalt, Atmosphere cations, humic acid, 56(10):3627 56(5):1885 CO,, emission, volcanoes, 56(4):1765 clay, on Fe III oxides, 56(4):1507 lunar, noble gases, adsorption, 56(1):493 Auger Electron Spectroscopy Cs, illite, 56(3):1157 Stillwater Complex, Montana, origin, Cd, calcite, 56(5):1941 Cd?*, Pb?*, silica, high T, 56(7):2941 56(3):1187 Australia noble gases, lunar anorthosites, 56(1):493 Antarctica Amadeus Basin, sediment provenance, radionuclides, Lake Constance, Switzer- micrometeorites, 56(7):2923 56(3):921 land, 56(6):2339 Mount Erebus, volcanic activity, 56(3): Burgoyne batholith, South Australia, removal, Al and Th, diatoms, seawater, 1401 56(7):2789 56(9):3365 rifting from Africa, 56(9):3561 diamonds, Argyle, 56(1):389 222Rn, natural sediment, 56(11):3923 Anthropology Kambalda, komatiites, 56(12):4191 Th, colloids, Gulf of Mexico, 56(9):3375 dating, fossil bones, racemization, amino Mount Isa Inlier, 56(3):899 trace elements, lake sediment, 56(3):1175 acids, 56(2):739 New South Wales, 56(1):67 Al Rais (chondrite) Apatite Queensland, Mt. Isa, 56(3):899 Fe-Ni grains, origin, 56(6):2521 partitioning, F-Cl-OH, biotite-apatite, Western Australia, Hamersley Basin, Alaska 56(9):3435 56(8):3031 Novarupta Vent, Katmai, 56(4):1429 solubility, carbonate-rich liquid, 56(9): Western Australia, Mt. Narryer, 56(3): Katmai volcano, 56(4):1429 3409 1281 St. Augustine volcano, gases, 56(2):633 solubility, peraluminous liquids, 56(10): Austria Tin Creek, Zn-Pb mineralization, 56(1): 3855 eclogite, dating, 56(1):347 109 Sr, isotope composition, Precambrian, Valley of Ten Thousand Smokes, 56(4): 56(7):2789 B 1429 Aquifer Albite Cohansey Sand, coastal plain, New Jersey, Bacteria F complexation, glass, 56(2):701 USA, 56(4):1507 alteration, basalt glass, 56(2):845 weathering, surface reactions, 56(8):3113 “Ar/*’Ar method of dating Archaebacteria, Orca Basin, sediment, Algae clinopyroxene, diamonds, eclogite, 56(1): 56(9):3469 C, N, isotope composition, Orinoco 389 methanogenic sediment, 56(3):1254 River, 56(12):4237 fluid inclusions, 56(1):227 Baffin Bay, Canada ALHA 77214 (chondrite) Kiglapait Intrusion, Labrador, Canada, triterpenoids, diagenesis, 56(5):2001 metamorphism, 56(10):3791 56(6):247 1 Barium ALHA 77307 muscovite, Dora-Maira nappe, Italy, geochemistry, seawater, 56(8):3273 olivine, isolated and in chondrules, 56(1): 56(7):285 1 foraminifera, 56(7):2673 467 shocked rocks, Haughton structure, Can- Lake Biwa, Japan, 56(2):597 Aluminum ada, 56(4):1593 Basalt Al,3, formation, natural conditions, Aragonite alteration, microbial, glass, 56(2):845 56(10):3831 C, isotope fractionation, 56(1):419 alteration, water-rock interaction, 56(12): AICl;, heat capacity, 56(12):4125 solubility, aragonite-strontianite solid so- 4169 hydroxy complexes, 56(6):2573 lution, 56(8):3045 B, isotope composition, ODP 504B, kinetics, removal from seawater, diatoms, Archaeology 56(4):1635 56(9):3365 Asphalt, Dead Sea, export, 56(7):2743 classification, lunar, 56(6):2179 speciation, aqueous solution, 56(3):1065, Argon Fe, partitioning, plagioclase-basalt, 56(5): 1093 equation of state, 56(10):361 1 1885 vapor pressure, Al(OH);, 56(1):511 isotope composition, fluid inclusions, Ir, basaltic tuff, 56(7):2955 Amazon River, Brazil 56(1):227 lunar, petrogenesis, 56(6):2177, 2235; Be, isotope geochemistry, 56(4):1607 MORB, 56(3):1301 56(10):3809 humic substances, 56(4):1753 Murchison, 56(7):2909 Nd, isotope composition, Egmont vol- Amino acids muscovite, retention, compositional con- cano, New Zealand, 56(3):941 corals, 56(11):3849 trol, 56(7):2851 partition coefficients, trace elements, fossil mollusk shells, 56(6):2445 natural gas, Alberta, Canada, 56(4):1574 REEs, lunar, 56(6):2242 4365 Pb, isotope composition, Egmont vol- 5'3C, marine, 56(1):335 Devon Island, Haughton impact struc- cano, New Zealand, 56(3):941 Fe-chloride speciation, 56(8):3179; 56(9): ture, 56(4):1591 S, concentration, 56(5):1863 3681 Labrador, Kiglapaiti, 56(6):2471 Sr, isotope composition, Egmont volcano, fluid inclusions, granite, Australia, 56(1): Manitoba, 56(1):49 New Zealand, 56(3):941 67 Ontario, 56(1):369; 56(9):3531 weathering, surface chemistry, 56(10): fluid inclusions, halogen concentration, Quebec, Sagueray fjord, 56(11):3909 3711 56(1):203 Carbon Bastnaesite fluid inclusions, plutonic rocks, 56(1):35 carbonate rocks, Proterozoic, 56(3):875 REE geochemistry, 56(2): 725 H, O, isotope composition, formation wa- Chassigny, 56(2):817 Zr/Hf ratio, 56(6):2417 ters, Japan, 56(9):3505 geochemical cycle Beryllium isochore location, 56(1):295 Phanerozoic carbonates, 56(8):3289 isotope geochemistry, river basin, 56(4): methane, solubility, 56(4):1451; 56(12): weathering, plants, 56(8):3225 1607 4301, 4303 isotope composition speciation, pH, 56(4):1616 origin, retrograde metamorphism, 56(1): acetate, marine sediment, 56(3):1247 Biomarkers 81 algae, Orinoco River, 56(12):4237 arborane/fernane series, 56(9):3595 physical chemistry, Na and K chlorides, biomarkers, petroleum, Monterey For- bitumen, humic coal, 56(7):2761 56(6):2281 mation, California, USA, 56(3):1391 C, isotope compositions, hopanes, petro- Salton Sea, California, USA, 56(5):2131 dissolved inorganic, Pacific Ocean, leum, Monterey, California, USA, solution kinetics, quartz, 56(12):4147 56(9):3589 56(3):1391 British Columbia, Canada carbonate rocks, Precambrian, 56(3): dinosterane, occurrence, sediment, 56(6): Ag-Pb-Zn veins, crustal extension, 56(9): 1317 2437 3513 geothermal system, Iceland, 56(12): diphytanyl glycerol ether, Orca Basin, Cassiar serpentinites, 56(1):97 4221 56(9):3469 Boss Mountain, MoS, deposits, 56(1):261 hydrocarbons, Murchison, 56(11):4045 lignin dimers, 56(11):4025 Saanich Inlet, 56(5):1964 hydrothermal deposits, Guaymas basin, petroleum, Gulf Coast, USA, 56(3):1259 Bromine Gulf of California, 56(5):2025 sterenes, bitumen, Monterey Formation, halite and sylvite, 56(6):2555, 2559 marine brines, 56(1):335 California, USA, 56(3):1223 Bulk Earth oceans, discrepancies, 56(8):3259 terpenoids, petroleum, Southeast Asia, chemical compositions, 56(3):1002 seawater, Paleoproterozoic, 56(6):2487 56(3):1231 SiC grains, Murchison, 56(4):1717 C triterpenoids, 56(5):1993, 2001 suspended organic matter, oceans, tetrapyrrole pigments, 56(4):1743 Cadmium 56(3):1413 Biotite adsorption, silica, high 7, 56(7):2941 fractionation, calcite and aragonite, 56(1): kinetics, dissolution, pH effect, 56(8):3073 calcite, 56(5):1941 419 partitioning, F-Cl-OH, biotite-apatite, Calcite isotope disequilibrium, travertine-water, 56(9):3435 B, concentration, isotope composition, Oman, 56(5):2041 Bitumen marine, 56(1):540 Carbonaceous chondrite identification, hydrocarbons, Monterey