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 UNIVERSITY OF NC AT CHAPEL HILL 
 
 00015555926 
 
 This BOOK may be kept out TWO WEEKS 
 ONLY, and is subject to a fine of FIVE 
 CENTS a day thereafter. It was taken out on 
 the day indicated below: 
 
North Carolina 
 Department of Conservation and Development 
 
 R. Bbui e Etheridge. Director 
 
 DIVISION OF MINERAL RESOURCES 
 Jasper L. Stuckey, state Geologist 
 
 BULLETIN NUMBER 41 
 
 FORSTERITE OLIVINE DEPOSITS 
 OF NORTH CAROLINA AND GEORGIA 
 
 By 
 
 Charles e. hunter 
 
 Under the Direction of 
 H. S. RANKIN 
 
 PUBLISHED IN COOPERATION WITH THE TENNESSEE VALLEY AUTHORITY 
 
 RALEIGH 
 
 urn 
 
MEMBERS OF THE BOARD OF CONSERVATION AND 
 
 DEVELOPMENT 
 
 Governor J. Melville Broughton, Chairman Raleigh 
 
 SANTFORD .Maim in. Vice-Chairman Winston-Salem 
 
 II \kky BAILED Spruce Pine 
 
 OSCAR Breece Fayetteville 
 
 J. Wilbur Bunn Raleigh 
 
 BRUCE Cameron Wilmington 
 
 K. Clyde Council Wananish 
 
 \\. J. DAMTOFT Asheville 
 
 J. HORTON Doughton Statesville 
 
 [RVING V. Hall Raleigh 
 
 K<iy Hampton Plymouth 
 
 J. L. HORNE, -Jr. Rocky Mount 
 
 William Carl Hudson Morganton 
 
 Charles II. Jenkins Aulander 
 
 Carroll P. Rogers Tryon 
 
 Richard Tufts Pinehurst 
 
 R. Bruce Etheridge, Director 
 
CONTENTS 
 
 Page 
 
 Letter of Transmittal 8 
 
 Preface 9 
 
 Summary 11 
 
 Introduction 14 
 
 History of Development ... 18 
 
 Review of Research ... 19 
 
 Research in Progress .. 19 
 
 Present Commercial Use .. 20 
 
 Future Use of Olivine 20 
 
 Acknowledgments and Field Work 21 
 
 Regional Geology 21 
 
 Geology of Peridotites 24 
 
 Dunites and Saxonites 24 
 
 Associated Minerals 28 
 
 Serpentinization 30 
 
 Steatitization 36 
 
 Contact Metamorphism 36 
 
 Weathering 38 
 
 Description of Areas and Deposits 38 
 
 Reserves of Olivine .. 38 
 
 Table of Tonnages . 42 
 
 Frank Area 43 
 
 Frank Deposit 43 
 
 Petrographic Analysis . 47 
 
 Senia Deposit 47 
 
 Other Deposits in Frank Area 47 
 
 Toecane Area 48 
 
 Day Book Deposit . 48 
 
 Chemical Analysis 52 
 
 Petrographic Analysis . 52 
 
 P. C. E. Value 53 
 
 Newdale Deposit 53 
 
 Chemical Analysis 57 
 
 P. C. E. Value 57 
 
 Rakersville Deposit 57 
 
 Other Deposits in Toecane Area 57 
 
 Canton-Democrat Area 58 
 
 Holcombe Branch Deposit : >s 
 
 Petrographic Analysis 60 
 
 P. C. E. Value 61 
 
I FORSTERITE I M.IVINK DEPOSITS 
 
 CONTENTS (CONTINUED) 
 
 Page 
 Description Of Areas and Deposits — Continued: 
 
 Democral Deposit 61 
 
 Chemical Analysis 63 
 
 Petrographic Analysis 60 
 
 Juno Deposit (Serpentine) 63 
 
 Petrographic Analysis 64 
 
 P. C. E. Value 64 
 
 Newfound Gap Deposit 65 
 
 P. C. E. Value 65 
 
 Hominy Grove Deposit 65 
 
 Webster-Balsam Area 67 
 
 I'.alsam Deposit 67 
 
 Chemical Analysis 71 
 
 P. C. E. Value 73 
 
 Petrographic Analysis . 73 
 
 Middleton Deposit 74 
 
 Dark Ridye Deposit 75 
 
 Chemical Analysis ... 78 
 
 P. C. E. Value 79 
 
 Petrographic Analysis . 79 
 
 Addie Deposit ... 80 
 
 Chemical Analysis 85 
 
 P. C. E. Value 85 
 
 Petrographic Analysis 86 
 
 Cane Creek Deposit 87 
 
 Chemical Analysis 89 
 
 P. C. E. Value 90 
 
 Petrographic Analysis 90 
 
 Webster Deposit 91 
 
 Chemical Analysis 94 
 
 P. C. E. Value 95 
 
 Petrographic Analysis 95 
 
 P. C. E. Value 97 
 
 Other Deposits in Webster-Balsam Area 97 
 
 Ellijay Area .... 98 
 
 Moons Knob Deposit 98 
 
 Chemical Analysis 99 
 
 P. C. E. Value- 99 
 
 Ellijay Creek 100 
 
of North Carolina and Georgia 5 
 
 CONTENTS (CONTINUED) 
 
 Page 
 
 Description of Areas and Deposits — Continued : 
 
