Geochemical Exploration 1982 ( Volume 17 )

Publication series :Volume 17

Author: Parslow   G. R.  

Publisher: Elsevier Science‎

Publication year: 2013

E-ISBN: 9780444597106

P-ISBN(Paperback): 9780444422682

P-ISBN(Hardback):  9780444422682

Subject: P632 geochemical exploration

Language: ENG

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Description

Developments in Economic Geology, Volume 17: Geochemical Exploration 1982 provides an outline of several significant areas of technical communications in relation to the mining industry. This book discusses the role of governments, universities, and industries in the search for and development of the natural resources.

Organized into 56 chapters, this volume begins with an overview of the significant role that technical communications play in everyday activities. This text then examines the geochemical case histories for soil and lake-sediment surveys. Other chapters consider the chemistry of deep ground waters from throughout the Athabasca Basin. This book discusses as well the uranium mineralization of the McClean Lake Area deposits, which can be described as belonging to two different facies. The final chapter deals with the application of factor analysis for the purpose of identifying areas potentially favorable for uranium deposits.

This book is a valuable resource for scientists and mineral engineers.

Chapter

Front Cover

pp.:  1 – 6

Geochemical Exploration 1982

pp.:  6 – 7

Copyright Page

pp.:  7 – 8

Table of Contents

pp.:  8 – 12

Introduction

pp.:  12 – 14

Presidential Address

pp.:  14 – 14

Chapter 1. The role of communication in Exploration Geochemistry

pp.:  14 – 20

Chapter 2. Number Three Orebody, Ranger One, Australia — a case history

pp.:  20 – 24

Chapter 3. Geochemical exploration for unconformity-type uranium deposits in permafrost terrain, Hornby Bay Basin, Northwest Territories, Canada

pp.:  24 – 46

Chapter 4. Application of hydrogeochemistry to uranium exploration in the Pine Creek Geosyncline, Northern Territory, Australia

pp.:  46 – 70

Chapter 5. Hydrogeochemical exploration for uranium within the Athabasca Basin, northern Saskatchewan

pp.:  70 – 88

Chapter 6. Orientative lithogeochemistry of the Archean and Aphebian basement in the Key Lake uranium deposit region (Saskatchewan, Canada)

pp.:  88 – 90

Chapter 7. The application of lithogeochemistry in the search for uncorformity-type uranium deposits, Northern Saskatchewan, Canada

pp.:  90 – 114

Chapter 8. Geochemical zoning around the McClean uranium deposits, (Saskatchewan, Canada)

pp.:  114 – 116

Chapter 9. Geochemical exploration for uranium and other metals in tropical and subtropical environments using heavy mineral concentrates

pp.:  116 – 138

Chapter 10. Stream-sediment geochemical prospecting for uranium in the Paleozoic of the Belgian Ardennes

pp.:  138 – 140

Chapter 11. Uranium districts defined by reconnaissance geochemistry in South Greenland

pp.:  140 – 160

Chapter 12. Uranium in Pacific deep-sea sediments and manganese nodules

pp.:  160 – 176

Chapter 13. Ground-water geochemistry of uranium and other elements, Monticello area, New York

pp.:  176 – 200

Chapter 14. The measurements of 226Ra/223Ra activity ratios in ground water as a uranium exploration technique

pp.:  200 – 208

Chapter 15. Evaluation of radioactive anomalies using radium isotopes in ground waters

pp.:  208 – 220

Chapter 16. Ground-water geochemistry in the Abitibi volcanic belt of Quebec

pp.:  220 – 238

Chapter 17. Regional hydrogeochemical patterns in ground water of northwestern Ohio and their relation to Mississippi Valley–type mineral occurrences

pp.:  238 – 256

Chapter 18. Hydrogeochemical exploration for barite, Ouachita Mountains, U.S.A.

pp.:  256 – 268

Chapter 19. Geochemical multi-element prospecting for carbonatites by energy-dispersive X-ray fluorescence

pp.:  268 – 290

Chapter 20. Laboratory and field evidence in support of the electrogeochemically enhanced migrations of ions through glaciolacustrine sediment

pp.:  290 – 318

Chapter 21. Soil air carbon dioxide and oxygen measurements as a guide to concealed mineralizations in semi-arid and arid regions

pp.:  318 – 332

Chapter 22. The use of fluid decrepitometry to distinguish mineralized and barren quartz veins in the Aberfoyle tin-tungsten mine area, Tasmania

pp.:  332 – 348

Chapter 23. Geochemical hydrocarbon exploration — a new/old exploration tool

pp.:  348 – 350

Chapter 24. The role of mercury, arsenic and boron as pathfinder elements in geochemical exploration for geothermal energy