C, isotope fractionation, 56(1):419 ALHA 77307, olivine, 56(1):467 Formation, California, USA, 56(3): Cd, concentration, 56(5):1941 alkyl phosphonic acid, Murchison, 56(1 1): 1223 dissolution kinetics, role of dislocations, 4109 oligoterpenoids, crude oil, Asia, 56(3): 56(3):1113 aqueous alteration, 56(3):1373 1231 fractures, Precambrian shield, Canada, dust mantles, accretionary, 56(7):2873 pyrolysis, 56(4):1545 56(1):369 hydrocarbons, Murchison, 56(11):4045 Windy Knoll, UK, 56(1):155 REE geochemistry, 56(2):725 IDP grain W7013FS, 56(3):1409 Black Sea Sr, incorporation, 56(4):1531 Murchison REEs, redox cycling, 56(12): 4305, 4309 Sr, isotope composition, 56(1):373 Q-gases, 56(7):2907 Bog Sr/Mg ratios, 56(5):1837 SiC grains, 56(4):1715 methane production, by CO, reduction, stability, Mg-calcite, 56(11):4095 shock metamorphism, 56(12):4281 56(9):3493 travertine, 5'8O, 6!3O, Oman, 56(5):2041 Vigarano, refractory inclusions, 56(3): Bondoc (mesosiderite) zoning, trace elements, 56(2):587 1343 igneous clasts, 56(2):827 Calcium Carbonate rocks trace elements, 56(2):829 brines, fluid inclusions, 56(1):35 geochemistry, Proterozoic, 56(3):875; Boron isotope fractionation, hibonite inclusions, 56(6):2487 geochemistry, lower crust, 56(2):775 meteorites, 56(6):2503 Phanerozoic, effect of plate tectonics, hydroxy complexes, 56(6):2573 vapor pressure, Ca(OH), 56(1):511 56(8):328 1 isotope composition, brine, China, 56(4): California, USA Precambrian, isotope composition, 56(3): 1561 Catalina Schist, N, 56(7):2839 1317 isotope composition, marine carbonates, Clear Lake, cosmogenic I and Cl, 56(5): S, isotope composition, Precambrian, 56(1):537 2069 56(8):3311 isotope geochemistry, oceanic crust, 56(4): Monterey Formation solubility, 56(8):3031 1633 ammonium, 56(5):1979 Cathodoluminescence rhyolite, thermal waters, 56(10):3723 biomarkers, 56(3):1391; 56(4):1743 chondrules, type 3 ordinary chondrites, speciation, pH dependence, 56(4):1565 chert, geochemistry, 56(7):2657 56(10):3791 Botswana hydrocarbons, 56(3):1223 dolomite, zoning, 56(11):4015 diamonds, Jwaneng and Orapa, 56(1):389 S, 56(2):763 fluid inclusions, 56(1):175 Brachiopods Salton Sea, brines, 56(5):2131 Celestite 5'3C, lower Paleozoic, 56(1):431 San Joaquin basin, 56(5):1979 acantharians, seawater, 56(8):3273 5'8C, lower Paleozoic, 56(1):431 Santa Maria basin, 56(5):1979 Cesium Brazil Canada adsorption, kinetics, illite, 56(3):1157 Amazon River, 56(4):1607 Abitibi greenstone belt, 56(5):208 1 bulk Earth, 56(3):1001 Brines Alberta, 56(4):1569 Chassigny (SNC) Cl, isotope composition, 56(12):4247 Baffin Bay, sediment, 56(5):2001 C compounds, 56(2):817 CO, clathrate hydrate, 56(1):273 British Columbia, 56(1):97; 56(9):3513 N compounds, 56(2):817 4366 Chernobyl, Russia clathrate hydrate, stability, 56(1):273 lunar volcanism, 56(6):2213 radionuclides, Lake Constance, 56(6): dissociation, oxalic acid, 56(1):281 recemization, amino acids, 56(2):739 2339 emission, volcanoes, global, 56(4):1765 Deep-Sea Drilling Program (see also, ODP) Chert equation of state Dhajala (chondrite) REEs, 56(5):1897 CHy,-CO,-H,0, 56(7):2605, 2619 metamorphism, 56(10):3791 REEs, Monterey Formation, California, high T and P, 56(10):3611, 3839 Diagenesis USA, 56(7):2657 fluid inclusions, 56(1):49, 121 chert, marine, Monterey Formation, Cali- trace elements, 56(5):1897 Coal fornia, USA, 56(7):2657 trace elements, 56(7):2657 biomarkers, pyrolysate, 56(7):2761 iron oxides, aquifer, 56(4):1507 Chesapeake Bay, USA pyrolysis, 56(4):1545 Fe, Mn, landslide deposits, coastal marine REEs, geochemistry, 56(9):3389 Cobalt sediment, 56(11):3909 Chicxulub crater, Mexico olivine, partitioning, 56(10):3733 kerogen, effect on molecular structure, impact site, K/T boundary, 56(9):3603 Columbite 56(7):2725 China U-Pb dating, 56(5):2137 organic-acid complexes, 56(2):565 Da Qaidam Lake, Qinghai, B isotope Colloidal suspension phenolics, lignin, 56(10):3751 composition, 56(4):1561 clay, groundwater, 56(4):1507 protein, 56(10):3847 Huanghe (Yellow River), 56(10):3669 scavenging, Th, seawater, 56(9):3375 S, anoxic sediment, 56(6):2425 Qinling orogenic belt, 56(11):3933 Yellow River, China, 56(10):3669 S, Monterey Formation, California, USA, Yangtze craton, 56(11):3933 Complexation 56(2):763 Chlorine cations, humic acid, 56(10):3627 sediment, Guaymas basin, hydrothermal Cl,, equation of state, 56(10):3839 effect, solubility of minerals, supercritical fluid, 56(6):2329 36C], Clear Lake, CA, 56(5):2069 water, 56(8):3191 triterpenoids, 56(5):1993, 2001 Fe, complexes, hydrothermal fluids, 56(8): Fe-chloride, hydrothermal fluid, 56(8): Diamonds 3179 3179; 56(10):3681 dating, clinopyroxene, *°Ar/??Ar method, granitic melt, 56(2):659, 679 organic acids, 56(2):565 56(1):389 ground water, Palo Duro Basin, TX, polynuclear, Al,3;, 56(10):3831 Diatoms 56(4):1495 REEs, organic ligands, 56(3):1127 removal, Al, Th, seawater, 56(9):3365 isotope composition, fluid inclusions, U(VI) phosphate, 56(12):4135 Diffusion brines, 56(12):4247 Copper Cd?*, calcite, 56(5):1941 partitioning, biotite-apatite, 56(9):3435 ore deposit, supergene enrichment, isotope effect, °LiCl, LiCl, 56(10):3781 silicate melts, 56(2):607 56(11):3987 Mg, spinel, 56(6):2535 Chondite meteorites Coral silicate melts, Si, B, and Ga, 56(2):617 cathodoluminescence, chondrules, 56(10): B, isotope composition, 56(1):539 water, obsidian, 56(7):2931 3791 diagenesis, protein, 56(10):3847 Dinosterane darkening, silicate minerals, shock meta- racemization, aspartic acid, 56(10):3847 sediment, environmental constraint, morphism, 56(4):1705 Cosmogenic radionuclides 56(6):2437 degassing, experimental, 56(12):4267 36C], Clear Lake, CA, 56(5):2069 Diopside metal grains, origin, 56(6):2521 3He, surface exposure dating, 56(11):4105 expansivity, glass, 56(2):689 organic compounds, Forest Vale, 56(7): 1291 Clear Lake, CA, 56(5):2069 noble gases, solubility, 56(2):709 2899 quartz, separation technique, 56(9):3583 Dissolution Chondrule Costa Rica Rift kinetics, temperature dependence, 56(10): cathodoluminescence, 56(10):3791 B, isotope geochemistry, 56(4):1633 3825 olivine, ALHA 77307, 56(1):467 Crust labradorite, incongruent, 56(11):3979 Cinnabar B, geochemistry, 56(2):775 quartz, 56(11):4091, 4093 S, isotope composition, Almadén, Spain, B, isotope geochemistry, oceanic, 56(4): Dolomite 56(10):3765 1633 surface composition, 56(11):4015 Classification chemical composition, China, 56(11): zoning, trace elements, 56(1):319 basalt, lunar, 56(6):2179 3933 E igneous clasts, mesosiderites, 56(2):827 Eu anomaly, clinopyroxene, Ivrea zone, mollusks, amino acids, 56(6):2445 Italy, 56(6):2363 East African Rift Valley petrographic, carbonaceous chondrites, evolution Mn nodules, Lake Malawi, trace ele- 56(12):4281 Eu anomalies, 56(3):963 ments, 56(7):2703 Clathrate Iberian Peninsula, 56(2):789 Eclogite CO, hydrate, stability, 56(1):273 New Zealand, 56(3):911 dating by Sm-Nd, Rb-Sr, Pb-Pb, Austria, Clay planetary, 56(3):871-1064 56(1):347 adsorption on Fe III oxide, 56(4):1507 He, flux, 56(5):2051 diamonds, “°Ar/*°Ar dating, clinopyrox- Gibbs free energy, 56(8):3007 hybridization, magmatic underplating, ene, 56(1):389 H, isotope fractionation, clay-water, 56(3):971 EET87500 56(6):2547 oldest crust, Mt. Narryer, Western Aus- igneous Clasts, 56(2):827 Clinopyroxene tralia, 56(3):1281 trace elements, 56(2):829 diamonds, “°Ar/?