 Deposit Number Nine . 100 
 
 Chemical Analysis 102 
 
 P. C. E. Value 102 
 
 Petrographic Analysis - 102 
 
 Corundum Hill Deposit 104 
 
 Chemical Analysis 105 
 
 P. C. E. Value 105 
 
 Petrographic Analysis . 105 
 
 Norton Deposit 106 
 
 Chemical Analysis 106 
 
 P. C. E. Value 106 
 
 Petrographic Analysis . 107 
 
 Other Deposits in Ellijay Area. 107 
 
 Buck Creek-Shooting Creek Area 107 
 
 Buck Creek Deposit 108 
 
 Chemical Analysis 110 
 
 P. C. E. Value 110 
 
 Petrographic Analysis _ 110 
 
 Burton Lake Area „ 112 
 
 Burton Lake Deposit 112 
 
 Chemical Analysis 113 
 
 P. C. E. Value 113 
 
 Petrographic Analysis _ 113 
 
 Laurel Creek Area 113 
 
 Laurel Creek Deposit 114 
 
 Chemical Analysis 116 
 
 Petrographic Analysis . 116 
 
 P. C. E. Value 116 
 
 Other Deposits in Laurel Creek Area 1 1(5 
 
ILLUSTRATIONS 
 Plate Page 
 
 1. Forsterite olivine showing chromite — Balsam 
 
 Gap, X. C 12 
 
 2. Domestic basic refractories 
 
 Principal Bources and consuming centers 16 
 
 Olivine bell in relation to major transportation 
 
 routes 18 
 
 1. Fig. A — Specimen of coarse-textured dunite 
 
 Fig. B — Specimen of coarse-textured saxonite 25 
 
 •">. Fig. A — Specimen of fine-grained dunite 
 
 Fig. B — Specimen of fine-grained saxonite 27 
 
 6. Micrographs of thin sections of dunite showing 
 
 alteration 33 
 
 7. Fig. A — Fine-grained dunite 
 Fig. B — Tough dunite 
 
 Fig. C — Serpentinized dunite 
 
 Fig. D — Altered dunite 35 
 
 8. Map showing distribution of olivine in Tennessee 
 
 Valley area 39 
 
 9. Map showing principal olivine deposits in Ten- 
 
 nessee Valley area 41 
 
 10. Views of olivine outcrops 44 
 
 11. Geologic map of Frank deposit 45 
 
 12. Geologic map of Day Book deposit 50 
 
 13. View of olivine quarry 51 
 
 14. Geologic map of Newdale deposit 54 
 
 15. Views showing geologic structures in dunite 56 
 
of North Carolina and Georgia 7 
 
 ILLUSTRATIONS (CONTINUED) 
 
 Plate Page 
 
 16. Geologic map of Holcombe Branch deposit 59 
 
 17. Fig. A — Large pegmatite in dunite 
 
 Fig. B — Joints in dunite 62 
 
 18. Geologic map of Newfound Gap deposit 66 
 
 19. Geologic map of Balsam Gap deposit 68 
 
 20. Typical olivine outcrop 69 
 
 21. Views of small olivine quarries ... 72 
 
 22. Geologic map of Dark Ridge deposit 76 
 
 23. Views of crude olivine blocks used in furnaces 77 
 
 24. Geologic map of Addie deposit 81 
 
 25. Geologic map of Cane Creek deposit 88 
 
 26. Geologic map of Webster deposit 92 
 
 27. Geologic map of Number Nine deposit 101 
 
 28. Geologic map of Corundum Hill deposit 103 
 
 29. Geologic map of Buck Creek deposit 109 
 
 30. Geologic map of Laurel Creek deposit 115 
 
 31. Olivine loaded in railway cars 117 
 
LETTER OF TRANSMITTAL 
 
 Raleigh, North Carolina 
 November 12, 1941 
 
 To His Excellency, Box. J. Melville Broughton, 
 Govi rnor of North Carolina. 
 
 Sir: I have the honor to submit herewith, as Bulletin 
 No. 41, a report on "FORSTERITE OLIVINE DE- 
 POSITS OF NORTH CAROLINA AND GEORGIA." 
 This bullet in is being published in cooperation with the 
 Tennessee Valley Authority. 
 
 To meet the demands for defense purposes, large 
 quantities of light metals are needed. Since olivine con- 
 tains a high percentage of magnesium, it is hoped that 
 this report, which shows huge deposits of olivine in North 
 Carolina, will point out a practicable source of this metal 
 for National Defense purposes. 
 
 Respectfully submitted, 
 
 R. Bruce Etheridge, 
 Director. 
 
PREFACE 
 
 This report entitled "Forsterite Olivine Deposits of 
 North Carolina and Georgia" has been prepared espe- 
 cially to furnish data on the occurrence, amount, mineral 
 associations and chemical quality of the olivine deposits 
 of the areas. The field work was done and the report 
 written by Charles E. Hunter, Associate Geologist, under 
 the direction of H. S. Rankin, Senior Mining Engineer, 
 of the Regional Products Research Division of the Com- 
 merce Department, Tennessee Valley Authority. 
 
 The purpose of this joint publication with the Ten- 
 nessee Valley Authority is to present data that demon- 
 strate the presence of large reserves of olivine in western 
 North Carolina and northern Georgia suitable for the 
 production of special refractories and magnesium com- 
 pounds. The presence of large deposits of olivine adja- 
 cent to good transportation facilities in a region where 
 the production of electric power is constantly increasing 
 suggests splendid opportunities for the establishment of 
 industries based on the utilization of these resources. 
 
 Jasper L. Stuckey, 
 State Geologist. 
 
FORSTERITE OLIVINE DEPOSITS OF NORTH 
 CAROLINA AND GEORGIA 
 
 By Charles E. Hunter* 
 Under the direction of H. S. Rankin^ 
 
 SUMMARY 
 
 It is not well known that there occurs in the Southeast 
 a reserve of at least 230,000,000 tons of high-grade 
 forsterite olivine,' averaging 48.07 per cent of magnesia, 
 suitable for the production of special refractories and 
 various magnesium compounds. These deposits, because 
 of their occurrence at accessible points and the fact that 
 they contain more magnesium than any other common 
 mineral, have excellent possibilities of being utilized in 
 the development of new T important industries in the 
 South. 
 
 More than 275 peridotite 2 formations, many of which 
 are dunites, 3 occur in North Carolina and Georgia. These 
 deposits are coexistent with the Blue Ridge Mountains, 
 and outcrop in a belt about 300 miles long. Most of 
 these deposits have been examined during various recon- 
 naissance surveys on associated minerals such as corun- 
 dum, chromite, nickel, and vermiculite. It was found 
 that a great number of these deposits are in advance 
 stages of serpentinization and steatitization. 1 However, 
 there are about 25 large forsterite olivine deposits, 
 remarkably sound and free from alteration minerals, 
 occurring in a belt 175 miles long and 15 miles wide, ex- 
 
 : Associatr Geologist, Regional Products Research Division, Commerce Department, 
 I ennessee \ alley Authority. 
 
