Handbook of strata-bound and stratiform ore deposits: 2. Regional studies and specific deposits. 6 Cu, Zn, Pb, and Ag deposits
Gespeichert in:
| Format: | Buch |
|---|---|
| Sprache: | English |
| Veröffentlicht: |
Amsterdam [u.a.]
Elsevier
1976
|
| Online-Zugang: | Inhaltsverzeichnis |
| Beschreibung: | XVI, 385 S. graph. Darst., zahlr. Kt. |
| ISBN: | 0444414061 |
Internformat
MARC
| LEADER | 00000nam a2200000 cc4500 | ||
|---|---|---|---|
| 001 | BV027193685 | ||
| 003 | DE-604 | ||
| 005 | 20110228 | ||
| 007 | t | ||
| 008 | 110326s1976 bd|| |||| 00||| eng d | ||
| 020 | |a 0444414061 |9 0-444-41406-1 | ||
| 035 | |a (OCoLC)917857592 | ||
| 035 | |a (DE-599)BVBBV027193685 | ||
| 040 | |a DE-604 |b ger |e rakwb | ||
| 041 | 0 | |a eng | |
| 049 | |a DE-188 |a DE-83 | ||
| 245 | 1 | 0 | |a Handbook of strata-bound and stratiform ore deposits |n 2. Regional studies and specific deposits. 6 |p Cu, Zn, Pb, and Ag deposits |c ed. by K. H. Wolf |
| 264 | 1 | |a Amsterdam [u.a.] |b Elsevier |c 1976 | |
| 300 | |a XVI, 385 S. |b graph. Darst., zahlr. Kt. | ||
| 336 | |b txt |2 rdacontent | ||
| 337 | |b n |2 rdamedia | ||
| 338 | |b nc |2 rdacarrier | ||
| 700 | 1 | |a Wolf, Karl H. |e Sonstige |4 oth | |
| 773 | 0 | 8 | |w (DE-604)BV007982287 |g 2,6 |
| 856 | 4 | 2 | |m HBZ Datenaustausch |q application/pdf |u http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=021533561&sequence=000002&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA |3 Inhaltsverzeichnis |
| 999 | |a oai:aleph.bib-bvb.de:BVB01-021533561 | ||
Datensatz im Suchindex
| _version_ | 1804144314324877312 |
|---|---|
| adam_text | CONTENTS
Chapter 1. COMPARATIVE REVIEW OF THE GENESIS OF THE COPPER-LEAD
SANDSTONE-TYPE DEPOSITS
by J.C. Samama
Introduction ................................................ 1
Description of the Pb-Zn sandstone-type deposit of Largentière (France)............. 2
The Hercynian basement....................................... 4
The pediment area and the evaporitic basin............................. 6
Outline of the genetic model..................................... 9
Relations between Largentière and other sandstone-type deposits................ 12
Other trends of genetic models of sandstone types........................... 13
Genetic models and epochs of concentration............................ 13
Syngenetic and associated models, 13 - Diagenetic models and early fluid migration, 14
- Epigenetic models, 15 - Chronology of ore concentration, 16
Genetic models and the origin of metals............................... 16
Origin of metals in syngenetic models, 16 — Origin of metals in dia- and epigenetic
models, 17
General contusions............................................. 18
References................................................. 18
Chapter 2. VOLCANIC MASSIVE SULPHIDE DEPOSITS AND THEIR HOST ROCKS -
A REVIEW AND AN EXPLANATION
by M. Solomon
Introduction................................................ 21
Volcanic host rocks............................................ 22
Felsic vs. mafic............................................. 22
Magma-type and ore occurrence................................... 25
Calc-alkaline association, 25 - Other associations, 26
Local host-rock-ore relationships.................................. 29
Related plutonic rocks........................................... 30
Tectonics.................................................. 31
Interim summary of field and laboratory data............................. 32
Problems of genesis............................................ 35
The geothermal model........................................... 36
Conditions for convection....................................... 36
Size of the convection cell ...................................... 41
Life of the convection cell ...................................... 42
Heat supply............................................... 43
Metal and sulphur supply....................................... 44
Discussion.................................................. 46
General ................................................. 46
Sulphur and lead isotopes....................................... 47
Evolutionary trends.......................................... 48
Summary and conclusions......................................... 49
Note added in proof............................................ 49
Vm CONTENTS
Acknowledgements ............................................
