ebook img

Contributions to Mineralogy and Petrology 1991: Vol 108 Index PDF

5 Pages·1991·1 MB·English
by  
Save to my drive
Quick download
Download
Most books are stored in the elastic cloud where traffic is expensive. For this reason, we have a limit on daily download.

Preview Contributions to Mineralogy and Petrology 1991: Vol 108 Index

Subject index Acoustic velocity 83 dyke 4011 garnet, high grade terranes 236 activation energy of diffusion 1061, 2831 genesis at low pressure 129ff giaucophane, Dora Maira Massif 9 3561, 4631 mett 109, 175, 214, 3061, 4631 hornbiende, Grenville orogen 4741 activity oxidation state of melt 91, 4631 jadeite, Dora Maira Massif 3 in Fe~Mg olivine 146ff pantelierite suite, Ethiopian Rift 34ff microciine, Dora Maira Massif 13 modeis for mica 45 primitive high alumina 2531 muscovite, Dora Maira Massif 13 composition relationships basic igneous rocks 181f, 2121, 3851 olivine, Hawaii (xenoliths) 444, 449 in hornblende 4721 3961 orthopyroxene, mawaii (xenoliths) in iimenite-hematite solution 485! batch melting 308 444, 449 in magnesiowustite 1491 batholith 162, 284, 397 paragonite, Dora Maira Massif 3 in olivine 1461 benmoreite 331f -, phengite, Dora Maira Massif 3 in scapolite 221 Dikitaite 73! phiogopite, Dora Maira Massif 9 ulvéspinel-magnetite solution 4851 biotite, Dora Maira Massif 1f plagiociase, high grade terranes 235 AFC (assimilation, fractional crystalliza alteration, of 721, 268 pyrope, Dora Maira Massif 31 tion) 385 carbonate granofeis 164 scapolite, Dora Maira Massif 13 AFM diagram 4211 coordination of cations 43ff scapolite, high grade terranes 235 albite 1, 115, 189, 2061 K-~ Ar dating, Santa Rosa mylonite spinell, Hawaii (xenoliths) 444, 449 content in plagioclase 205 2831 vermiculite, Dora Maira Massif 4 alkali muscovite granofeis 164 ~, talc, Dora Maira Massif 3 basalts 132, 254, 305%, 3311, 3061 phengite gneiss, Dora Maira Massif -, tourmaline, Dora Maira Massif 6 4391 ff chiorite 1f, 119 fteidspars 2986! Rb-Sr dating, Dora Maira Massif 29 ~, +cookeite, stability of 7211 matic magmas 175ff -zone 4191 -,zone 4191 olivine basalts 3057 biocking temperature chioritoid 4191 to tholeiite transition 4391 biotite (K-Ar) 290 clinopyroxene 34ff, 1291, 1817, 196ff almandine 123 zircon (U-Pb) 31 closure temperature (K-Ar) 2831 Al,SiO,-polymorphs 431 Bowen mechanism 144 coesite if stability field 45, 52 breakdown of hornbiende 209 cogenetic hypothesis 213 ameboid partial melt 442 bridging/non bridging oxygens 90, 4631 compatibie elements 396! amphibole brucite 99 compressibility of silicate liquids 82ff bearing gabbro 385! bulk partition coefficients 3131 co, bearing pyroxenite 177 -, activity in high grade metamorphism plagioclase pairs 206 Ca 2191 amphibolite 196ff, 4721 amphiboles 196ff dominated fluid phase 60, 167, 2191, granulite transition 318f pxroxene minima 39 3181 analytical error 2121 pyroxene, low 161ff H,O fluid phase 2191, 2761, 3561, 453! anatectic melt 393 calc alkaline differentiation trend 267 homogenization temperature 2171, Andean voicanism 241 ff calc alkaline magmas 179, 411 3181, 4551 andesite 2531, 385 calcite 991, 1631, 3561, 3681 inclusions in xenoliths 4391 andesite meit 4631 calc-silicates 1621, 1961, 3561 infiltration 234, 2721 angie of subduction 242 carbonic inclusions 316f, 4531 influx 318f ankerite 4191 carbonic metamorphism 318ff, 4531 -, rich fluid inclusions 271ff, 316ff, 4531 anorthite 170 carbon isotopes 1621! C-O-H# system 58, 1581, 166, 2311, anorthociase 4411 cataciasis 286! 4531 anorthosite 223, 454 cation occupancy in hornbiende 477 C-O-H-S system 2291 annite 49 Cenozoic voicanism 3051 concordia diagram 221 antigorite 100! channelized fluid flow 1621 conductive heating 315 aqueous charnockite 318ff, 3651, 45311 connected network of fluid 3691 fluids 419077 charnockitic granite 4531 contact metamorphism 356! inclusions 322. 