°Ar dating, 56(1):389 rhydite, primary, Taupo Volcanic Zone, Eh-pH diagrams Eu anomaly, gabbro, Ivrea zone, Italy, New Zealand, 56(3):955 S-H,0O system, 56(8):3157 56(6):2363 Cummingtonite supergene oxidation, ore deposits, 56(8): partition coefficients rhyolite, Taupo Volcanic Zone, New Zea- 3133 REEs, Sc, Y, 56(6):2387 land, 56(3):955 Enthalpy trace elements, 56(6):2371 Crystal 3He, relation, geothermal area, Iceland, partitioning, REEs, pressure effect, 56(4): refractive index, 56(8):3001 56(12):4229 1523 Environmental geochemistry D CO acidification, drainage basins, 56(6):231 1 dissociation, oxalic acid, 56(1):281 Dating Europium anomaly equation of state, 56(10):3611, 3839 cosmogenic radionuclides, hydrothermal clinopyroxene, gabbro, Ivrea zone, Italy, CO, water, California, USA, 56(5):2069 56(6):2363 aqueous, seawater, 56(3):1413 3He, surface-exposure dating, 56(11):4105 crustal evolution, 56(3):963 4367 Equation of state Fumarole Harney Peak leucogranite, Black Hills, CH, -CO, -H20 system, high 7 and P, trace elements, Valley of Then Thousand stable isotopes, 56(1):403 56(7):2605, 2619 Smokes, Alaska, USA, 56(4):1429 Mole granite, Australia, fluid inclusions, fluids, C-H-O-N-S-Ar, high P and 7, 56(1):67 G 56(10):3611 oxygen, isotope exchange, granite-water, gases, nonpolar and weakly polar, 56(10): 56(1):445 Gadolinium 3839 petrogenesis, Black Hills, South Dakota, rhyolite, Yellowstone Park, Montana, 56(5):1915 USA, 56(10):3724 F weathering, Swiss Alps, 56(8):3209 Galapagos Spreading Center Granulites Feldspar B, isotope geochemistry, ODP 504B, B, geochemistry, 56(2):775 dissolution rate, grain-size dependence, 56(4):1633 5'8O, 56(3):972 56(11):3957 Garnet Eu anomalies, 56(3):965 labradorite, leaching, Ca and Al, 56(1 1): pyrope, enthalpy of formation, 56(1 1): fluid inclusions, 56(1):295 3979 3971 Graphite Fig Tree Group, South Africa partition coefficients, trace elements, micrometeorites, 56(4):1665 noble metals, spherule bed, 56(3):1365 56(6):2371 Groundwater Florida, USA trace elements, partitioning, rhyolites, He, Hungarian Plain, 56(5):2051 mangrove, sediment, biomarkers, 56(5): 56(5):2133 Precambrian shield, Canada, 56(1):369 1993 xenolith, kimberlite, 56(7):2633 REE geochemistry, Palo Duro Basin, Fluid Inclusions Geochemical cycles Texas, USA, 56(4):1495 argon, isotope composition, 56(1):227 rock cycle, history, 56(8):2993 Guatemala brine, plutonic rocks, 56(1):35, 81 working group, 1972-1988, 56(8):2989 Zunil geothermal system, 56(1):121 chemical composition, 56(1):71, 89, 234, Geothermal area Gulf Coast, USA 249 Iceland, He, isotope composition, 56(12): geopressured system, 56(6):2547 chemical composition 4221, 4229 H, isotope fractionation, clay-water, gases, MVT, Tennessee, USA,56(1):141 Merapi, Bali, Indonesia, 56(1):264 56(6):2547 quartz, 56(1):245 Momotombo, Nicaragua, 56(1):261 Gulf of California, Mexico Cl, isotope composition, 56(12):4247 Mount St. Helens, Washington, USA, Guaymas basin fluorite, hydrocarbon-bearing, 56(1):155 56(1):261 hydrothermal deposits, 56(5):2025 granite Taupo volcanic zone, New Zealand, hydrothermal fluids, 56(6):2329 eastern Australia, 56(1):67 56(7):2821 Gulf of Mexico Sardinia, 56(1):21 volcanic gases, St. Augustine, volcano, Orca Basin, biomarkers, 56(9):3469 hydrocarbon-bearing, 56(1):155, 169 Alaska, USA, 56(2):633 petroleum, origin, 56(3):1259 igneous rocks, 56(1):10, 12 White Island, New Zealand, 56(1):261 Th, scavenging, 56(9):3375 MVT deposits, Tennessee, USA,56(1):137 Zunil, Guatemala, 56(1):121 noble gases, 56(1):187 Geothermometer PACROFTI III, 56(1):3--302 apatite-biotite, 56(9):3456 H pegmatite, Tanco, Manitoba, Canada, Germany 56(1):49 Dresden, tektites, 56(7):2937 Hafnium rodingite, 56(1):97 Messel oil shale, porphyrins, 56(2):745 isotope composition, zircon, Abitibi salinity estimates, 56(1):273 Gibbsite greenstone belt, Canada, 56(5):208 1 skarn, Tin Creek, Alaska, USA, 56(1) kinetics, dissolution, precipitation, 56(8): zircon, 56(5):2091 Th, °C, silicate melt, 56(1):7 3093 Zr/Hf, basalt, 56(6):2417 quartz, 56(1):81 solubility, brine, 56(3):1093 Haiti topaz, 56(1):67 solubility, water, 56(3):1065 impact glass, K/T boundary, 56(12):4329 volatiles, 56(1):9, 49 Glass K/T boundary, glass, geochemistry, 56(5): Fluocerite alteration, microbial activity, 56(2):845 2113 REE geochemistry, 56(2):725 expansivity, thermal, 56(2):689 weathering, O, isotope systematics, 56(7): Fluorite F, complexation, 56(2):701 2831 glass, silicate, 56(2):701 K/T boundary, geochemistry, 56(5):2113 Halite partitioning, biotite-apatite, 56(9):3435 lunar, Apollo 15, petrogenesis, 56(1 1): solubility, Br content, 56(6):2555 Fluorite 4075 stability, 56(6):2295 fluid inclusion, hydrocarbon-bearing, noble gases, oceanic basalt, 56(3):1301 Halogens 56(1):155 refractive index, 56(8):3001 fluid inclusions, 56(1):187, 203 REEs, fluorescence, 56(7):2713 U, structural environment, 56(12):4205 Haughton impact structure, Canada REE geochemistry, 56(2):725 water, speciation, 56(5):1875 K-Ar dating, shocked rocks, 56(4):1591 Foraminifera Goethite Hawaii, USA C, isotope composition, 56(8):3259 adsorption, Au, 56(5):1801 Kilauea, weathering, basalt, 56(10):371 1 Ba, uptake, 56(7):2673 Gold Loihi seamount, 56(3):1301 Forest Vale (H4 chondrite) adsorption, pyrite and geothite, 56(3): Pele’s Vent, Loihi seamount, 56(10):3643 organic compounds, 56(7):2899 1801 Helium Forsterite Goldschmidt Award geothermal area, Iceland, 56(12):4221, noble gases, solubility, 56(2):709 introduction, 56(12):4333 4229 Fourier Transform Infrared Microspec- acceptance, 56(12):4337 groundwater, Hungarian Plain, mantle trometry Granite fluxes, 56(5):2051 fluid inclusions, hydrocarbon-bearing, apatite, Sr, isotope composition, 56(7): isotope composition 56(1):155 2789 Monche Pluton, Kola Peninsula, 56(3): hydrocarbon-water emulsion, 56(1):169 Ar/*°Ar dating, fluid inclusions, 56(1): 987 mineral composition, deep-sea sediment, 227 geothermal system, Iceland, 56(12): 