References .................................................
Chapter 3. TECTONIC SETTING OF SOME STRATA-BOUND MASSIVE SULPHIDE DE-
POSITS IN NEW SOUTH WALES, AUSTRALIA
by E. Scheibner and N.L. Markham
Introduction................................................
Tectonic setting of Cypnis-type and Kuioko-type strata-bound massive sulphide deposits .... 55
Oceanic metallogenic unit....................................... 55
Volcanic-rift metallogenic unit.................................... 57
Development of some tectonic units in which stiata-bound massive sulphide deposits occur in
the Palaeozoic sequences of New South Wales............................. 59
Kanmantoo pte-cratonic metallogenic province .......................... 59
Lachlan pre-cratonic metallogenic province............................. 61
Description of some examples of strata-bound sulphide deposits in New South Wales....... 66
Cyprus-type deposits.......................................... 66
Kuroko-type deposits......................................... 71
Conclusions................................................. 75
References................................................. 75
Chapter 4. CALEDONIAN MASSIVE SULPHIDE DEPOSITS IN SCANDINAVIA.
A COMPARATIVE REVIEW
by F.M. Vokes
Introduction ................................................ 79
Scandinavian volcanogenic deposits................................ 82
Economic importance........................................... 84
Mineralogy................................................. 86
Major minerals............................................. 87
Iron sulphides, 87 - Chalcopyrite, 88 - Sphalerite, 89 - Galena, 91 - Magnetite, 91
Minor minerals............................................. 92
Silver minerals, 92 - Undesirable minerals, 94
Size and grade of ore bodies....................................... 94
Elemental composition ........................................ 94
Comparisons with other ores..................................... 98
Survey of history of genetical concepts................................. 100
Metamorphism of the ores ........................................ 112
Lithostratigraphical relations of the ores................................ 116
The Lower Palaeozoic sequence................................... 116
Nature of the volcanic activity.................................. 117
Relation to a plate tectonic model.................................. 119
Acknowledgments........................... 122
References .................................... 123
Chapter 5. PRECAMBRUN, STRATA-BOUND, MASSIVE Cu-Zn-Pb SULFIDE ORES OF
NORTH AMERICA
by D.F. Sangster and S.D. Scott
Introduction...................... 129
Definition of the ore type................... 130
Location of deposits in North America.............................. 130
Geology of representative deposits.......................... 132
Ores in predominantly volcanic rocks................ 142
Abitibi orogenic belt, 142 - The Noranda district, 146 - Flin Flon and Snow Lake,
CONTENTS IX
Manitoba, 152 - Jerome, Arizona, 158
Ores in volcano-sedimentary ( mixed ) rocks........................... 159
Manitouwadge, Ontario, 159 - Geco orebody, 162
Ores in predominantly sedimentary rocks.............................. 164
Sherridon and Bob Lake mines, Manitoba, 164 - Sullivan mine, British Columbia, 166
General geological features........................................ 168
Nature and deposition^ environment of host rocks........................ 168
Sulfide deposits............................................. 173
Distribution, 173 -Ore types, 175 - Massive ore, 175 - Stringer ore, 176 -Mineralogy
and composition of ore, 177 - Zoning, 179 - Morphology, 179 - Mineralogy, 182 -
Texture, 182 - Composition, 182 - Ore textures and structures, 184 — Alteration, 186
Metamorphic effects............................................ 187
Effects on host rocks ......................................... 187
Effect on sulfide deposits....................................... 189
Form, 189 - Mineralogy, 191 - Texture, 192 - Composition of ore, 196
Effects on the footwall alteration zone............................... 197
Genesis ................................................... 199
Comparison with the Japanese Kuroko deposits............................ 208
Acknowledgements............................................ 214
References ................................................. 214
Chapter 6. GEOLOGY OF THE ZAMBIAN COPPERBELT
by V.D. Fleischer, W.G. Garlick and R. Haldane
INTRODUCTION............................................. 223
Regional setting .............................................. 225
Sedimentary basins............................................. 225
Basement complex............................................. 227
Katanga Supergroup............................................ 227
Nomenclature................................................ 228
Acknowledgements ............................................ 233
STRUCTURES OF THE ZAMBIAN COPPERBELT.......................... 233
The Lufilian arc .............................................. 233
The Kafue anticline............................................ 233
Early recumbent folds........................................... 234
En-echelon synclines............................................ 234
Cross-folding................................................. 235
Domes.................................................... 235
Dragfolds.................................................. 235
Faults.................................................... 236
METAMORPHISM............................................. 236
Basement complex............................................. 236
Katanga system............................................... 237
Basic intrusives............................................... 237
Metamorphic veins............................................. 238
TYPES OF OREBODIES......................................... 239
Mineralization ............................................... 241
Distribution of ore............................................. 242
Orebody descriptions ........................................... 243
KONKOLA AND MUSOSHI....................................... 244
Basement complex............................................. 244
Katanga System or Supergroup...................................... 244
CONTENTS
244
Basal Conglomerate..........................................