 * Senior Mining Engineer, Regional Products Research Division, Commerce Depart- 
 ment, Tennessee Vallej Authority. 
 
 1 Forsterite olivine — A mineral composed mostly of magnesium ortho-silicat( 
 
 -Peridotite Dark uteen igneous rock of deep seated origin which consists wholly of 
 ferromagnesian mm era Is. 
 
 :i Dnnite —A variety ot peridotite composed mostly of olivine. 
 
 'Serpentinization and Steatitization 1 ypes ol alteration or "decay" common to the 
 peridotite class ot rocks. 
 
12 
 
 FORS I ERITE I ILIVINE I DEPOSITS 
 
 % Mwti 
 
 * r 
 
 TORiTEBlTt OLIVINE SHOWING CHROMI1 E BALSAM. N C 
 
 ll|lll|lll|lllllll|lll|lll|l 
 
 A 3 a 4 A ■■ ' •■••A ■'• "■■ - A - ■ • A ■■■ •■■■A - 
 
 l 
 
 Plate 1 
 
 tending from Watauga County, North Carolina, south- 
 westward to White County, Georgia. Asheville, North 
 Carolina, is about in the center of this belt. 
 
 Twenty of the best, largest and most accessible of 
 these forsterite olivine deposits were carefully mapped 
 and sampled. Several known deposits of good olivine 
 
of North Carolina and Georgia 13 
 
 were not mapped and sampled in this belt, because of 
 their occurrence at inaccessible points in mountainous 
 areas, which makes them of little economic value for the 
 production of olivine in the near future. However, they 
 constitute reserves and will be important as sources of 
 olivine when access roads make them economically 
 available. 
 
 The deposits mapped consist of dunites and saxonites' 
 containing from 60 to 95 per cent coarse-grained friable 
 olivine. The central core, usually about half of the 
 deposit, consists of relatively unaltered olivine; and the 
 outer border of the formation and some faulted zones 
 through the central part are composed of dunite or 
 saxonite partially altered to serpentine and talc. The 
 central or generally unaltered part of the deposits aver- 
 age about 48.07 per cent magnesia and the outer rim, 
 or faulted zone part of the formation ranges between 
 40 and 48 per cent magnesia. These North Carolina 
 and Georgia forsterite olivine deposits are tremendous 
 in size (one contains 16,550,000 tons of sound olivine and 
 24,500,000 tons of partly serpentinized dunite; the 
 largest contains over 300,000,000 tons of dunite) and 
 remarkably uniform in mineral and chemical compo- 
 sition. A petrographic analysis of a typical sample is 
 as follows: 85 per cent olivine, 10 per cent talc and 
 serpentine, and 5 per cent chromite and others. A 
 chemical analysis of a typical sample is shown in the 
 following tabulation : 
 
 MgO 
 
 Si0 2 
 
 Fe,(), 
 
 \1. Ti, Cr Oxides 
 
 CaO 
 
 T T 
 [gn. loss 
 
 Total 
 
 48.07 
 
 40.47 
 
 8.68 
 
 1.21 
 
 0. Id 
 
 1.21 
 
 «)<).74 
 
 Note that in the above table the magnesia is 48.07 per 
 cent and the silica is 40.47 per cent and the absence of 
 large quantities of fluxing ingredients which predisposes 
 
 •' Saxonite — A variety "I peridotite similar to dunite bui containing crystals ol i nstatiti 
 usually bronzite. 
 
1 I FORSTER] IK < >l.l\ INE DePOSII 
 
 its suitability as a natural refractory in block form or 
 for the production of special refractories. The iron con- 
 tent is 8.68 per cent which makes the fayalite content of 
 the olivine less than 1 1 per cent as part of the iron is in 
 the chromite. 
 
 These deposits are well suited for the quarrying of 
 high-grade olivine, since most of them, being more 
 resistant to erosion than the surrounding area, stand up 
 as hills of relatively sound formation. All of the twenty 
 large deposits mapped in this survey are accessible to 
 rail or truck transportation. Dark Ridge, Addie and 
 Webster, among the largest and best deposits, are crossed 
 by branches of the Southern Railway. The Day Book 
 and Xewdale deposits occur less than five miles from 
 Clinchfield (C.C.&O.) railroad stations. The material 
 occurring in the North Carolina and Georgia forsterite 
 olivine deposits is of such uniform character that, if 
 occasion should arise, it could be used in a centrally 
 located plant. Based upon carefully made calculations 
 it is estimated that there occur within the area 1,000,- 
 000,000 tons of dunite containing more than 40 per cent 
 magnesia and 230,000,000 tons of "quarrable" high- 
 grade olivine averaging 48.07 per cent magnesia. It is 
 estimated that it will cost $0.60 to $1.50 per ton to 
 quarry, crush, and screen this material depending upon 
 the size ranges of aggregate desired. 
 
 INTRODUCTION 
 
 Olivine, one of the major undeveloped mineral re- 
 sources of the Southeast, occurring in North Carolina 
 and Georgia, was known as early as 1875 and described 
 as "chrysolytic sandstone.'"'' Later, the olivine deposits 
 were recognized as dunites and described as such by 
 Pratt and Lewis in their report, "Corundum and the 
 Peridotites of Western North Carolina." 7 The mineral 
 
 1 W. C. Kerr, St. it. Geologist of North Carolina, Report, Geologic Survey of North 
 
 Carolina, V No 1 -b"-'i p 129 
 7 Joseph Hyde I'r.itr and Joseph Volney Lewis, "Corundum and the Peridotites of 
 
 Western North Carolina," North Carolina Geological Survey, Vol. I (1905). 
 
of North Carolina and Georgia 15 
 
 olivine is a common constituent of igneous rocks, which 
 originate from deep within the earth. The mineral, 
 usually olive green or pale yellow in color (hence its 
 name), often occurs in small irregularly outlined crys- 
 tals, and, more often, in grains similar in size and shape 
 to those of granulated sugar. It is a magnesium iron 
 orthosilicate. s The North Carolina and Georgia variety 
 contains detectable amounts of nickel and chromium. An 
 important characteristic of the mineral is that it contains 
 75 to 95 per cent forsterite (pure magnesium silicate), 
 which is a superior basic refractory 11 with a melting point 
 of 1890° C. The best grades contain about 30 per cent 
 magnesium, more than any other magnesium-bearing 
 mineral occurring in such large quantities. 
 