56(4):1759 chemical composition, 56(5):1926 4221 Fugacity chlorine geochemistry, 56(2):659, 679 mapping magma sources, Indonesia, O,, effect on partitioning, Ni, Co, olivine, fluid inclusions, 56(1):21 56(2):851 56(10):3733 fluid inclusions, gases, 56(1):261 MORB, 56(3):1301 4368 Murchison, 56(7):2909 Krafla volcano, weathering, basalt, 56(10): Jordan natural gas, Alberta, Canada, 56(4):1574 3711 Dead Sea, asphalt, 56(7):2743 Hematite ICP K dissolution, bicarbonate solutions, 56(3): fluid inclusions, topaz, 56(1):67 K-Ar dating 1139 Illite effect of shock metamorphism, 56(4):1591 Hydrocarbons Cs, adsorption, kinetics, 56(3):1157 Monche Pluton, Kola Peninsula, 56(3): catalysis, transition metals, 56(1):553 Impact rocks 987 fluid inclusions, fluorite, 56(1):155 K-Ar dates, Haughton structure, Canada, K/T boundary event FTIR analysis, fluid inclusions, 56(1):169 56(4):1591 chalcophile elements, boundary clay, identification, Monterey Formation, Cali- spherule bed, Fig Tree Group, South Af- western USA, 56(4):1695 fornia, USA, 56(3):1223 rica, 56(3):1365 Chicxulub crater, Mexico, 56(9):3603 Humans India comparison with Triassic/Permian racemization, amino acids, fossil bones, Dharwar Craton, 56(6):2455 boundary, 56(8):3297 56(2):739 granulites, B, 56(2):775 geochemistry, impact glass, Haiti, 56(5): Humic acid Indonesia 2113 adsorption, cations, 56(10):3627 magma sources, 56(2):851 impact glass, water content, Haiti, 56(12): Amazon River, 56(4):1753 Merapi geothermal area, 56(1):261 4329 Hungary Sunda-Banda arc, 56(2):851 Ir, Balder Formation, North Sea, 56(7): Hungarian Plain, groundwater, He, 56(5): Interplanetary Dust Particle 2955 2051 C1 chondrite-like grain, W7013F5, 56(3): Ir, boundary clay, western USA, 56(4): Hydrocarbons 1409 1695 bitumens, 56(7):2761 lodine triterpene-derived, 56(9):3595 1257 Clear Lake, California, USA, 56(5): target rocks, anhydrite, 56(9):3603 Kaolinite Hydrogen 2069 dissolution kinetics, 56(9):3339 equation of state, 56(9):3611, 3839 Ion chromatography incongruent dissolution, surface area, isotope composition fluid inclusions, quartz, 56(1):249 56(9):3357 Harney Peak granite, 56(1):403 Ion Probe Mass Spectrometry Kenya hydrocarbons, Murchison, 56(11):4045 zircon, U-Pb dating, 56(3):911 Lake Magadi, 56(3):1331 shale, 56(9):3505 zircon, U-Pb dating, Mt. Narryer, West- Kerogen isotope fractionation, clay minerals-water, ern Australia, 56(3):1284 kinetics, hydrous pyrolysis, 56(1):533, 535 56(6):2547 Iridium molecular structure, 56(7):2725 Hydrolysis boundary clay, K/T event, western USA, pyrolysis, 56(4):1545 AICl3, 56(12):4125 56(4):1695 pyrolysis, alkylpyrroles, 56(4):1743 Hydrothermal alteration Iron Kinetics REEs, mobility, volcanic rocks, 56(11): carbonate complexes, 56(3):1139 adsorption 3951 chloride complexes, hydrothermal fluid, Cs, illite, 56(3):1157 rhyolite, B and Li, 56(10):3723 56(8):3179 crystal growth Hydrothermal deposits crystal chemistry, metasomatism, upper octacalcium phosphate, organic acids, isotope compositions, S, C, and O, 56(5): mantle, 56(6):2579 56(5):1955 2025 cycling, natural environment, 56(8):3233 decomposition Taupo volcanic zone, New Zealand, diagenesis, coastal marine sediment, organic matter, 56(3):1387; 56(8):3323 56(7):2821 56(11):3909 dissolution Hydrothermal fluids Fe III oxide, adsorption, clay, 56(4):1507 anorthite, 25°C, 56(5):1815 age, cosmogenic radionuclides, Clear hydrothermal plumes, 56(10):3693 biotite, pH dependence, 56(8):3073 Lake, California, USA, 56(5):2069 Ni, Co, partitioning, olivine, 56(10):3733 calcite, dislocations, 56(3):1113 B, Li, rhyolite, Yellowstone Park, 56(10): oxide, adsorption, trace elements, 56(3): feldspar, grain-size dependence, 56(1 1): 3723 1175 3957 chemical composition, Zunil and Los photochemical oxidation, Fe?*, 56(7): gibbsite, dependence on saturation of Azufres, Guatemala, 56(1):123 2595 solution, 56(8):3093 Cl, isotope composition, 56(12):4247 Precambrian rocks, O, in atmosphere, hematite, bicarbonate solutions, 56(3): CO,, content, 56(1):121 56(8):3217 Fe-chloride complexing, 56(8):3179; relation to Pb, 56(12):4157 1139 kaolinite, acidic solutions, 56(9):3339 56(10):368 1 Iron formations kaolinite, incongruent dissolution, fluid inclusions, halogens, K, 56(1):203 global O, budget, Precambrian, 56(8): 56(9):3357 Guaymas basin, 56(6):2329 3217 quartz, 56(11):4091, 4093 isotope alteration, model, 56(9):3539 Marra Mamba, Western Australia, 56(8): quartz, NaCl solution, 56(21):4147 mid-Atlantic Ridge, 56(1):35 3031 surface roughness, effect, 56(4):1461 Pele’s Vent, Loihi seamount, Hawaii, origin, photochemical oxidation, Fe**, temperature dependence, 56(10):3825 USA, 56(10):3643 56(7):2595 precipitation Pt, Pd, solubility, sulfides, 56(11):3881 Israel calcite, 56(5):1837 solubility, minerals, supercritical water, Dead Sea, asphalt, 56(7):2743 Komatiite 56(8):3191 Italy REE fractionation, olivine, 56(12):4191 trace elements, Teahitia and Macdonald Dora-Maira nappe, 56(7):2851 Krymka (chondrite) volcanoes, 56(10)3693 Gargano Peninsula, dolomite, 56(1):319 metamorphism, 56(10):3791 zircon, stability, 56(9):3551 Ivrea zone, gabbro, 56(6):2363 Krypton Hydroxyl Sardinia, Mt. Genis granite, 56(1):21 MORB, 56(3):1301 partitioning, biotite-apatite, 56(9):3435 J Murchison, 56(7):2909 I solubility, silicate minerals, melts, 56(2): Jadeite 709 Ibitira (eucrite) F complexation, glass, 56(2):701 L Sm-Nd dating, 56(2):797 Japan Iceland Kinki district, shale, 56(9):3505 Lakes He, geothermal system, 56(12):4221, 4229 Lake Biwa, Ba distribution, 56(2):597 Ba geochemistry, Biwa, Japan, 56(2):597 4369 Clear Lake, California, USA, cosmogenic rhyolite, Taupo volcanic zone, New Zea- Messel oil shale I and Cl, 56(5):2069 land, 56(3):955 porphyrins, 56(2):745 Constance, Switzerland, radionuclides, Tanco pegmatite, Manitoba, Canada, Metamorphism, shock 56(6):2339 56(1):49 carbonaceous chondrites, 56(12):4281 Da Qaidam Lake, Qinghai, China, B iso- Zagami, SNS meteorite, 56(9):3571; chondrules, 56(10):3791 tope composition, 56(4):1561 56(11):4059 darkening, silicate minerals, chondrites, Dead Sea, asphalt, 56(7):2743 Magnesium 56(4):1705 Madadi, Kenya, 56(3):1331 isotope fractionation, lunar soil, 56(3): fluid flow, isotopic alteration, 56(9):3539 Malawi, central Africa, 56(7):2703 1025 K-Ar dates, shocked rocks, Haughton im- sediment self-diffusion, spinel, 56(6):2535 pact structure, Canada, 56(4):1591 anoxic, S, diagenesis, 56(6):2425 Sr/Mg ratio, marine calcite, 56(5):1837 S, isotope disequilibrium, shale, 56(12): sorption, trace elements, 56(3):1175 Maine, USA 4257 Laser Waterville-Augusta area, sulfidic shale, Metasomatism “Ar/?Ar dating, muscovite, 56(7):2851 56(12):4257 