Footwall quaitzite formation..................................... 244
Porous Conglomerate-sandstone formation ............................ 245
Footwall Conglomerate........................................
Banded Shale and Sandstone formation............................... 245
Barren gap .............................................. 246
Eastern margin.............................................
Konkola orebody............................................ 247
Mineral zoning.............................................
Footwall mineralization........................................ 247
Hanging-wall formations........................................ 247
Arkose, 247 - Feldspathic sandstone, grits, and shales, 247 - Shale with grit, 248
Upper Roan............................................... 248
Mwashia................................................. 248
Lower Kundelungu........................................... 248
Folding, faulting, and metamorphism.................................. 248
CHAMBISHI................................................ 249
Basement complex............................................. 250
Katanga System or Supergroup...................................... 250
Lower Roan Group .......................................... 250
Basal Conglomerate, 250 - Aeolian Quartzite, 250 - Footwall Transition Arenites, 250
- Cobble Conglomerate, 250 - Arkose and argillite, 250 - Footwall Conglomerate, 250
-Ore shale, 251 - Stromatolites, 252 - Hanging-wall Quartzite, 253 - Interbedded
quartzite and argillite, 253 - Upper Quartzite, 253
Upper Roan Group........................................... 253
Interbedded schist and quartzite, 253 - Cherty dolomite, 253 - Sandy talc schist, 253
- Dolomite gabbro sills, 253
Mwashia Group............................................. 255
Lower Kundelungu Group ...................................... 255
Tillite, 255 - Kakontwe Formation, 255 - Kundelungu Shales, 255
Folding and metamorphism........................................ 255
NCHANGA................................................. 256
Luano deposit............................................... 256
Location................................................. 256
Stratigraphy............................................... 256
Basement granite gneiss, 261 - Arkose, 261 - Lower Banded Shales, 261 - Banded
Sandstones, 261 -The Feldspathic Quartzite (T.F.Q.), 261 - Upper Banded Shales, 261
Structure ................................................ 261
Ore distribution ............................................ 262
Basement complex............................................. 262
Katanga System or Supergroup...................................... 262
Lower Roan Group .......................................... 262
Basal Boulder Conglomerate, 262 - Arkose, 263 - Transition Sandstone, 263 - Transi-
tion Quartzite, 263 - Lower Banded Shales, 263 - Brown Chert, 263 - Lower Banded
Sandstone, 264 - Shale Marker, 264 - Pink Quartzite, 264 - Upper Banded Sandstone,
264 - The Feldspathic Quartzite, 264 - Upper Banded Shale, 264
Upper Roan Group..................................... 264
Mwashia Group.................................... 265
Lower Kundelungu Group ...................... 265
Kakontwe Limestone, 265
Post-Katanga intrusives............................... 265
Structures.............................. 265
Kabuche-Kinsenda Culmination......................... 265
CONTENTS XI
Metamorphism............................................... 266
Retrogade metamorphism of Basement............................... 267
Migration of soda............................................ 267
Supergene processes............................................ 267
Paleotopography.............................................. 268
NKANA................................................... 275
Basement Complex............................................. 275
Katanga System or Supergroup...................................... 275
Lower Roan Group .......................................... 275
Basal Conglomerate, 275 - Footwall Quartzite, 275 — Footwall Transition Formation,
276 - Footwall Sandstone Formation, 276 - Ore Formation, 276 - Footwall Conglom-
erate, 276 - Ore shale, 277 - Hanging-wall sandstone formation, 279
Upper Roan Group........................................... 279
Mwashia and Lower Kundelungu Groups.............................. 279
Post-Katanga intrusives.......................................... 280
Folding and Metamorphism........................................ 280
Metamorphism............................................... 283
