CONTENTS - The Economic Aspect of Geology - 5

CHAPTER			PAGE
[I.]	INTRODUCTION		1
	Survey of Field		[1]
	Economic applications of the several branches of geology and of other sciences		[3]
		Stratigraphy and paleontology	[4]
		Structural geology	[5]
		Physiography	[6]
		Rock alterations or metamorphism	[10]
		Application of other sciences	[10]
	Treatment of the subject in this volume		[11]
[II.]	THE COMMON ELEMENTS, MINERALS, AND ROCKS OF THE EARTH AND THEIR ORIGINS		13
	Relative abundance of the principal elements of the lithosphere		[13]
	Relative abundance of the principal minerals of the lithosphere		[14]
	Relative abundance of the principal rocks of the lithosphere		[16]
	Water (hydrosphere)		[18]
	Soils and clays		[18]
	Comparison of lists of most abundant rocks and minerals with commercial rocks and minerals		[18]
	The origin of common rocks and minerals		[19]
		Igneous processes	[19]
		Igneous after-effects	[19]
		Weathering of igneous rocks and veins	[20]
		Sedimentary processes	[22]
		Weathering of sedimentary rocks	[23]
		Consolidation, cementation, and other sub-surface alterations of rocks	[24]
		Cementation	[24]
		Dynamic and contact metamorphism	[25]

	The metamorphic cycle as an aid in studying mineral deposits		[27]
[III.]	SOME SALIENT FEATURES OF THE GEOLOGY AND CLASSIFICATION OF MINERAL DEPOSITS		29
	Various methods of classification		[29]
	Names		[31]
	Mineral deposits as magmatic segregations in igneous rocks		[34]
	Mineral deposits within and adjacent to igneous rocks, which were formed immediately after the cooling and crystallization of the magmas through the agency of hot magmatic solutions		[36]
		Evidence of igneous source	[37]
		Possible influence of meteoric waters in deposition of ores of this class	[41]
		Zonal arrangement of minerals related to igneous rocks	[42]
		The relation of contact metamorphism to ore bodies of the foregoing class	[45]
	Secondary concentration in place of the foregoing classes of mineral deposits through the agency of surface solutions		[46]
	Residual mineral deposits formed by the weathering of igneous rocks in place		[50]
	Mineral deposits formed directly as placers and sediments		[51]
		Mechanically deposited minerals	[51]
		Chemically and organically deposited minerals	[52]
	Sedimentary mineral deposits which have required further concentration to make them commercially available		[54]
	Anamorphism of mineral deposits		[57]
	Conclusion		[58]
[IV.]	MINERAL RESOURCES—SOME GENERAL QUANTITATIVE CONSIDERATIONS		60
	World annual production of minerals in short tons		[60]
	World annual production of minerals in terms of value		[62]
	Significance of geographic distribution of mineral production		[63]
	The increasing rate of production		[63]
	Capital value of world mineral reserves		[64]
	Political and commercial control of mineral resources		[65]
	Reserves of mineral resources		[65]
[V.]	WATER AS A MINERAL RESOURCE		67
	General geologic relations		[67]
	Distribution of underground water		[68]
	Movement of underground water		[71]
	Wells and springs		[72]
	Composition of underground waters		[73]
	Relation of geology to underground water supply		[75]
	Surface water supplies		[76]
	Underground and surface waters in relation to excavation and construction		[78]
[VI.]	THE COMMON ROCKS AND SOILS AS MINERAL RESOURCES		80
	Economic features of the common rocks		[80]
		Granite	[82]
		Basalt and related types	[82]
		Limestone, marl, chalk	[82]
		Marble	[83]
		Sand, sandstone, quartzite (and quartz)	[84]
		"Sand and gravel"	[84]
		Clay, shale, slate	[85]
		The feldspars	[86]
		Hydraulic cement (including Portland, natural, and Puzzolan cements)	[86]
	Geologic features of the common rocks		[88]
		Building stone	[88]
		Crushed stone	[90]
		Stone for metallurgical purpposes	[91]
		Clay	[91]
		Limitations of geologic field in commercial investigation of common rocks	[92]
	Soils as a mineral resource		[94]
		Origin of soils	[94]
		Composition of soils and plant growth	[96]
		Use of geology in soil study	[97]
[VII.]	THE FERTILIZER GROUP OF MINERALS		99
	General comments		[99]
	Nitrates		[101]
		Economic features	[101]
		Geologic features	[102]
	Phosphates		[104]
		Economic features	[104]
		Geologic features	[105]
	Pyrite		[107]
		Economic features	[107]
		Geologic features	[108]
	Sulphur		[109]
		Economic features	[109]
		Geologic features	[110]
	Potash		[111]
		Economic features	[111]
		Geologic features	[112]
[VIII.]	THE ENERGY RESOURCES—COAL, OIL, GAS (AND ASPHALT)		115
	Coal		[115]