Fe, upper mantle, 56(6):2579 fluorescence, REEs, fluorite, 56(7):2713 Manganese supergene enrichment, porporphyry Cu Lead diagenesis, coastal marine sediment, protore, 56(11):3987 adsorption, silica, high 7, 56(7):2941 56(11):3909 Meteorites HIMU, mantle, 56(12):4295 geochemistry, Kalix River, Sweden, 56(4): alkyl phosphonic acid, Murchison, 56(1 1): isotope composition 1485 4109 granitoids, Precambrian, India, 56(6): hydrothermal plume, 56(10):3693 angrites, age determinations, 56(4):1673 2458 oxide, adsorption, trace elements, 56(3): C-I clasts, Nilpena, 56(3):1373 volcanic rocks, Taupo volcanic zone, 1175 cathodoluminescence, chondrules, 56(10): New Zealand, 56(7):2797, 2821 photochemistry, 56(7):2595 3791 relation to Fe, natural water, 56(12):4157 Manganese nodules (lacustrine) chondrites, darkening, silicate minerals, solubility, PbSO,, 56(3):1165 geochemistry, 56(7):2703 shock metamorphism, 56(4):1705 sources, Taupo volcanic zone, New Zea- Manitoba, Canada classification, igneous clasts, mesosider- land, 56)7):2821 Tanco pegmatite, fluid inclusions, 56(1): ites, 56(2):827 volcanic rocks, Egmont volcano, New 49, 261 degassing, experimental, enstatite chon- Zealand, 56(3):941 Mantle drites, 56(12):4267 Lesotho evolution, 56(3):1001 dust mantles, accretionary, CM chon- kimberlite pipe, Matsoku, 56(6):2633 He, flux, 56(5):2051 drites, 56(7):2873 Lewis Cliff 86010 (angrite) HIMU, 56(12:4295 HAL, Allende, 56(6):2503 age determinations, 56(4):1673 metasomatism hydrocarbons, monocarboxylic acids, Lignin carbonate, 56(6):2417 Murchison, 56(11):4045 diagenesis, phenolics, 56(10):3751 Fe, 56(6):2579 impact glass, Haiti, geochemistry, 56(5): dimers, geochemical applications, 56(1 1): P, 56(9):3409 2113 4025 redox reactions, 56(6):2405 impact glass, Haiti, water content, 56(12): sources, marine environment, 56(5):1963 Mariana Arc, Pacific Ocean 4329 Lithium petrogenesis, magma, 56(4):1641 inclusions, hibonite, 56(6):2503 diffusion, °Li and ’Li, 56(10):3781 Mars inclusion, plagioclase-olivine, Allende, rhyolite, thermal waters, 56(10):3723 C and N, SNC meteorites, 56(2):817 56(6):2535 Loess Zagami, petrogenesis, 56(9):3571; 56(11): metal grains, chondrites, origin, 56(6): dissolution, orthoclase, pyriboles, catena, 4059 2521 56(9):3423 Mass extinction event nakhlites, petrogenesis, 56(4):1655 Louisiana, USA characteristic properties, 56(8):3297 organic compounds, Forest Vale, H4 petroleum, origin, 56(3):1259 Massachusetts, USA chondrite, 56(7):2899 Low Energy Electron Diffraction Boston Harbor, sediment, 56(11):3923 petrogenesis, Zagami, 56(9):3571; 56(11): Cd, calcite, 56(5):1941 Buzzards Bay, sediment, 56(11):3923 4059 Lutetium Melanoidins Q-gases, Murchison, 56(7):2907 zircon, 56(5):2091 fossil shells, 56(4):1539 refractory inclusions, 56(3):1343 Lu-Hf dating Melt, silicate shock metamorphism, carbonaceous zircon, Abitibi greenstone belt, Canada, Cl, geochemistry, 56(2):607 chondrites, 56(12):4281 56(5):2081 Cl, granitic melt, 56(2):659, 679 SiC grains, Murchison, 56(4):1715 density, Ti-bearing, 56(9):3403 Sm-Nd dating, 56(2):797 M diffusion, Si, B, and Ga, 56(2):617 SNC, C and N compounds, 56(2):817 Magma enthalpies, CaO-SiO,-Al,03, 56(7):2643 trace elements, mesosiderites, 56(2):829 Cl, geochemistry, elevated P and T, 56(2): expansivity, thermal, 56(2):689 Zagami, petrogenesis, 56(9):3571 659, 679 Ni, Co, partitioning, olivine, 56(10):3733 Methane degassing, St. Augustine volcano, Alaska, noble gases, solubility, 56(2):709 equation of state, 56(10):3611, 3839 USA, 56(2):633 REE partitioning, pressure effect, 56(4): equation of state, CH,-CO,-H,O, 56(7): immiscibility, 56(1):5 1523 2605, 2619 magma ocean, Moon, 56(10):3809 Sr, partitioning, plagioclase, 56(4):1735, hydrothermal plumes, 56(10):3693 petrogenesis, Mariana Arc, 56(4):1641 1739 natural gas, Alberta, Canada, noble gas S, concentration, basalt, 56(5):1863 trace element fractionation, partial melt- content, 56(4):1569 transport, lunar, 56(6):2253 ing, 56(10):3705 origin, temperate bog, 56(9):3493 Magmatic differentiation U, structural environments, 56(12):4205 solubility, brine, high T and P, 56(4): dating, *He, surface-exposure dating, Mercury 1451; 56(12):4301, 4303 56(11):4105 ore deposit, Almadén, Spain, 56(10):3765 Mexico fluid inclusion evidence, 56(1):5 Mesosiderites Chicxulub crater, Yucatan, 56(9):3603 Mount Genis granite, Sardinia, 56(1):21 Bondoc, igneous clasts, 56(2):827 Micrometeorites phonolite, Mt. Erebus, Antarctica, 56(3): EET 87500, igneous clasts, 56(2):827 graphitic C, 56(4):1665 1401 Vaca Muerta, igneous clasts, 56(2):827 olivine, Antarctica, 56(7):2923 4370 Mississippi Valley—Type Pb-Zn alkyl phosphonic acid, 56(11):4109 glass, MORB and OIJB, 56(3):1301 fluid inclusions, gases, 56(1):137 hydrocarbons, monocarboxylic acids, He, groundwater, Hungarian Plain, 56(5): Model 56(11):4045 2051 carbonate rocks, Phanerozoic, preserva- Q-gases, 56(7):2907 lunar anorthosites 60018 and 65315, tion, 56(8):3283 SiC grains, 56(4):1715 56(1):493 cation complexation, humic acid, 56(10): Muscovite natural gas, Alberta, Canada, 56(4):1569 3627 Ar retention, compositional control, solubility, minerals, silicate melts, 56(2): estimation, standard partial molal entro- 56(7):2851 709 pies, aqueous ions, 56(11):3895 “Ar/*’Ar dating, Dora-Maira nappe, Q gases, Murchison, 56(7):2907 Harrison-Watson model, apatite solubil- Italy, 56(7):2851 North Carolina, USA ity, peraluminous liquids, 56(10): geochemistry, pegmatite, Black Hills, Cape Lookout Bight, 56(3):1247 3855 South Dakota, USA, 56(5):1915 salt marsh, 56(10):3751 He, transport, groundwater, 56(5):2058 trace elements, 56(5):1925 North Sea isotope alteration, fluid flow metamor- Balder Formation, Ir, 56(7):2955 N phism, 56(9):3539 Norway isotope equilibration, N>, 56(4):1625 Caledonian thrust zones, brine, fluid in- Nakhlites (see SNC) leaching, adsorption/desorption, 56(7): clusions, 56(1):81 C and N, isotope composition, 56(2):817 2589 granulites, B, 56(2):775 Natural gas oscillatory zoning, trace elements, calcite, Nuclear Magnetic Resonance noble gases, 56(4):1569 56(2):587 F complexation, silicate glasses, 56(2): Neodymium refractive index, mixed crystal, glasses, 701 sedimentary rocks, 56(3):887 56(8):3001 humic substances, seawater, Amazon tektites, 56(1):483 scavenging, radionuclides, Lake Con- River, 56(4):1753 volcanic rocks, Egmont volcano, New stance, 56(6):2339 kerogen, molecular structure, 56(7):2725 Zealand, 56(3):941 seawater, historical review, 56(8):2985 Neon permeability, porosity, sandstone, 56(7): supergene enrichment, prophyry Cu ore, 2947 MORB, 56(3):1301 56(11):3987 Murchison, 56(7):2909 O surface roughness, effect