Footwall Orebody........................................... 283
Mindola uranium............................................ 285
ROAN ANTELOPE AND BALUBA................................... 285
Basement Complex............................................. 286
Lufubu System............................................. 286
Granite and gneiss........................................... 286
Muva System.............................................. 286
Katanga System .............................................. 286
Lower Roan Group .......................................... 286
RL7 Footwall Formation, 286 - Footwall Conglomerate, 287 - RL6 ore-shale, 287 -
RL5 Hanging-wall quartzite, 288 - RL4 dolomite and green shale, 288 - RL3 Arkose
formation, 293
Upper Roan Group........................................... 293
RU2 Shale formation, 293 - RU1 Dolomites, 293
Mwashia Group............................................. 293
Lower Kundelungu Group ...................................... 293
Tillite, 293
Baluba.................................................... 293
RL7 Footwall Formation....................................... 293
Footwall Conglomerate........................................ 293
RL6 Ore-shale ............................................. 294
Basement mineralization ....................................... 294
Folding and metamorphism........................................ 294
CHIBULUMA AND CHIBULUMA WEST................................ 298
Basement Complex............................................. 298
Katanga System or Supergroup...................................... 298
Lower Roan............................................... 298
Basal Conglomerate, 298 - Aeolian Quartzite , 298 - Aqueous arkose, 298 - Ore For-
mation, 299 - Chibuluma West Orebody, 300 - Hanging-wall Quartzite , 301 -
Hanging-wall Conglomerate, 301
Upper Roan............................................... 301
Chlorite and talc schists, 301 - Carbonaceous Pyritic Shale, 302 - Dolomite anddolomitic
silstones, 302
Post-Katanga intrusives .......................................... 302
Folding and metamorphism..........................;............. 302
Folding................................................. 302
xn CONTENTS
Veins................................................... 3UJ
Metamorphism............................................. 303
Supetgene processes............................................
MUFULIRA MINE, ZAMBIA ...................................... 304
Basement Complex............................................. 305
Katanga Supergroup............................................ 307
Lower Roan Group; Footwall Formation; Basal Conglomerate/Bieccia............. 307
Ore formation ............................................. 308
General comments, 308
Orebodies................................................ 313
C orebody, 313
Sulfide-mineral zoning......................................... 315
Inter B/C, 317 - B orebody, 317 - Inter A/B, 317 - A orebody, 318
Hanging-wall formation........................................ 318
Paleogeography and depositional environment............................. 319
Mineralization ............................................. 319
New zone of mineralization atMufulira............................... 321
Summary.................................................. 323
GENESIS OF THE ORE SHALE DEPOSITS.............................. 323
Grain of the basement........................................... 323
Footwall terrestrial beds.......................................... 324
Marine transgression............................................ 324
Footwall Conglomerate.......................................... 325
Bioherms, plankton, and sulfides..................................... 325
Transgression and regression ....................................... 325
Carbonaceous muds............................................ 327
Ore in basement.............................................. 327
Karila Bomwe-Musoshi area....................................... 327
Hanging-wall sediments.......................................... 328
Continuity of the ore shale........................................ 328
GENESIS OF THE ARENACEOUS ORE DEPOSITS......................... 329
Time and space relations to ore-shale deposits............................. 329
Mimbula................................................. 329
Chibuluma West............................................ 329
Chibuluma ............................................... 330
Footwall Orebody, Nkana South................................... 331
Chambishi footwall mineralization.................................. 332