	Economic features		[115]
		World production and trade	[115]
		Production in the United States	[117]
		Coke	[118]
		Classification of coals	[119]
	Geologic features		[123]
	Petroleum		[127]
	Economic ffeatures		[127]
		Production and reserves	[128]
		Methods of estimating reserves	[134]
		Classes of oils	[136]
		Conservation of oil	[137]
	Geologic features		[140]
		Organic theory of origin	[140]
		Effect of differential pressures and folding on oil genesis and migration	[142]
		Inorganic theory of origin	[143]
		Oil exploration	[144]
	Oil shales		[150]
	Natural gas		[151]
		Economic features	[151]
		Geologic features	[151]
	Asphalt and bitumen		[151]
		Economic features	[151]
		Geologic features	[153]
[IX.]	MINERALS USED IN THE PRODUCTION OF IRON AND STEEL (THE FERRO-ALLOY GROUP)		154
	General features		[154]
	Iron ores		[158]
	Economic features		[158]
		Technical and commercial factors determining use of iron ore materials	[158]
		Geographic distribution of iron ore production	[160]
		World reserves and future production of iron ore	[162]
	Geologic features		[166]
		Sedimentary iron ores	[166]
		Iron ores associated with igneous rocks	[171]
		Iron ores due to weathering of igneous rocks	[171]
		Iron ores due to weathering of sulphide ores	[173]
	Manganese ores		[173]
		Economic features	[173]
		Geologic features	[176]
	Chrome (or chromite) ores		[178]
		Economic features	[178]
		Geologic features	[179]
	Nickel ores		[180]
		Economic features	[180]
		Geologic features	[180]
	Tungsten (wolfram) ores		[182]
		Economic features	[182]
		Geologic features	[184]
	Molybdenum ores		[185]
		Economic features	[185]
		Geologic features	[186]
	Vanadium ores		[187]
		Economic features	[187]
		Geologic features	[188]
	Zirconium ores		[189]
		Economic features	[189]
		Geologic features	[189]
	Titanium ores		[190]
		Economic features	[190]
		Geologic features	[190]
	Magnesite		[191]
		Economic features	[191]
		Geologic features	[192]
	Fluorspar		[193]
		Economic features	[193]
		Geologic features	[194]
	Silica		[195]
		Economic features	[195]
		Geologic features	[196]
[X.]	COPPER, LEAD AND ZINC MINERALS		197
	Copper ores		[197]
		Economic features	[197]
		Geologic features	[199]
		Copper deposits associated with igneous flows	[200]
		Copper veins in igneous rocks	[201]
		"Porphyry coppers"	[203]
		Copper in limestone near igneous contacts	[204]
		Copper deposits in schists	[204]
		Sedimentary copper deposits	[205]
		General comments	[206]
	Lead ores		[209]
		Economic features	[209]
		Geologic features	[211]
	Zinc ores		[213]
		Economic features	[213]
		Geologic features	[216]
[XI.]	GOLD, SILVER, AND PLATINUM MINERALS		221
	Gold ores		[221]
		Economic features	[221]
		Geologic features	[226]
	Silver ores		[231]
		Economic features	[231]
		Geologic features	[234]
	Platinum ores		[237]
		Economic features	[237]
		Geologic features	[239]
[XII.]	MISCELLANEOUS METALLIC MINERALS		[241]
	Aluminum ores		[241]
		Economic features	[241]
		Geologic features	[243]
	Antimony ores		[246]
		Economic features	[246]
		Geologic features	[248]
	Arsenic ores		[249]
		Economic features	[249]
		Geologic features	[251]
	Bismuth ores		[252]
		Economic features	[252]
		Geologic features	[252]
	Cadmium ores		[253]
		Economic features	[253]
		Geologic features	[254]
	Cobalt ores		[254]
		Economic features	[254]
		Geologic features	[255]
	Mercury (quicksilver) ores		[255]
		Economic features	[255]
		Geologic features	[258]
	Tin ores		[260]
		Economic features	[260]
		Geologic features	[261]
	Uranium and radium ores		[263]
		Economic features	[263]
		Geologic features	[264]
[XIII.]	MISCELLANEOUS NON-METALLIC MINERALS		267
	Natural abrasives		[267]
		Economic features	[267]
		Geologic features	[269]
	Asbestos		[270]
		Economic features	[270]
		Geologic features	[271]
	Barite (barytes)		[272]
		Economic features	[272]
		Geologic features	[273]
	Borax		[274]
		Economic features	[274]
		Geologic features	[275]
	Bromine		[277]
		Economic features	[277]
		Geologic features	[278]
	Fuller's earth		[278]
		Economic features	[278]
		Geologic features	[279]
	Graphite (plumbago)		[279]
		Economic features	[279]
		Geologic features	[282]
	Gypsum		[283]
		Economic features	[283]
		Geologic features	[284]
	Mica		[285]
		Economic features	[285]
		Geologic features	[287]
	Monazite (thorium and cerium ores)		[288]
		Economic features	[288]
		Geologic features	[289]
	Precious stones		[289]
		Economic features	[289]
		Geologic features	[291]
	Salt		[294]
		Economic features	[294]