on dissolution ki- natural gas, Alberta, Canada, 56(4):1574 netics, 56(4):1461 solubility, silicate minerals, melts, 56(2): Obsidian uniqueness, mathematical solution, 709 diffusion, water, 56(7):2931 56(12):4315 Nepheline Mossbauer spectroscopy F comlexation, glass, 56(2):701 Ocean Drilling Program (ODP) orthopyroxene, 56(6):2583 New Jersey, USA B, isotope geochemistry, ODP 504 B, Molybdenite Cohansey Sand, coastal plain, 56(4):1507 56(4):1633 fluid inclusions, volatiles, 56(1):261 New Mexico, USA chert, geochemistry, 56(5):1897 Montana, USA Rio Grande Rift, 56(11):4105 Octacalcium phosphate Yellowstone Park, rhyolite, thermal wa- Santa Rita porphyry Cu deposit, 56(9): kinetics, crystal growth, organic acids, ters, 56(10):3723 3451 56(5):1955 Stillwater Complex, anorthosite, 56(3): New Zealand Olivine 1187 crustal evolution, detrital zircon, 56(3): ALHA 77307, 56(1):467 Monterey Formation, California, USA 911 micrometeorites, Antarctica, 56(7):2923 ammonium, 56(5):1979 Egmont Volcano, 56(3):941 Ni, Co, partitioning, 56(10):3733 biomarkers, 56(3):1391; 56(4):1743 Hauraki volcanic region, 56(11):3951 REE fractionation, komatiites, 56(12): chert, REEs, trace elements, 56(7):2657 Taupo volcanic zone, 56(3):941, 955; 4191 hydrocarbons, 56(3):1223 56(7):2797, 2821 stability dependence, basic melts, 56(1): S, isotope composition, diagenesis, 56(2): Nicaragua 303 763 Momotombo, geothermal area, 56(1):261 Oman MORB Nickel Oman Margin, preservation, organic mat- noble gases, 56(3):1301 hydrothermal plumes, 56(10):3693 ter, 56(1):545 Moon olivine, partitioning, 56(10):3733 travertine, 56(5):2041 alkali metals, 56(3):1001 ore deposit, Sudbury, Ontario, Canada, Ore deposits anorthosite 56(9):3531 Ag-Pb-Zn vein deposits, Kokanee Range, Fe, partitioning, plagioclase-basalt, Nilpena (ureilite) British Columbia, Canada, 56(9): 56(5):1885 aqueous alteration, matrix clast, 56(3): 3513 noble gases, 56(1):493 1373 Cl, isotope composition, Mississippi Val- Apollo 15, green glass, petrogenesis, Nitrogen ley-type deposits, 56(12:4247 56(11):4075 ammonium, Monterey Formation, Cali- dating, U-Pb, columbite, 56(5):2137 basalt, petrogenesis, 56(6):2177 fornia, USA, 56(5):1979 Hg deposits, Almadén, Ciudad Real, breccia 67016, geochemistry, 56(3):1013 asphaltene, petroleum, 56(10):3745 Spain, 56(10):3765 chemical composition, 56(3):1013 Chassigny, 56(2):817 MVT, Tennesee, USA, fluid inclusions, geochronology, volcanism, 56(6):2213 cosmogenic, isotope composition, 56(4): 56(1):137 magma ocean, crystallization, 56(10):3809 1625 porphyry Cu, Santa Rita, New Mexico, magma transport, 56(6):2253 equation of state USA, 56(9):3451 mare basalts, petrogenesis, 56(6):2153- N2, 56(10):3611 processing, U ore, 56(3):1165 2265; 56(10):3809 NH;, 56(10):361 1 Sudbury, Os isotope composition, 56(9): Mg, isotope fractionation, 56(3):1025 isotope composition 3531 volcanism, mare, 56(6):2155 algae, Orinoco River, 56(12):4237 supergene enrichment Morristown (mesosiderite) Catalina Schist, California, USA, 56(7): Eh-pH diagrams, 56(8):3133 Sm-Nd dating, 56(2):797 2839 porphyry Cu protore, 56(11):3987 Muong Nong-type tektites SiC grains, Murchison, 56(4):1717 Zn-Pb deposit, Tin Creek, Alaska, USA, geochemistry, origin, 56(3):1033 Noble gases 56(1):109 Murchison (carbonaceous chondrite) fluid inclusions, 56(1):187 Organic acid 4371 complex ion formation, 56(2):565 Fe, plagioclase-basalt, 56(5):1885 Phosphorus Kinetics, crystal growth, octacalcium Ni, olivine-melt, olivine-metal, 56(10):377 alkyl phosphonic acid, Murchison, 56(1 1): phosphate, 56(4):1955 noble gases, silicate melt, 56(2):709 4109 Organic matter partition coefficients, lunar basalt, 56(6): solubility, (UO 2)3(PO,)2 4H,0, 56(12): adsorption, trace elements, lake sediment, 2242 4135 56(3):1175 partition coefficients, REEs, trace ele- Photosynthesis kinetics, decomposition, 56(3):1387 ments, cpx-garnet, 56(6):2379 C isotope frctionation, 56(1):335 preservation, organic C, kinetics, 56(8): pressure effect, REEs, mineral/melt, clino- hydrothermal fluid, control by Fe, 56(10): 3323 pyroxene, 56(4):1523 3681 S content, 56(4):1545 Rn sediment, 56(11):3923 Phytadienes sulfurization, laboratory simulation, Sr, plagioclase/melt, 56(4):1735, 1739 polysulfides, isoprenoid, synthesis, 56(12): 56(12):4321 trace elements, garnet-rhyolite, 56(5):2133 4321 Orinoco River, Venezuela trace elements, partial melting, 56(10): Phytol Be, isotope geochemistry, 56(4):1607 3705 polysulfides, isoprenoid, synthesis, 56(12): Orthoclase trace elements, partition coefficients, com- 4321 etch pits, loess catena, 56(9):3423 pilation, 56(10):3814 Plagioclase Osmium Pb-Pb dating Fe, partitioning, basalt, 56(5):1885 isotope composition, Ni ore, Sudbury On- angrite meteorites, 56(4):1677 labradorite, leaching, Ca and Al, 56(11): tario, Canada, 56(9):3531 Dharwar Craton, India, 56(6):2455 3979 Osmometry eclogite, 56(1):347 REEs, 56(6):2364 diffusion, Li isotopes, 56(10):3781 Pegmatite Sr, partitioning, melt, 56(4):1735, 1739 Oxalic acid Black Hills, South Dakota, petrogenesis, Planet thermal dissociation, 56(1):281 56(5):1915 evolution, planetary crusts, 56(3):871- Oxygen Rb concentration, 56(5):1923 1064 carbonate rocks, Proterozoic, 56(3):875 Tanco, Manitoba, Canada, fluid inclu- Mars, environmental condition, 56(2):827 equation of state, 56(10):3611, 3839 sions, 56(1):49 Plants global budget, Precambrian, 56(8):3217 Peptides algae, Orinoco River, C, N, isotope com- isotope alteration, fluid flow, 56(9):3539 fossil bones, human, 56(2):739 position, 56(12):4237 isotope composition Permeability C cycle, 56(8):3225 carbonate rocks, Precambrian, 56(3): NMR relaxation, 56(7):2947 grass, salt marsh, Spartina alterniflora, 1317 Permian/Triassic boundary 56(10):3751 granulites, 56(3):972 isotope composition, C, O, carbonate lignin dimers, plant tissues, 56(11):4025 Harney Peak granite, 56(1):406 rocks, 56(8):3301 origin, oligoterpenoids, resin, 56(3):1231 hydrothermal deposits, Guaymas basin, Petrogenesis Platinum Gulf of California, 56(5):2025 green glass, Apollo 15, 56(11):4075 Solubility, sulfide, hydrothermal brine, pyroxene phenocrysts, rhyolite, South Harney Peak leucogranite, 56(1):403 56(11):3881 Africa, 56(9):3561 magma, Mariana Arc, 56(4):1641 Platinum Group Elements seawater, Paleoproterozoic, 56(6):2487 mare basalt, 56(6):2153-2265, 2177, origin, Ni ore, Sudbury, Ontario, Canada, shale, 56(9):3503 2235; 56(10):3809 56(9):3531 weathering, Haiti, 56(7):2831 nakhlite meteorites, 56(4):1655 Pt, Pd, solubility, sulfides, 56(11):3881 isotope disequilibrium, travertine-water, Ni ores, Sudbury, Ontario, Canada, 56(9): spherule bed, Fig Tree Group, South Af- Oman, 56(5):2041 3531 