Muliashi footwall mineralization................................... 332
Nchanga area.............................................. 333
Mufulira................................................. 333
THE SYNGENETIC EXPLANATION.................................. 336
Evidence of smaller sedimentary features................................ 336
Folding ................................................... 338
Mineral zones................................................ 339
Transgression and regression ....................................... 341
Detrital reworking........................................... 342
Source of the metals................................ 342
SYNGENESIS VERSUS EP1CENESIS................................. 342
Homogeneity of the mineralization ................................... 343
Metal zoning..................................... 344
Barren bioherms............................... 344
Cross-bedding............................ 345
CONTENTS XIII
Sharp assay cut-offs............................................ 345
Diffuse contacts.............................................. 347
Mineralized and barren clasts....................................... 347
Sulfidite layers............................................... 348
Washouts .................................................. 349
Concretions................................................. 350
Ripple marks................................................ 350
References ................................................. 350
Chapter 7. KUPFERSCHIEFER IN THE GERMAN DEMOCRATIC REPUBLIC (GDR) WITH
SPECIAL REFERENCE TO THE KUPFERSCHIEFER DEPOSIT IN THE
SOUTHEASTERN HARZ FORELAND
by W. Jung and G. Knitzschke
Introduction................................................ 353
Geological-tectonic survey of the Kupferschiefer deposits of the southeastern Harz foreland . . 355
Lithology and palaeogeography ..................................... 358
Base of the Kupferschiefer...................................... 358
Characteristics of the Kupferschiefer ................................ 361
The Upper Permian limestone (Zechsteinkalk)........................... 365
The Rote Fäule ........................................... 368
Metal types of the Kupferschiefer and their distribution in relation to the palaeogeographical
situation................................................... 368
Ore-mineral parageneses of the Kupferschiefer and their regional distribution........... 372
Hematite type (paragenesis 1) .................................... 372
Covellite-idaite type (paragenesis 2)................................. 373
Chalcosine type (paragenesis 3).................................... 373
Bornite-chalcosine type (paragenesis 4)............................... 373
Bomite type (paragenesis 5) ..................................... 373
Bornite-chalcopyrite type (paragenesis 6).............................. 373
Chalcopyrite-pyrite type (paragenesis 7) ............................. 374
Galena-sphalerite-chalcopyrite type (paragenesis 8)........................ 374
Galena-sphalerite type (paragenesis 9)................................ 374
Pyrite type (paragenesis 10)...................................... 374
Regularities in the occurrence of non-ferrous metals, trace metals, and ore minerals ....... 379
Investigation of major and trace metals............................... 379
Physicochemical regularities ................... .................. 381
Metal concentrations as possible indicators of Eh, 381 - Effectiveness of some adsorbents
in the metal concentration in the case of slightly negative £7(-potentials, 384 - Organic
substances as adsorbents, 386 — Clayey substances as adsorbents, 387
Effectiveness of some adsorbents in the metal concentration at stronger £Vi-potentials .... 387
Sulphide minerals as adsorbents, 387 - Organic substances as adsorbents, 388 -Clayey
substances as adsorbents, 388
Effectiveness of some adsorbents in the metal concentration independent of £72-potentials 388
History and present position concerning the genesis of the Kupferschiefer............. 389
Conclusions................................................. 401
References ................................................. 402
Chapter 8. SABKHA AND TIDAL-FLAT FACIES CONTROL OF STRATIFORM COPPER
DEPOSITS IN NORTH TEXAS
by G.E. Smith
Introduction ................................................ 407
XIV CONTENTS
410
Regional setting ............................................
Stratigraphy................................................. 412
Depositional systems............................................