4531 chemical analysis continental basalt 3051, 3311, 385 Ar retention in biotite 2831 albite, Dora Maira Massif 9 conserved elements 213! arc amphiboles, Dora Maira Massif 5 cookeite 72ff basalts 264 amphibole, Hawaii (xenoliths) 449 - enthalpy 771 magmatism 2411 biotite, Dora Maira Massif 13 -, entropy 771 argillite Rt biotite, Hawaii (xenoliths) 449 ~, heat capacity 771 assimilation 2411, 253, 332, 398, 4631 biotite, Santa Rosa mylonite 2871 ~, +quartz 76! asthenospheric mantie 315! chiorites, Dora Maira Massif 4 +bikitaite 78! derived magmas 3311 clinopxroxene, Ethiopian Rift 35 cooling magma 1067, 2831 augite 2531 clinopyroxene, Hawaii (xenoliths) 444 cooling age 291 449 cooling history 3641 Back arc volcanism 2421 clinopyroxene, high grade terranes cooling rate 1131, 3641 Barrovian regional metamorphism 4191 237 cordierite stability 551 basalt dumortierite, Dora Maira Massif 6 with H,O- CO, fluid phase 61 alkali 132, 254, 305%, 3311, 3061 dravite, Dora Maira Massif 20 correlation trend of elements 2121 alkali-olivine 305ff ellenbergerite, Dora Maira Massif 5 critical crystallization process 129ff epidote, Dora Maira Massif 13 ~,radius 106f, 120! crystallization trend 132, 2531 garnet, Dora Maira Massif 3ff ~, undercooling 114 A wi? ett a hastingsitic hornbiende 4721 HFS element ratio 243, 249 miscibility gap 485! hawailite 331f, 439 luminescence of caicite 168 mizzonite 220 heat capacity of olivine 1461 modelling of fluid-rock interaction 171 hematite-iimenite solid solution 4861 Matic formation (ivrea Zone) 385! 4221 H,O activity in hornbiende 472ff mafic without fluid infiltration 4221 H,O saturation 56 complex 3851. 3991 with constant fluid composition 4231 H,O- CO, mixture 58, 61, 9317, 3501 granulites, india 229 with time integrated influx of fluid 39681. 4191 + silicic magma 3651, 3961 4231 hornbiende 472ff xenoliths 229 modelling metamorphism in metapelites K-Ar dating 2831 magma 4191 HFS elements 266, 309 mixing 3311, 3961, 463 monazite, Dora Maira Massif 22 HRE elements 249, 309, 3911 chamber 396ff U-Th-Pb dating 29 hybrid intrusion 393 magmatic underplating 251, 304 monzodiorite 396f hydrofracture 368! magnesiowustite 146ff MORB 2541, 336 hydrogen isotopes in hornbiende 4731 iron equilibrium 152 Mossbauer spectroscopy 202! hydrothermal alteration 2961, 338 magnesite 101 mugearite 331f hydrothermal veins 381 magnetite 183 multiple saturation 2621 hypersthene-si!limanite-quartz stability ulvéspine!l solid solution 486! muscovite, Dora Maira Massif 1f 551 mantie coordination of cations 43ff crust transition 241 mylonite 283ff ideal solution in hornblende 482 peridotite 264 menite 154 source region 305! Nabbarro-Herring creep 352 ncipient charnockite formation 318f contamination 241 NaCl-H,0-CO, fluids 3681 ncompatibie elements 331! wedge 241!, 253, 332 Na distribution between hbi-piag 2051 enrichment 305! xenoliths (iherzolite) 1751 N,-dearing fluid inclusions 4531 nfittration driven metamorphism 4191 xenoliths (pyroxenite) 175! Nd isotopes 331! insubric line 385 marble 356, 368! nephelinite 175! miertacial energy 119, 3691 cake structure 365! network modifying cations 4631 mertacial strain energy 1611, 346 marialite 220 NNO buffer 90 mtergranular medium (IGM) 119 MASH-model 241ff, 2501, 385 non-ideal solution 1461, 208, 494 nmtergranular melt 193 material transter processes 2121! norite 181ff, 3851 miergrowth texture 161! meionite 2191 normalization schemes for hornbiende nterstitial melt 176 meit/crystal interface 109 4761 nverse trace element modelling 306! melting experiments 2531 nucleation 108f, 1181, 346 siand arc basalts 265 meiting temperature (fluid inci.) 455f growth mode! 126 sobaric cooling 328, 459 metacarbonates 931, 16211, 3561 rate 106! sochores 459! metapelites 419f temperature 106! Dora Maira Massif 221 