 In 1933 the experimental use of a small amount of 
 North Carolina olivine as a basic refractory in the 
 eastern steel industry created some interest in these 
 deposits. The increase in production has been slight, 
 largely because of the difficulty of obtaining satisfactory 
 shapes for refractory work. Most of the consumption 
 has been in the form of quarry-mined blocks. The 
 present annual output from the TVA region is below 
 10,000 tons, which until recently was used entirely for 
 refractory purposes. Some olivine is now being used in 
 experimental production of magnesium sulphate. 
 
 These olivine deposits constitute a practically in- 
 exhaustible reserve of a mineral uniform in composition. 
 It was determined from the survey just completed that 
 there is available from 20 readily accessible deposits 
 230,000,000 tons of unaltered olivine, containing more 
 than 45 per cent magnesia,"' and one billion tons of 
 partially serpentinized clunite" composed of 50 per cent 
 or more olivine averaging about 44 per cent magnesia. 
 
 Magnesium-iron orthosilicate 2 (Mg.Fe) O.SiO 
 
 9 Basic refractory --material with high resistance to heat and certain types "I sLil;. 
 111 Magnesia niamiesium oxide. 
 " Serpentinized dunite roclt composed principally of olivim . part ol thi olivim shows 
 
 sifjns of alteration or "decay." 
 
16 
 
 Fors ii Ri ii i n i\ ink Deposits 
 
 
 •• . 
 
 • 
 
 t 
 
 W 
 H 
 < 
 
OF North Carolina and Georgia 17 
 
 Only those reserves containing more than 40 per cent 
 magnesia were considered in these estimates. The re- 
 serves considered are only those occurring above the 
 local drainage level. Careful sampling and analyses 
 show great uniformity of magnesium and iron content 
 throughout the area. 
 
 The location of these deposits within 500 miles (see 
 Plate 2 and Plate 3 ) of important metallurgical centers 
 favors the possibility of their development in the near 
 future for the production of superior basic refractories. 
 In addition, these olivine deposits are surrounded by such 
 hydroelectric developments as Tennessee Valley Author- 
 ity, Nantahala Power Co. (Aluminum Co. of America), 
 Carolina Power & Light Co., and Duke Power Co. These 
 companies can furnish low-cost electricity for processing 
 the olivine into forsterite 1 - and other refractories, into 
 magnesium compounds, and last, but probably most im- 
 portant, into metallic magnesium. 
 
 The potential importance of these olivine deposits in 
 the Tennessee Valley region has not perhaps been fully 
 realized. During times of war or national preparedness, 
 the steel industry runs at capacity. One of the important 
 problems in steel production is the supply of satisfactory 
 basic refractory furnace linings. Magnesite," exten- 
 sively used in the eastern and southern steel industries, 
 is obtained either by importation or from the Pacific 
 Coast states. In war times the supply of imported 
 magnesite cannot be relied upon, and the domest it- 
 material has to be transported from the West Coast (see 
 Plate 2) . These large reserves of olivine, a basic refrac- 
 tory material occurring so near the steel plants, may be 
 of great importance in the national defense. 
 
 The increased demand for magnesium in airplane 
 construction, general light-weight metallic uses, military 
 flares, and incendiary bombs requires that magnesium 
 
 12 Forsti -lite .in important refractory magnesium silicate mineral. 
 1:1 Magnesite The mineral magnesium carbonate (MgCOj). 
 
L8 
 
 FORSTERITE < M.l\ INK DEPOSITS 
 
 production in the United States be greatly expanded. 
 Olivine, because of its tremendous, low -cost reserves, and 
 high magnesium content, offers .ureal potentialities as an 
 <>re of the metal. Active research, by the Tennessee 
 Valley Authority, is now under way to develop a process 
 for utilizing the olivine as an ore of magnesium. 
 
 Plate 3 
 
 HISTORY OF DEVELOPMENT 
 
 Olivine and forsterite refractories were first com- 
 mercially used in America during 1933. 14 Since that 
 
 14 Fred A. Harvey and Raymond E. Birch, "Olivine and Forsterite Refractories in 
 America."' Industrial and Engineering Chemistry, January. 1958, p. 28. 
 
of North Carolina and Georgia 19 
 
 date the amount produced has increased slowly, with 
 most of the use confined to experimental purposes. The 
 forms in which it has been used are shaped crude olivine 
 blocks, crushed bonded crude olivine, and forsterite pro- 
 duced from olivine, none of which have been said to be 
 entirely satisfactory industrially. 
 
 REVIEW OF RESEARCH 
 
 One of the earliest technical reports issued on olivine 
 in the United States was by Heindl and Pendergast. 1 " 
 Part of their summary states: "The results indicated 
 that the material from North Carolina was sufficiently 
 refractory to heat [and sufficiently resistant to some 
 types of slag] to warrant its use as a special refractory. 
 Bricks were easily made from run-of-mine material and 
 proved satisfactory in the few physical tests to which 
 they were subjected." 
 