Copper Breaks and Old Glory fluvial-deltaic systems....................... 416
Copper Breaks deltaic system..................................... 416
Prodelta faciès, 416 - Delta front and distributary mouth bar faciès, 416 - Distributary
channel and associated delta plain faciès, 417
Old Glory fluvial-deltaic system................................... 417
Buzzard Peak and Cedar Mountain tidal-flat systems ....................... 417
Buzzard Peak sand-rich tidal-flat system............................... 418
Tidal sand-flat faciès, 418 - Tidal channel faciès, 418
Cedar Mountain mud-rich tidal-flat system............................. 419
Tidal mud-flat faciès, 419 - Tidal channel faciès, 419 - Swash-zone faciès, 421 - Algal
mat faciès, 421
Blaine sabkha and tidal-flat system.................................. 421
Sabkha faciès, 422 - Tidal-flat faciès, 422
Depositional history............................................ 423
Copper mineralization........................................... 425
Mineral assemblage........................................... 425
Distribution of copper mineralization................................ 425
Paragenesis............................................... 427
Origin of copper mineralization ................................... 432
Sabkha-diagenetic model....................................... 432
Epigenetic models........................................... 437
Evaluation of mineralization models................................. 438
Summary and conclusions......................................... 440
Acknowledgements ............................................ 441
Appendix.................................................. 442
Methods................................................. 442
References ................................................. 443
Chapter 9. CARBONATE-HOSTED LEAD-ZINC DEPOSITS
by D.F. Sangster
Introduction ................................................ 447
Mississippi Valley type........................................... 449
Alpine type................................................. 452
Discussion........................................ 453
References ....................................... 454
Chapter 10. TRI-STATE ORE DEPOSITS: THE CHARACTER OF THEIR HOST ROCKS
AND THEIR GENESIS
by R.D. Hagni
Introduction ....................... 457
Stratigraphy..................... 457
Structure ........................ 459
General features of the ore deposits................... 461
Runs........................... . . . . . . . . . . . . . ........... 461
Clrcles.................................................. 462
Blankets or sheets...................... 463
Mineralogy and paragenesis....................... ......... 463
Host rock character............... .......... 464
CONTENTS XV
Limestones............................................... 465
Bioherms ................................................ 465
Chert................................................... 467
Karst features................................................ 468
Dolomite .................................................. 469
Jasperoid .................................................. 472
Genesis ................................................... 483
References ................................................. 491
Chapter 11. APPALACHIAN ZINC-LEAD DEPOSITS
by A.D. Hoagland
Introduction ................................................ 495
Shallow-water marine carbonate host rocks............................. 498
Paleokarst and paleoaquifer environments ............................. 500
Mineralization ............................................. 501
Austinville (Virginia)............................................ 503
Friedensville (Pennsylvania)........................................ 505
Stratigraphy............................................... 506
East Tennessee............................................... 511
Embreeville............................................... 511
Powell River district.......................................... 513
Evanston district............................................ 513
Mascot-Jefferson City and Copper Ridge districts......................... 514
The ore environment.......................................... 517
Coarse rock matrix breccias...................................... 517
Fine rock matrix breccias....................................... 521
Inflation breccias............................................ 524
Ore breccias............................................... 524
Central Tennessee ............................................. 525
Genesis ................................................... 527
References ................................................. 531
Chapter 12. THE McARTHUR ZINC-LEAD-SILVER DEPOSIT: FEATURES, METALLO-
GENESIS AND COMPARISONS WITH SOME OTHER STRATIFORM ORES
by I.B. Lambert
Introduction ................................................ 535
Scope .................................................... 536
Regional geology, northern Australia.................................. 536
Stratigraphy and depositional environments, Me Arthur area..................... 537
Myrtle Shale .............................................. 539
Mara Dolomite............................................. 540
Mitchell Yard Dolomite........................................ 540
Teena Dolomite ............................................ 541
W-Fold Shale.............................................. 541
H.Y.C. Pyritic Shale.......................................... 541
Cooley Dolomite............................................ 544
Reward Dolomite ........................................... 544
Structure .................................................. 545
General features of the McArthur deposit................................ 545
Size................................................... 545
Orebodies and inter-ore beds..................................... 547
XVI CONTENTS
Orebodies, 547 - Inter-ore beds, 549
Mineral relationships in the orebodies..................................
..................................................
Sphalerite................................................ OJi
Galena..................................................
Minor sulphide minerals........................................
Geochemistry of the orebodies...................................... 553
Zinc and lead.............................................. 553
Iron................................................... 554
Silver................................................... 554
Copper.................................................. 554
Arsenic .................................................
Cadmium................................................