rica, 56(3):1365 isotope fractionation, hibonite inclusions, pegmatite, Black Hills, South Dakota, Point of Zero Net Proton Charge meteorites, 56(6):2503 56(5):1915 dissolution kinetics, termperature depen- isotope exchange, granite-water, 56(1):445 phonolite, Nt. Erebus, Antarctica, 56(3): dence, 56(10):3825 1401 P rhyolite Polynuclear complexes Al;3, 56(10):3831 Lebombo monocline, South Africa, Pacific Ocean (see also Hawaii) 56(9):3561 Porphyrins C, isotope composition, dissolved inor- Taupo volcanic zone, New Zealand, Messel oil shale, structure, 56(2):745 ganic C, 56(9):3589 56(3):955 Potassium Macdonald volcano, hydrothermal volcanic rocks brine, fluid inclusions, 56(1):203 plume, 56(10):3693 Egmont volcano, New Zealand, 56(3): bulk Earth, 56(3):1001 Mururoa, French Polynesia, 56(12):4169 941 solubility, sylvite, 56(6):2281 Re, depth profile, 56(11):4099 Taupo volcanic rocks, New Zealand, Precambrian Teahitia volcano, hydrothermal plume, 56(7):2797 anorthosite, Archean, 56(5):1885 56(10):3693 Zagami, SNC meteorite, 56(9):3571 B, granulites, 56(2):775 PACROFI III Petroleum carbonates, geochemistry, 56(6):2487 symposium papers, 56(1):3—302 C, isotope composition, biomarkers, Dharwar Craton, India, 56(6):2455 Palagonite Monterey Formation, California, early history, Earth, 56(3):1301 microbial activity, 56(2):845 USA, 56(3):1391 geochemistry, carbonate rocks, 56(3):875 Palladium N, functionalities, asphaltene, 56(10): iron formations solubility, sulfides, hydrothermal brine, 3745 global O, budget, 56(8):3217 56(11):3881 oligoterpenoids, Asia, 56(3):1231 origin, 56(7):2595 Parent Body (aubrite meteorites) origin Kiglapait Intrusion, Labrador, 56(6):2471 pyroclastic volcanism, 56(12):4267 catalysis, transition metals, 56(10):3851 komatiites, Kambalda, Western Australia, Parisite northern Gulf of Mexico, 56(3):1259 56(12):4191 REE geochemistry, 56(2):725 transition-metal catalysis, 56(1):553 marine carbonates, isotope composition, Partitioning pyrolysis, 56(4):1545 56(3):1317 Cl, water-silicate melt, 56(2):659, 679 source rock identification, 56(3):1213 mudstones, geochemistry, 56(3):899 Co, olivine-melt, olivine-metal, 56(10): Zagami, SNC chondrite, 56(11):4059 oldest crust, Mt. Narryer, Western Aus- 3733 pH tralia, 56(3):1281 F-Cl-OH, biotite-apatite, 56(9):3435 kinetics, biotite dissolution, 56(8):3073 pelites, Almadén, Spain, 56(2):789 4372 provenance, sedimentary rocks, Amadeus clinopyroxene, 56(6):2374 Rivers Basin, Australia, 56(3):921 complex ions, stability constants, 56(8): acidification, 56(6):231 1 S, isotope composition, sedimentary 3123 Charles River, Massachusetts, USA, Rn, rocks, 56(8):3311 complexation, organic ligands, 56(3):1127 56(11):3923 S102, cycle, 56(8):3265 fluorite, 56(7):2713 Orinoco River, Venezuela, 56(4):1607; spherule bed, Fig Tree Group, South Af- fluorocarbonate minerals, 56(2):725 56(12):4237 rica, 56(3):1365 fractionation, olivine, komatiite, 56(12): Sr, isotope composition, 56(5):2099 Protein 4191 Yellow River, China, 56(10):3669 diagenesis, corals, 56(10):3847 fractionation, sedimentary rocks, Ama- Rodingite melanoidin formation, fossil shells, 56(4): deus Basin, 56(3):921 chemical composition, 56(1):101 1539 gabbro, 56(6):2372 fluid inclusions, Cassiar serpentinite, Sr, isotope composition, apatite, Aus- garnet, 56(6):2375 56(1):97 tralia, 56(7):2789 garnet-rhyolite, partitioning, 56(5):2133 Rubidium Provenance groundwater, Palo Duro Basin, Texas, bulk Earth, 56(3):1001 mudstones, geochemistry, 56(3):899 USA, 56(4):1495 Russia sediment, Amadeus Basin, Australia, impact glass, K/T boundary, Haiti, 56(5): Chernobyl, radionuclides, Lake Con- 56(3):921 2116 stance, 56(6):2339 Pyriboles mobility, volcanic rocks, New Zealand, Monche Pluton, Kola Peninsula, 56(3): etch pits, loess catena, 56(9):3423 56(11):3951 987 Pyrite mudstones, Precambrian, 56(3):902 adsorption, Au, 56(5):1801 Muong Nong-type tektites, 56(3):1041 s S, isotope composition, shale, 56(12):4257 partition coefficients, Ca-pyroxene/mafic trace elements, anoxic marine sediment, rocks, 56(6):2387 Salton Sea, California, USA 56(7):268 1 partition coefficients, lunar basalt, 56(6): pyrite saturation, brines, 56(5):2131 Pyrolysis 2242 Samarium asphaltene, 56(4):1545 partitioning, clinopyroxene-melt, pressure rhyolite, Yellowstone Park, Montana, bitumen, 56(4):1545 effect, 56(4):1523 USA, 56(10):3724 coal, 56(4):1545 plagioclase, 56(6):2364 sedimentary rocks, 56(3):887 humic coal, 56(7):2761 porewater, Chesapeake Bay, 56(9):3391 Sardinia, Italy kerogen, 56(4):1545 redox cycling, Black Sea, 56(12):4309 Mount Genis granite, fluid inclusions, kerogen, alkylpyrroles, 56(4):1743 refractory inclusions, meteorites, 56(3): 56(1):21 Monterey Formation, California, USA, 1349 Scandium 56(5):1981 seawater, 56(5):1851 partition coefficient, Ca-pyroxene/mafic petroleum, 56(4):1545 sediment, pelagic, Mariana Arc, 56(4): rock, 56(6):2387 Pyrope (garnet) 1644 Scanning proton microprobe enthalpy of formation, 56(11):3971 sedimentary rocks, 56(2):887 trace elements, dolomite, 56(1):319 Pyroxene spherule bed, Fig Tree Group, South Af- Scheelite O, isotope composition, rhyolite, South rica, 56(3):1367 solubility, 56(5):1827 Africa, 56(9):3561 volcanic rocks, New Zealand, 56(3):944 Scotland Zagami, SNC meteorite, 56(11):4059 zircon, Mt. Narryer, Australia, 56(3):1289 granulites, B, 56(2):775 Pyrrhotite Rb-Sr dating Seawater S, isotope composition, shale, 56(12):4257 angrite meteorites, 56(4):1686 acantharia, effect on geochemistry, Sr, Ba, Dharwar Craton, India, 56(6):2460 56(8):3273 Q eclogite, Austria, 56(1):347 alteration, basalt, 56(12):4169 Monche Pluton, Kola Peninsula, Russia, B, concentration, isotope composition, Quartz 56(3):987 56(1):540 dissolution kinetics, 56(11):4091, 4093 pelites, Almadén, Spain, 56(2):789 C, isotope composition dissolution kinetics, brine, 56(12):4147 Redox reactions discrepancies, 56(8):3259 fluid inclusions, 56(1):81, 175, 187, 245, Eh-pH diagrams, 56(8):3133 dissolved inorganic, Pacific Ocean, 249 Fe, natural environment, 56(8):3233 56(9):3589 separation technique, cosmogenic radio- nuclide analysis, 56(9):3583 kinetics, V, 56(4):1481 humic acid, 56(4):1753 methane formation, by CO), reduction, isotope composition, lower Paleozoic, Quebec, Canada temperate bog, 56(9):3493 56(1):431 Saguenay fjord, 56(1 1):3909 O, fugacity, partitioning, Ni and Co, oliv- model, historical review, 56(7):2985 R ine-melt, olivine-metal, 56(10):3733 preservation, organic matter, 56(1):545 REEs, Black Sea, 56(12):4305, 4309 Proterozoic, isotope composition, C, O, Racemization upper mantle, 56(6):2405 and Sr, 56(3):875 aspartic acid, 56(10):3847 V, geochemistry, 