 "The Production of Unfired and Fired Forsterite Re- 
 fractories From North Carolina Dunites," by Greaves- 
 Walker and Stone, reviews previous publications on 
 olivine refractories by others, and presents additional 
 data obtained by them at the North Carolina Engineering 
 Experiment Station. 10 
 
 Harvey and Birch have presented well the case of the 
 new refractory in their article, "Olivine and Forsterite 
 Refractories in America." 17 Goldschmidt, one of the 
 pioneers in research in olivine refractories, has written 
 a review on its use in Europe. 1 ^ 
 
 RESEARCH IN PROGRESS 
 
 During 1940 and 1941 the Electrotechnical Labora- 
 tory at the Norris Station of the U. S. Bureau of Mines 
 has worked on the development of a forsterite firebrick 
 
 15 Olivine .is .1 Refractory, U. S. Bureau of Standards Research Paper, R P I I ; (Februan 
 
 1934), p. 222. 
 18 Bulletin No. 16 (Septembei 1938), Engineering Experimeni Station, State College, 
 
 Raleigh, North Carolina. 
 17 Industri.il and Engineering Chemistry, January 1938, p 
 ls V. M. Goldschmidt, "Olivini and Forsterit* Refractories in Europe," / il and 
 
 Engineering Chemistry, January 1938, p. ; 2 
 
l'ii Forsterite Olivine Deposits 
 
 from olivine melted ill ail electric furnace. The forsterite 
 produced is nearly pure and it has promise of becoming 
 a remarkably high melting basic refractory of potentially 
 
 wide application. 
 
 The results of recent research being carried out by 
 the staff of the Regional Products Research Division of 
 the TV A on magnesium chloride production from olivine 
 have been encouraging. This process, if the experiments 
 now under way prove successful, would make olivine 
 available as a low-cost ore for the production of mag- 
 nesium metal since the methods for making the metal 
 from the chloride are well established.'" 
 
 PRESENT COMMERCIAL USE 
 
 For several years, North Carolina olivine has been 
 used in the construction of semisloping back walls in open 
 hearth furnaces, though the greatest use has been in 
 furnace repair. The firm of Gillis and Pawel (Olivine 
 Products Cpn. ) of Webster, North Carolina, has recently 
 established a commercial plant for making magnesium 
 sulphate"" from olivine. Their process, based on several 
 years' research, consists essentially of digesting crushed 
 olivine in sulphuric acid, separating the iron, and crystal- 
 lizing the magnesium sulphate from solution. This is 
 probably the first plant using olivine as a source of 
 material for the production of magnesium salts. 
 
 FUTURE USE OF OLIVINE 
 
 Forsterite produced from olivine has an excellent 
 opportunity, because of its refractoriness and place of 
 occurrence, to become an important factor in the basic 
 and special refractory industries of the country. In 
 addition, the use of forsterite lining in cement kilns offers 
 
 \ summary ol research on magnesium From olivine was presented by E. C. Houston 
 ;irul H. S. Rankin .is .1 paper entitled "Olivine as a Source of Magnesium," delivered 
 .it ,i meeting <>t the Industrial Minerals Division of the American Institute ot Mining 
 \ Metallurgical Engineers, held at Rolla, Mo. on October 24, 1941. 
 Magnesium sulphate — used in rayon, textile, and tanning industries, southern bright 
 leaf tobacco fertilizer, and pharmaceuticals. 
 
of North Carolina and Georgia 21 
 
 great promise because of its long life and other desirable 
 properties. 
 
 Olivine, because of its high magnesium content and 
 low cost, offers possibilities for the production of various 
 magnesium compounds, the metal, and special fertilizers. 
 
 ACKNOWLEDGMENTS AND FIELD WORK 
 
 This report presents data obtained in an economic 
 geological field survey by Charles E. Hunter, Samuel D. 
 Broadhurst, and Gilbert C. Robinson between July 1 and 
 September 15, 1940. The maps used in the report were 
 prepared by Samuel D. Broadhurst. 
 
 Acknowledgment for constructive criticism and help- 
 ful suggestions in preparing this report is made to : Dr. 
 Frank L. Hess, Principal Mineralogist, U. S. Bureau of 
 Mines, Eastern Experiment Station, College Park, Mary- 
 land; Dr. Jasper L. Stuckey, State Geologist, Raleigh, 
 North Carolina; Dr. Hewitt Wilson, Supervising Engi- 
 neer, Electrotechnical Laboratory, U. S. Bureau of 
 Mines, Norris, Tennessee; and Dr. Geoffrey W. Crick- 
 may, Professor of Geology, University of Georgia. 
 
 REGIONAL GEOLOGY 
 
 The western part of North Carolina and northern 
 Georgia in which the olivine deposits occur is a part of 
 the great belt of crystalline rocks that is co-extensive 
 with the Appalachian Mountain system. This area con- 
 tains such peaks as Mount Mitchell with an elevation of 
 6,684 feet. The mountains in the area, for the most part, 
 were formed by differential weathering; therefore the 
 individual spurs and tops do not have a definite pattern. 
 However, the trend of the ranges as a whole is southwest- 
 northeast. 
 
 Pratt and Lewis have made a rather thorough and 
 detailed study of the geology of western North Carolina 
 and little can be added in a general way to their excellent 
 description of the geology of the area. So liberty is here 
 
22 Pons 1 1 Ri 1 1 i >i.i\ i.\i-: Deposits 
 
 taken in quote parts of their publication, "Corundum and 
 Peridotites of Western North Carolina." 21 
 
 ()n accounl of their complex structure, and highly 6rystal- 
 line character, these rocks [of Western X. ('.] arc generally 
 
 msidered to be Archean Age. . . . The principal constit- 
 uent of the system is banded gneiss, which includes many 
 masses of granil ic and di her disl inctly igneous rocks [diorite 
 and hornblende schist] and which often, through higher 
 development of lamination, passes into mica-schist and 
 amphibole-schists. 
 
 The gneisses have been usually considered, in part, sedi- 
 mentary rocks that have lost their original characteristics 
 (with the possible exception of bedding in some cases) in 
 the great earth movements and other metamorphosing 
 agencies to which they have been subjected. Some of them 
 are undoubtedly granites, diorites and other igneous rocks 
 that have been sheared or squeezed by some agencies, and 
 transitions from the massive to the laminated forms have 
 often been observed. 
 
