Chapter
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