56(4):1471 Paleoproterozoic, isotope composition, O, human fossil bone, 56(2):739 Renazzo (chondrite) C, and Sr, 56(6):2487 Radon Fe-Ni grains, origin, 56(6):2521 Re, conservative, 56(11):4099 sorption, sediment, 56(11):3923 Restite REE geochemistry, 56(5):1851 Raman spectroscopy crustal evolution, 56(3):963 REEs, redox cycling, Black Sea, 56(12): fluid inclusions, 56(1):41 Rhenium 4309 fluorescence, REEs, fluorite, 56(7):2713 seawater, 56(11):4099 Sr/Mg ratio, marine calcite, 56(5):1837 hydroxy complexes, 56(6):2573 Rhyolite Secondary ion mass spectrometry Rare Earth Elements B-Li relationship, 56(10):3723 labradorite, surface, 56(11):3979 Black Sea, redox cycling, 56(12):4305 cummingtonite-bearing, Taupo, New Zea- Sediment chert land, 56(3):955 Baffin Bay, Canada, biomarkers, 56(5): marine, 56(5):1987 Mt. Katmai, Alaska, USA, 56(4):1429 2001 Monterey Formation, California, USA, Taupo volcanic zone, New Zealand, biomarkers, 56(4):1743; 56(5):1993, 2001; 56(7):2657 56(7):2821 56(6):2437; 56(9):3469, 3595 Chesapeake Bay, seasonally anoxic water trace elements, partitioning, garnet, 56(5): diagenesis, Fe, Mn, 56(11):3909 column, 56(9):3389 2133 kerogen, maturation, 56(7):2725 4373 mangrove, Florida, USA, biomarkers, WO,(s), 56(5):1827 carbonate rocks, Precambrian, 56(8): 56(5):1993 water, basalt glass, 56(5):1875 3311 mineral composition, marine, 56(4):1759 Source rocks hydrothermal deposits, Guaymas basin, pyrite, trace elements, 56(7):2681 method of analysis, 56(3):1213 Gulf of California, Mexico, 56(5): Rn, sorption, 56(11):3923 South Africa 2025 removal, Al and Th, diatoms, 56(9):3365 Fig Tree Group, spherule bed, 56(3):1365 Monterey Formation, California, USA, Semarkona (chondrite) Lebombo moncline, rhyolite, 56(9):3561 56(2):763 metamorphism, 56(10):3791 South Dakota, USA deposit, Hg, Almadén, Spain, 56(10): Serpentinite Black Hills, 56(5):1915 3765 fluid inclusions, rodingite, 56(1):97 Harney Peak granite, Black Hills, 56(1): shale disequilibrium, 56(12):4257 Shale 403 organic matter, 56(4):1545 H, O, isotope composition, Kinki district, Spain species, aqueous solution, 56(11):3867 Japan, 56(9):3505 Almadén syncline, Sm-Nd dating, 56(2): sulfonic acid, Murchison, 56(11):4109 Ir, 56(7):2955 789 sulfurization, organic matter, 56(12):4321 S, isotope composition, 56(12):4257 Cindad Real, Hg deposits, Almadén, Surface chemistry Siberia 56(10):3765 albite, early weathering, 56(8):3113 diamonds, Udachnaya, 56(1):389 Spinel etch pits, orthoclase and pyriboles, 56(9): Siderite noble gases, solubility, 56(2):709 3423 solubility, carbonate ions, 56(3):1149 kaolinite, dissolution, 56(9):3357 Silica self diffusion, Mg, 56(6):2535 labradorite, 56(11):3979 geochemical cycle, Precambrian, 56(8): Springs weathering, basalt flow, 56(10):3711 3265 cosmogenic I and C, California, 56(5): Sweden surface chemistry, high 7, 56(7):2941 2073 Kalix River, 56(4):1485 Silicon Stillwater Complex, Montana, USA Switzerland 29Si, SiC grains, Murchison, 56(4):1717 anorthosite, origin, 56(3):1187 Canton of Ticino, 56(8):3209 vapor pressure, Si(OH),4, 56(1):511 Lake Constance, radionuclides, Cherno- Strontianite Skarn byl, 56(6):2339 solubility, aragonite-strontianite solid so- fluid inclusions, Zn-Pb deposit, Tin Sylvite lution, 56(8):3045 Creek, Alaska, USA, 56(1):109 solubility, 56(6):2281 Strontium Sm-Nd dating solubility, Br content, 56(6):2555 calcite, incorporation, 56(4):1531 angrite meteorites, 56(4):1687 stability, 56(6):2295 carbonate rocks, Proterozoic, 56(3):875 eclogite, 56(1):347 Synchesite celestite, acantharians, oceans, 56(8):3273 meteorites, 56(2):797 REE geochemistry, 56(2):725 partitioning, plagioclase/melt, 56(4):1735, Monche Pluton, Kola Peninsula, Russia, 1739 56(3):987 T Sr/Mg ratio, marine, calcite, 56(5):1837 pelites, Almadén, Spain, 56(2):789 isotope composition sedimentary rocks, 56(3):887 Tectonics apatite, Precambrian, Australia, 56(7): sedimentary rocks, Amadeus Basin, Aus- accreted sedimentary complexes, Japan, 2789 tralia, 56(3):921 56(9):3505 calcite, fracture, Precambrian, 56(1): SNC meteorites (see nakhlites) extension, Eocene, British Columbia, 373 C and N, isotope composition, 56(2):817 Canada, 56(9):3513 carbonate rocks, Precambrian, 56(3): nakhlites, petrogenesis, 56(4):1655 thrust zones, Caledonian, Norway, 56(1): 1317 Zagami, petrogenesis, 56(9):3571; 56(1 1): 81 granulites, 56(3):972 4059 Tektites rhyolite, Lebombo, South Africa, 56(9): Soil Muong Nong, geochemistry, origin, 56(3): 3565 dissolution, orthoclase, pyriboles, loess ca- 1033 river water, world-wide, 56(5):2099 tena, 56(9):3423 Nd, Sr, isotope composition, 56(1):483 seawater, Paleoproterozoic, 56(6):2487 lunar, Mg isotope fractionation, 56(3): occurrence, Dresden, Germany, 56(7): tektites, 56(1):483 1025 2937 volcanic rocks, Egmont volcano, New Solar Nebula Tennessee, USA Zealand, 56(3):941 dust mantles, CM chondrites, 56(7):2873 MVT deposits, fluid inclusions, 56(1):137 Sudbury, Ontario, Canada volatility, major elements, 56(1):511 Thermobarometers Os, isotope composition, Ni ores, 56(9): Solubility equilibrium model, 56(5):1793 3531 apatite, carbonate-rich liquids, 56(9):3409 garnet peridotites, 56(2):841, 843 Sugar apatite, peraluminous liquids, 56(1 1): Texas, USA melanoidin formation, fossil shells, 56(4): 3855 Palo Duro Basin, 56(4):1495 1539 aragonite-strontianite, 56(8):3045 petroleum, origin, 56(3):1259 AsS3, 56(6):2267 sources, Marine environment, 56(5):1963 Thermodynamics calcite, 56(3):1113 Sulfides brines, Na and K chloride, 56(6):228 1 gibbsite, 56(3):1065, 1093 Eh-pH diagrams, 56(8):3133 complex ions, organic acids, 56(2):565 halite, Br content, 56(6):2555, 2559 S, isotope composition, Proterozoic, complexation, REEs, organic ligands, hematite, 56(3):1139 56(8):3317 56(3):1127 hematite/magnetite, 56(10):3683 Sulfur Eh-pH diagrams, sulfides, 56(8):3133 kaolinite, 56(9):3339, 3357 basaltic magma, 56(5):1863 enthalpy, *He content, geothermal water, methane, in brine, high T and P, 56(4): diagenesis, HS, anoxic sediment, 56(6): Iceland, 56(12):4229 1451; 56(12):4301, 4303 2425 enthalpies, CaO-SiO,-Al,O; system, 56(7): Mg-calcite, 56(11):4095 Eh-pH diagram, S-H,O system, 56(8): 2643 PbSO,, 56(3):1165 3157 enthalpy of formation, pyrope from ensta- scheelite, 56(5):1827 equation of state, HO, SO», COS, S, tite + corundum, 56(11):3971 siderite, 56(3):1149 56(10):3611 equation of state solid solutions, CaO-MgO-FeO-CO,-H,0. isotope composition CHy4-CO,-H,0, 56(7):2605, 2619 56(8):3031 Ag-Pb-Zn veins, British Columbia, C-H-O-N-S-Ar fluids, high T and P, sylvite, Br content, 56(6):2555 Canada, 56(9):3513 56(10):3611 4374
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