		Geologic features	[295]
	Talc and soapstone		[299]
		Economic features	[299]
		Geologic features	[299]
[XIV.]	EXPLORATION AND DEVELOPMENT		301
	The general relations of the geologist to exploration and development		[301]
	Partly explored versus virgin territories		[303]
	The use of all available information		[304]
	Coöperation in exploration		[305]
	Economic factors in exploration		[306]
	Geologic factors in exploration		[307]
	Mineral provinces and epochs		[308]
	Classification of mineral lands		[309]
	Outcrops of mineral deposits		[311]
		Some illustrative cases	[312]
		Topography and climate as aids in searching for mineral outcrops	[314]
		Size and depth of ore bodies as determined from outcrops	[315]
		The use of placers in tracing mineral outcrops	[316]
		The use of magneetic surveys in tracing mineral ledges	[317]
	The use of electrical conductivity and other qualities of rocks in exploration		[319]
	The use of structure and metamorphism in exploration		[310]
	Drilling in exploration		[320]
	Quantitative aspects of geologic exploration		[321]
	Origin of mineral deposits as a factor in exploration		[322]
	Lake superior iron ore exploration as an illustration		[323]
	Development and exploitation of mineral deposits		[326]
[XV.]	VALUATION AND TAXATION OF MINERAL RESOURCES		328
	Popular conception of mineral valuation		[328]
	Valuation and taxation of mines		[329]
		Intrinsic and extrinsic factors in valuation	[329]
		Values of mineral deposits not often established by market transfers	[331]
		The ad valorem method of valuation	[331]
		Other methods of mineral valuation and taxation	[335]
	General comments on taxation of mineral resources		[338]
[XVI.]	LAWS RELATING TO MINERAL RESOURCES		342
	I.	Laws relating to ownership and control of mineral resources	[342]
		On alienated lands	[343]
		On the public domain	[344]
		Nationalization of mineral resources	[345]
		Effect of ownership laws on exploration	[347]
		Use of geology in relation to ownership laws	[349]
	II.	Laws relating to extraction of mineral resources	[355]
	III.	Laws relating to distribution and transportation of mineral resources	[355]
	IV.	Other relations of geology to law	[356]
[XVII.]	CONSERVATION OF MINERAL RESOURCES		359
	The problem		[359]
	Differences between private and public efforts in conservation		[363]
	The interest rate as a guide in conservation		[364]
	Anti-conservational effects of war		[365]
	Conservation of coal		[366]
	Measures introduced or proposed to conserve coal		[367]
		(A) Mining and preparation of coal	[368]
		Progress in above methods	[370]
		(B) Improvement of labor and living conditions at the mines	[372]
		(C) Introduction or modification of laws to regulate or to remove certain restrictions on the coal industry	[373]
		(D) Distribution and transportation of coal	[376]
		(E) Utilization of coal	[377]
		(F) Substitutes for coal as a source of power	[378]
	Division of responsibility between government and private interests in the conservation of coal		[379]
	Conservation of minerals other than coal		[382]
[XVIII.]	INTERNATIONAL ASPECTS OF MINERAL RESOURCES		383
	World movement of minerals		[383]
		Movemenet of minerals under pre-war conditions of international trade	[385]
		Changes during the war	[385]
		Post-war condition of the mineral trade	[387]
	Tendencies toward international coöperation and possibility of international control of minerals		[389]
		Methods of international coöperation	[391]
	Conservation in its international relations		[393]
	Exploration in its international relations		[395]
	Valuation in its international relations		[396]
	Relative position of the united states in regard to supplies of minerals		[396]
	The coal and iron situation of western europe under the terms of the peace		[400]
	Conclusion		[403]
	Literature		[403]
[XIX.]	GEOLOGY AND WAR		405
	Geology behind the front		[405]
	Geology at the front		[408]
	Effect of the war on the science of economic geology		[412]
[XX.]	GEOLOGY AND ENGINEERING CONSTRUCTION		413
	Foundations		[413]
	Surface waters		[414]
	Tunnels		[414]
	Slides		[415]
	Subsidence		[417]
	Railway building		[417]
	Road building		[418]
	Geology in engineering courses		[419]
[XXI.]	THE TRAINING, OPPORTUNITIES AND ETHICS OF THE ECONOMIC GEOLOGIST		420
	Pure versus applied science		[420]
	Course of study suggested		[422]
		Field work	[425]
		Specialization in studies	[426]
		A degree of Economic Geology	[427]
	The opportunities of the economic geologist		[428]
	Ethics of the economic geologist		[430]