time 106! phase relationships 431, 561, 419ff Jadeite f high T-experiments 55! Ocean isiand basalts (O18) 3311 metamorphism oceanic lithosphere 2411 Ar dating 263%, 4391 Alpine 22 olivine 1291, 1467, 1541, 1611, 2531 feldspar tf, 170 amphibolite facies 163, 1961, 264 fractionation 144, 213, 305! mbertite, South African 154ff 3181, 3651 solid solution 14611, 485! netics, zerotivtirst order 3611 contact 3561, 360 spinel pairs 157f Kinzigite formation 3851 fluid absent 2191 replacement 1681 garnet in high P/T rocks 116ff zonation 403 granulite facies 196ff, 2191, 2711 open magmatic system 3971 Laccolth 212 318, 3851, 4531, 481 orthopyroxene 154f, 185, 2531 amproite 316 greenschist facies 163, 264, 360, 4191 solid solution 485! atitte 331 Hercynian 386 Ostwald ripening 1091, 118ff herzolite 2561, 1751, 439 high pressure glaucophane schist 380 oxidation state of mantie 1541, 364 LIL element Lepontine 381 oxygen barometry 485! enrichment 2531 low grade 721, 4191 oxygen fugacity (fO,) 341, 132, 1467 enriched fluids 314 metacarbonate rocks 93ff, 162ff, 3561 183, 4531, 4731, 4851 HFS element ratio 305! 337 368! kimberlite 154ff mestone 368! prograde regional 1621, 2711, 3791 mantie 147 4191 metapelites, experiments 56 mica 721 retrograde 2711, 3791 silicate liquids 62ff, 4631 aluminosilicates 772 ultra high-pressure iff oxygen isotopes 162ff, 2961, 3311, 385! mpid feldspar 296! metasediments 1621 thermometry 167 quid-gas interface 469 metasomatised mantie 175! tracer experiments 359 quidus phase 2531! meteoric fluid 2961, 461 oxygen thermobarometry (o! - opx ~ sp) Quidus temperature 129! Mg~ Al celadonite 43ff 1541, 384 thosphere, vertically zoned 160 Mo @ 1291, 3051, 4451 thospher microciine 299 Paragonite, Dora Maira Massif if mantie 305f microthermometry 2711, 3221, 4531 parental melt 336, 3061, 4471 thinning 3311 mineralization pargasite substitution 204 opolith 61f, 454 hydrothermal 721 pargasitic hornbiende 4721 LRE elements 331f, 3911 pegmatitic 721 partial molar volume 621 depletion 2531, 310 Miocene magmatism 398 partial melting 463 264 WAt Bit. 4901 Re 7 motooes surtace excess 3735 Dora Maira Massif 7 surface tension 114 Mt Juaternary v P tes 2431 symmetric solution 1461 mbonhedra ; ' ,~ Fe,O symplectite 81ff 4851 Tak tf, 9of tectonic erosion 2411, 247 Tertiary extension 332 textural equilibrium 3567, 368! experiments 356! texturally-primary fluid inclusions 272ff thermal divide 142 thermally driven metamorphism 419f thermobarometry with hornbiende 4821 thermochronology 2831 thermodynamic models for rhombohedral Fe- Ti oxides 4871 ubic phases (spinels) 4871 thoteiite 11291, 179, 254, 331f, 4301 topotactic relationship 191 emakers meu trace element stress/stra pattern 3311 ratio 249 tracer diffusion 4631! trachyte. 347. 4307 transposed brine inclusions 32 a9 tremotite 1001. 170, 2041 4631 activity in hornblende 4721 485! tschermakite substitution 1961 cas feldspar 296! n{t s metaGr4t two-phase fluids 374! 1d sotopes ra Maira Massif 7 Ultramafitite, lvrea Zone 388 ultramylonite 2831 saternary a sndercooling 106f Th - Pd isotopes. Dora Maira Massif S4¢ 1541 4R8t fotite 154 ‘3? Vermicuiite f terta ; volatile equilidria 2211 nterta 4 volume interdifflusion 346f, 361 repre Water pes activity in high grade metamorphism sotopes 2261 saturation 79 rock ratio 163 wedsterite 176 werritte 177, 439 wetting properties of fluids wollastonite 99 wustite-magnetite (WM) buffer 157 Xenoliths 4391 Junite 4391 glasses 17511, 446 processes syenite 448 reequ!|iDratx sulfate scapo two pyroxene gabbro 4391 $u ¢ ‘ sgacit J oling Zircon 22 Dora Maira Mas supersatur atior ’ U-Pb dating, Dora Maira Massif 29 surtace energy zoisite 170

See more

The list of books you might like

Most books are stored in the elastic cloud where traffic is expensive. For this reason, we have a limit on daily download.