 Lamination is often developed where no such original 
 structure existed, as in the sheared massive rocks referred 
 to above. It is know that such structure produced by move- 
 ment in the mass of rock may, and often does, obliterate 
 whatever original structure may have been present; so that 
 a sedimentary rock thus mechanically laminated and at the 
 same time thoroughly crystallized would no longer show its 
 original stratification. The new structural planes may in 
 certain cases correspond with bedding, but often they do 
 not; and it is frequently impossible even to distinguish be- 
 tween gneisses and schists of igneous origin and those pro- 
 duced by the extreme metamorphism of sedimentary beds. 
 The strikes and dips observed in this region are in all cases 
 those of secondary lamination planes, and have no reference 
 to stratification nor to any particular theory of origin. 
 
 In some regions the gneisses present several characters 
 that point strongly to a sedimentary origin. They contain 
 limestones in considerable amount at the forks of Caney 
 Fork of Tuckaseegee River, in Jackson County, and on the 
 eastern slopes of Onion Mountain and the headwaters of 
 Ellijay Creek, in Macon County. These limestones are often 
 
 1 North Carolina Geological Survey; Vol. 1 (1905), p. 24. 
 
of North Carolina and Georgia 23 
 
 more or less graphitic. There are also frequent streaks and 
 disseminated scales of graphite in the mica-schists . . . 
 these, together with the extremely variable character of the 
 gneisses in many regions and their frequent rapid passing 
 into mica-schist and sometimes into quartz-schist, would 
 seem to justify the reference of a large part of the series 
 to a sedimentary origin. 
 
 In recent years the theory of sedimentary origin for 
 part oi the gneisses and schists has been strengthened by 
 the finding of additional interbedded limestones and in- 
 tern ngering quartzites with the gneisses and schists, 
 such as the occurrences in the vicinity of Lake Toxaway, 
 Bandana and Marshall, North Carolina, and Hollywood, 
 Georgia. 
 
 The prevailing strike of the lamination planes in the 
 gneiss of western North Carolina is about N. 30 deg. E, and 
 the prevailing dip is at a high angle toward the southeast. 
 Very frequently local variations occur, especially in the dip, 
 and the prevailing southeasterly dip will become vertical 
 within an outcrop covering only a few feet and, tipping 
 over, will pass into a northwesterly dip. All stages occur 
 from these local variations in the dip and strike to the most 
 complex gnarled and contorted forms. In general, the lami- 
 nation has suffered most deformation in the immediate 
 vicinity of igneous intrusions and the forces that produced 
 the contortions doubtless formed simultaneously the fissures 
 into which the massive rocks were injected. 
 
 This gneissic belt of the mountain region, which averages 
 about 35 miles wide, is bordered on the West and East by 
 two belts of partially metamorphosed sedimentary rocks 
 that are considered by Mr. Arthur Keith, of U. S. Geological 
 Survey, to be of lower Cambrian Age. . . . This formation 
 consists of a lower series of sandstones and conglomerates 
 and an upper series of shales and limestones, the whole lying 
 imcomformably on the gneisses. 
 
 This belt of gneiss above described is cut by a great many 
 narrow strips and small lenticular masses of basic mag- 
 nesium rocks, chiefly peridotites, which rarely exceed a mile 
 or two in length. As far as has been observed, these rocks 
 are nowhere intimately associated with igneous rocks of the 
 granitic type. . . . These basic magnesium rocks of North 
 
2 I FORSTERITE < »l.l\ INK DEPOSITS 
 
 Carolina [and Georgia] intersecl no formations <>f later a^e 
 than the supposedly pre-Cambrian gneisses. 
 
 The peridotitea and related rocks form disconnected 
 masses arranged in a line or series of parallel lines that 
 coincide approximately in direction with the strike of the 
 gneissic laminat ion. They almosl invariably have a sheath 
 of some schistose ' mineral developed aloiitf their borders, so 
 that there is rarely an absolute contact between [them and] 
 the normal gneiss. 
 
 The North Carolina and Georgia peridotites are in- 
 truded into the central part of a great geanticline-"' and 
 many of these intrusions are thought to have been a part 
 of a volcanic system once active in pre-Cambrian times. 
 Some of the dunites and saxonites (defined on following 
 page ) now exposed may be part of an ancient deep seated 
 volcanic system. These formations vary in extent of 
 surface outcrop, from 1500 square feet (Otto deposit in 
 Macon County, N. C), to one-half square mile (Buck 
 Creek Deposit, Clay County, N. C. )• All the deposits 
 extent downward several hundred feet, and the largest 
 probably extend downward to great depths. 
 
 GEOLOGY OF PERIDOTITES 
 
 DUNITES AND SAXONITES 
 
 The western North Carolina and northern Georgia 
 olivine deposits can be classified as dunites and saxonites. 
 The dunites are composed of essentially pure olivine with 
 accessory primary minerals such as chromite or picotite, 20 
 while the saxonites are practically the same except that 
 they contain primary bronzite- 7 (see Plates 4 and 5). In 
 many eases the bronzite has been altered to talc. The 
 dunite bodies are more numerous and usually larger than 
 
 ambrian a very early and old geologic age. 
 ( iii' issic lamination light-and dark-colored minerals arranged in bands in the rock. 
 1 Schistosi scaly minerals such .is vermiculite or mica — forming a platy surface cross 
 ion. 
 1 I inticline — a told ot great magnitude (mon than 10 miles in diameter) in the rocks 
 
 ■ in eai th's outer crusr zone. 
 Picotite- a chrome spinel mineral, chiefly chromium oxide. 
 r ' Bronzite — Iron-bearing variety of the mineral enstatite with a bronze luster. 
 
Plate 4 
 
 ■ 
 
 »*v 
 
 h 
 
 
 *' 
 
 '" >-" 
 
 A. COARSE TEXTURED DUNITE 
 Dunite consisting essentially of unaltered, dark green olivine crystals which average about 
 1 nun. in diameter. .Minute crystals of primary chromite are disseminated throughout the 
 dunite. Natural size. 
 
 
 £ 
 
 r • 
 
 *#**■" 
 
 * * ■ 
 
 *. i 
 
 9 
 
 'UK 
 
 ft* 
 
 .. 
 