Mercury................................................. 554
Antimony................................................ 554
Thallium................................................. 554
Other elements............................................. 555
Minor mineralization in the McArthur area............................... 556
H.Y.C. Pyritic Shale.......................................... 556
Cooley Dolomite............................................ 556
Other dolomite units, Batten Trough................................ 557
Shelf sequences to east and west of Batten Trough ........................ 557
Mineral dispersions around McArthur deposit ............................. 557
Sulphides................................................ 557
Pyrite, 557 - Other sulphides, 558
Non-sulphides.............................................. 559
Geochemical dispersion haloes around McArthur deposit....................... 559
Elements with dispersion haloes................................... 559
Zinc and lead, 559 - Acid soluble iron, 560 - Pyritic iron, 560 - Manganese, 560 —
Arsenic, 561 - Mercury, 561 - Thallium, 561
Other elements............................................. 561
Isotope data................................................. 562
Sulphur isotopes............................................ 562
McArthur deposit, 562 - Country rocks, 564
Lead isotopes.............................................. 564
Carbon and oxygen isotope data................................... 565
Genesis of McArthur deposit....................................... 565
Arguments against a replacement origin............................... 565
Consideration of volcano-exhalative metal sources......................... 567
Iron, 568 - Zinc-lead-silver, 568
Consideration of metal sources unrelated to volcanism...................... 569
Sources of non-biogenic sulphur................................... 570
Significance of structures and organic matter in transport and entrapment of metals..... 570
Temperature limits........................................... 571
Consideration of low-copper content................................ 571
Genesis of minor deposits......................................... 571
Comparisons with other stratiform ores of volcano-sedimentary associations............ 572
McArthur-type Pb-Zn-Ag deposits of Australia........................ 572
Mount Isa and Hilton, 572 - Broken Hill, 576
Possible McArthur-type deposits of other countries....................... 578
Sullivan, 578 - Rammelsberg, 578 - Certain Alpine- or Mississippi Valley-type
ores, 579
Other ore types............................................ 579
Conclusions................................................. 582
Acknowledgements ............................................ 582
References ................................................. 583
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| ctrlnum | (OCoLC)917857592 (DE-599)BVBBV027193685 |
| format | Book |
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| id | DE-604.BV027193685 |
| illustrated | Illustrated |
| indexdate | 2024-07-09T23:01:35Z |
| institution | BVB |
| isbn | 0444414061 |
| language | English |
| oai_aleph_id | oai:aleph.bib-bvb.de:BVB01-021533561 |
| oclc_num | 917857592 |
| open_access_boolean | |
| owner | DE-188 DE-83 |
| owner_facet | DE-188 DE-83 |
| physical | XVI, 385 S. graph. Darst., zahlr. Kt. |
| publishDate | 1976 |
| publishDateSearch | 1976 |
| publishDateSort | 1976 |
| publisher | Elsevier |
| record_format | marc |
| spelling | Handbook of strata-bound and stratiform ore deposits 2. Regional studies and specific deposits. 6 Cu, Zn, Pb, and Ag deposits ed. by K. H. Wolf Amsterdam [u.a.] Elsevier 1976 XVI, 385 S. graph. Darst., zahlr. Kt. txt rdacontent n rdamedia nc rdacarrier Wolf, Karl H. Sonstige oth (DE-604)BV007982287 2,6 HBZ Datenaustausch application/pdf http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=021533561&sequence=000002&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA Inhaltsverzeichnis |
| spellingShingle | Handbook of strata-bound and stratiform ore deposits |
| title | Handbook of strata-bound and stratiform ore deposits |
| title_auth | Handbook of strata-bound and stratiform ore deposits |
| title_exact_search | Handbook of strata-bound and stratiform ore deposits |
| title_full | Handbook of strata-bound and stratiform ore deposits 2. Regional studies and specific deposits. 6 Cu, Zn, Pb, and Ag deposits ed. by K. H. Wolf |
| title_fullStr | Handbook of strata-bound and stratiform ore deposits 2. Regional studies and specific deposits. 6 Cu, Zn, Pb, and Ag deposits ed. by K. H. Wolf |
| title_full_unstemmed | Handbook of strata-bound and stratiform ore deposits 2. Regional studies and specific deposits. 6 Cu, Zn, Pb, and Ag deposits ed. by K. H. Wolf |
| title_short | Handbook of strata-bound and stratiform ore deposits |
| title_sort | handbook of strata bound and stratiform ore deposits cu zn pb and ag deposits |
| url | http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=021533561&sequence=000002&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA |
| volume_link | (DE-604)BV007982287 |
| work_keys_str_mv | AT wolfkarlh handbookofstrataboundandstratiformoredeposits2regionalstudiesandspecificdeposits6 |