pp.:  350 – 352

Chapter 25. Hg and As soil geochemistry of the Meager Creek geothermal area

pp.:  352 – 358

Chapter 26. Surface geochemistry at Roosevelt Springs KGRA, Utah

pp.:  358 – 360

Chapter 27. Geochemical indicators of high-temperature geothermal system

pp.:  360 – 362

Chapter 28. Effects of exponentially decaying spatial patterns on the probability distribution of anomalous values

pp.:  362 – 374

Chapter 29. SCORESUM — a technique for displaying and evaluating multi-element geochemical information, with examples of its use in regional mineral assessment programs

pp.:  374 – 396

Chapter 30. Statistical evaluation of the significance of categorical field parameters in the interpretation of regional geochemical sediment data

pp.:  396 – 416

Chapter 31. Heavy metals in stream sediments: error versus concentration

pp.:  416 – 418

Chapter 32. Computer analysis of mineralization within evolving subvolcanic and caldera systems, Breckenridge and Bonanza regions, Colorado mineral belt, U.S.A.

pp.:  418 – 436

Chapter 33. Recent advances in geochemical exploration in China

pp.:  436 – 458

Chapter 34. Geochemistry of tin, tungsten and molybdenum in Swedish Proterozoic granitoids: their potential use in regional mineral exploration

pp.:  458 – 460

Chapter 35. Distribution of mercury compounds in ore and host rocks at Sigma gold mine Val d'Or, Quebec, Canada

pp.:  460 – 478

Chapter 36. Thallium: a potential guide to mineral deposits

pp.:  478 – 504

Chapter 37. Chemistry of the 350° C hot springs on the crest of the East Pacific Rise at 21° C

pp.:  504 – 506

Chapter 38. Hydrothermal deposition on the East Pacific Rise at 21° N

pp.:  506 – 509

Chapter 39. Sulphide mineralization and wall-rock alteration in ophiolites and modern oceanic spreading centres

pp.:  509 – 512

Chapter 40. Archean sea-floor hydrothermal systems: the third dimension

pp.:  512 – 513

Chapter 41. Tuffaceous exhalites as exploration guides for volcanogenic massive sulphide deposits

pp.:  513 – 516

Chapter 42. Zonation of chalcophile elements about the Howard's Pass (XY) Zn-Pb deposit, Selwyn Basin, Yukon

pp.:  516 – 554

Chapter 43. Identification of diagnostic geochemical alteration in the wallrocks of Archean volcanic-exhalative massive sulfide deposits

pp.:  554 – 574

Chapter 44. Lithogeochemistry of Wainaleka Cu-Zn volcanogenic deposit, Viti Levu, Fiji, and possible applications for exploration in tropical terrains

pp.:  574 – 598

Chapter 45. Rock geochemical exploration at Mount Morgan, Queensland, Australia

pp.:  598 – 600

Chapter 46. Lithogeochemistry as an indicator of uranium and tin mineralization, South Mountain Batholith, Nova Scotia, Canada

pp.:  600 – 606

Chapter 47. Lithogeochemistry of hypogene, supergene and leached cap samples, Berg porphyry copper deposit, British Columbia

pp.:  606 – 622

Chapter 48. Cobalt as an exploration tool in the Outokumpu zone, Finland

pp.:  622 – 626

Chapter 49. The use of the "immobile" elements Zr and Ti in lithogeochemical exploration for massive sulphide deposits in the Precambrian Pecos greenstone belt of northern New Mexico

pp.:  626 – 630

Chapter 50. Factor and discriminant analysis to lithogeochemical prospecting in an area of central Sweden

pp.:  630 – 645

Chapter 51. Lithogeochemical dispersion associated with Ririwai zinc-tin lode, northern Nigeria

pp.:  645 – 665

Chapter 52. Geochemical dispersion patterns of As, Sb, Bi and Se associated with sulfide mineralization at Avoca, Eire

pp.:  665 – 681

Chapter 53. Autoradiography and scanning electron microscopy combined with energydispersive spectrometry (SEM-EDS) in the service of geochemical exploration

pp.:  681 – 691

Chapter 54. Practical field-portable atomic absorption analyser

pp.:  691 – 707

Chapter 55. Petrographic and geochemical characteristics of iron-rich rocks and their significance in exploration for massive sulfide deposits, Bat hurst, New Brunswick, Canada)

pp.:  707 – 725

Chapter 56. R-mode factor analysis applied to uranium exploration in the Montrose quadrangle, Colorado

pp.:  725 – 749

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