 IJ. COARSE TEXTURED SAXONITE 
 
 Saxonite composed oi partlj altered, dark green i llvine, bronzlte, and chr Ite The olivine 
 
 crystals average about I hum. in diameter and usually show shattering due to serpentlnlzatlon 
 around the borders The bronzlte crystals are parti] altered to talc. Natural size, 
 
26 Forsterite Olivine Deposits 
 
 the saxonites, which frequently arc found in contact with, 
 or surrounded by, dunite. 
 
 ( olivine deposits now exposed at the surface by erosion 
 
 were probably formed (crystallized and cooled) at a 
 depth greater than ten miles below the surface at the 
 
 time of their injection. This depth of intrusions is sub- 
 stantiated by the structure of the region, and the fact 
 that erosion during geological times has removed rocks 
 and sediments from the area totaling approximately ten 
 miles in thickness. Grout states that ultra-basic igneous 
 rocks, such as dunites, are deep-seated in formation. 28 
 
 The country rock, surrounding these intrusions, is in 
 most instances hornblende"" gneisses and schists. A 
 direct relationship between the hornblende and peridotite 
 formations is evidenced by the fact that olivine grains 
 have been found in some hornblende formations adjacent 
 to the dunites. Such a relationship was observed in 
 Yancey and Clay Counties, and suggests that the two 
 basic igneous formations probably originated from the 
 same parent magma occurring at a much greater depth. 
 The peridotites (olivine-bearing rock) are apparently 
 tlie younger of the two, because in many places, Webster 
 for example, large and small hornblende inclusions were 
 noted surrounded by dunite. The contact between the 
 inclusions and the dunite is seldom sharp, because a 
 fringe of impure vermiculite and actinolite occurs around 
 the hornblende inclusion which indicates the meta- 
 morphic action of the peridotite intrusion. 
 
 The peridotites with which this report is concerned 
 are of the dunite and saxonite type consisting of more 
 than 60 per cent olivine. These intrusions can be sub- 
 divided into two structural types, the most common of 
 which is a lens-shaped intrusion with the long axis 
 
 ■ Frank I < Irout, "Petrography and Petrology" (New York: McGraw-Hill Book Com- 
 pany, Inc.. 1932) p. 147. 
 
 19 Hornblende — a complex black mineral composed mainly of magnesium, calcium, 
 aluminum, and iron silicate. 
 
of North Carolina and Georgia 
 
 27 
 
 parallel to the regional schistosity, and the other is of the 
 ring-dike or crescent type. Similar olivine occurs in both 
 types, but the internal structural features are somewhat 
 
 Plate 5 
 
 
 A. FINE GRAINED DUNITE 
 This dunite consists essentially of unaltered, light green olivine and 
 disseminated minute crystals of primary chromite. The olivine grains average 
 about 0.2 mm. in diameter. Natural size. 
 
 '"' 
 
 ' • K. .-#* 
 
 
 *'0 ' 
 
 M 
 
 
 B. PINE GRAINED SAXONITE 
 A partly altered saxonite consisting of light green olivine, chromite, 
 bronzite, and talc. The olivine grains average less than 0.2 nun. iii diameter, 
 and the bronzite crystals average more than l 11 nun in diameter, Some of 
 the bronzite is entirely altered to talc. The specimen shows a slight amount 
 of chloritization. Natural size, 
 
28 FORSTERITE OLIVINK DEPOSITS 
 
 different In the lens-shaped type the cooling joints and 
 occasional faults arc the most prominent features. In 
 the ring-dike type, the most noticeable feature is the 
 parallel lamination which on a weathered surface has the 
 appearance of thin-bedded sandstone. In all cases this 
 lamination, is roughly parallel to the contact of the olivine 
 formation and to the schistosity of the country rock. 
 
 Segregations of various types of olivine are more 
 pronounced in the ring-dike than in the lens-shaped for- 
 mations. This difference is probably due to later basic 
 intrusions which have undergone little alteration, and to 
 structural features which have protected certain areas 
 from hvdro-thermal solutions. 
 
 ASSOCIATED MINERALS 
 
 The dunites and saxonites contain accessory minerals 
 such as chromite, picotite, bronzite, and many others/ 
 Olivine accounts usually for more than 60 per cent of the 
 formation and most of it consists of 80 per cent forsterite, 
 11 per cent or less fayalite,'" and the remaining 9 per 
 cent or less of other magnesium minerals.' 1 " In some of 
 these deposits chromite is a conspicuous mineral occur- 
 ring as well-formed disseminated crystals throughout the 
 dunite rock, or as small lenses and veins of massive 
 chromite surrounded by friable and granular olivine. At 
 some places, such as a part of the Webster ring-dike 33 
 series, the chromite makes up as much as 25 per cent of 
 the dunite." The secondary magnesium minerals de- 
 rived from olivine include a wide variety of hydrated 
 minerals. 35 
 
 At a few places, especially near Webster and Demo- 
 crat, N. C, nickel silicate veins, nickeliferous clay, and 
 
 30 Pratt and Lewis, op. cit., p. 29. 
 
 I ayalite an iron silicate mineral. 
 " 2 R. A. Heinill and W. L. Pendergast. "Olivine as a Refractory," U. S. Bureau of 
 
 Standards Research Paper 645, (February 1 ( ^34), p. 219. 
 33 Ring-dike — a geologic structure circular or elliptical in shape. 
 1 Edwin C. Eckel, Charles E. Hunter, and Philip W. Mattocks, "Iron, Chromite, and 
 
 Nickel Resources of the Tennessee Valley Region," Tennessee Valley Authority, 
 
 Geologic Division, Bulletin 10 (193S) p. 19.' 
 35 Pratt and Lewis, op. cit., pp. 74 and 112. 
 
of North Carolina and Georgia 29 
 
 nickel-bearing vermiculite are rather conspicuous in the 
 dunite. 36 These veins seldom exceed two feet in width 
 but sometimes they are found rather closely spaced ; that 
 is, occurring only a few feet apart and separated by 
 dunite, which is cut by many tiny veinlets of a harder 
 nickel silicate mineral, genthite. In the Webster area 
 the nickeliferous veins are reported to average about 
 5.34 per cent NiO, and the altered dunite and serpentine 
 associated with these veins to average about 1.50 per cent 
 NiO. :<T Some nickel is detectable in all the olivine deposits 
 and many of them average more than 0.25 per cent nickel. 
 Vermiculite occurs with all the dunite formations both 
 as fringe veins in contact with the country rock and as 
 interior veins in joints and faults within the olivine 
 body. :!s These veins vary in thickness up to 15 feet, the 
 average being about three feet. Corundum is a common 
 accessory mineral. In the Ellijay area of Macon County, 
 N. C, vermiculite occurs rather abundantly with the 
 olivine-bearing formations. However, it is usually found 
 in commercial quantities only in those formations 
 through which pegmatite 39 solutions (hot silica-bearing) 
 have passed. Many of the dunite bodies offered struc- 
 tural weaknesses ideal for the entering of intrusions and, 
 therefore, contain numerous small pegmatites with 
 highly altered dunite on each side. 
 
 Many of the dunites contain veins and seamlets of 
 anthophyllite asbestos. The olivine associated with this 
 asbestos is usually of an inferior quality because of the 
 occurrence of a high percentage of chlorite and talc, 
 developed along with the anthophyllite, which lowers the 
 magnesium content and refractoriness. In addition, the 
 
 30 Eckel, Hunter, and Mattocks, op. cit., p. 22. 
 
 37 G. W. Pawel, "Nickel in North Carolina," Engineering and Mining Journal, Octobei 
 
 1939, p. 35. 
 ■'"Charles E. Hunter, Philip W. Mattocks, and Others, "Vermiculite and Bentonite of 
 
 Tennessee Valley Region," Tennessee Valley Authority, Geologic Division; Bulletin 5 
 
 (1936) p. 3. 
 3il Pegmatite — an igneous intrusion composed ol solutions carrying acid minerals such as 
 
 quartz and feldspar. 
 
30 FORSTERIl i: < »i.i\ INE DEPOSITS 
 
 exteriors of individual olivine grains are partly altered 
 to secondary magnesium minerals which, in most cases 
 are inert to acids; consequently the material is rendered 
 undesirable Tor use as a source of magnesium in a 
 
 chemical process. 
 
 These associated minerals offer possibilities as im- 
 portant by-products in any substantial olivine produc- 
 tion. Such minerals as vermiculite, talc, asbestos, 
 chlorite, chalcedony, corundum and some chromite and 
 nickel ore could he produced at the quarry along with the 
 olivine. However, much chromium and nickel would be 
 obtained from the residue and solution after the mag- 
 nesium has been taken out of the olivine by a chemical 
 process. 
 
 SERPENTINIZATION 
 
 The olivine from most of the deposits shows some de- 
 cree of serpentinization under the microscope and in 
 some cases the serpentinization has been so complete that 
 it is difficult to find remaining a remnant or skeleton 
 olivine crystal. A widespread misconception is the belief 
 that the serpentinization in the dunite and saxonite is a 
 surface phenomenon due to weathering. This conception 
 is not substantiated by field evidence. Pratt and Lewis 
 recognized that the serpentinization was due to hydro- 
 thermal action which took place on the olivine many 
 millions of years before the deposits were exposed by 
 erosion. They presented thorough and convincing data 
 on deep-seated serpentinization of the North Carolina 
 dunites in their excellent report, "Corundum and Perido- 
 tites of Western North Carolina." Pratt and Lewis state: 
 "Serpentinization, therefore, is believed to be a process 
 that can take place only below the depth of active 
 weathering .... On this hypothesis serpentine could 
 exist at the surface onlv where a certain amount of 
 overlying rock has been decomposed and removed after 
 the alteration of the peridotite [dunite] into serpen- 
 
of North Carolina and Georgia 31 
 
 tine." 4 " G. W. Bain recently reviewed previous papers 
 on serpentinization and presented additional data of his 
 own. Part of his paper is here quoted." 
 
 These important contributions to the literature on origin 
 of serpentine indicates four modern schools of thought. 
 First, Benson, Arshinov and Merenkov, and Hess would in- 
 voke the process of autometamorphism — alteration by a 
 late stage portion of the ultrabasic magma while it is in the 
 process of crystallization. Second, Graham and Dresser 
 would attribute the change to attack of a granitic differen- 
 tiation extract of the original ultrabasic, after crystalliza- 
 tion of the olivine. Third, Cairnes and Cooke would inter- 
 pose a period of tectonic movement between crystallization 
 of the ultrabasic and serpentinization, but they refrain 
 from ascribing an origin to the solutions causing the change. 
 Fourth, Foslie and Du Rietz seemingly concur with Cairnes 
 and Cooke but deny any relationship between the original 
 ultrabasic magma and the solutions causing the change. 
 Bain observed that fault-sheared zones were com- 
 pletely serpentinized while the bordering less disturbed 
 saxonite was only slightly serpentinized. He is of the 
 opinion that much of the serpentinization (in Vermont) 
 is due to solutions originating from without the for- 
 mation. 4 " 
 
 No one mode of serpentinization was solely respon- 
 sible for the serpentine developed in the dunite and 
 saxonite occurring in North Carolina and Georgia. Field 
 evidence shows that a combination of the serpentinization 
 processes was active in these deposits. Alteration by 
 autometamorphism and later by granitic or pegmatitic 
 intrusions are the two principal and most common typos 
 of serpentinization found in these deposits. 
 
 There is little doubt that all the olivine deposits | in 
 the area covered by this report), when first formed, were 
 either dunite or saxonite of a very similar and uniform 
 mineralogical and chemical composition (see Plate <>). 
 
 I fltrabasics," />.■< " I • Society 
 
 in 
 
 Pratt 
 
 and Lewis. 
 
 , up. ril. 
 
 . P- 
 
 119. 
 
 
 41 
 
 G. W 
 
 . Bain, "S< 
 
 rpentinization <>l V 
 
 ermon 
 
 
 of Ameru a, Vol. 
 
 17 (193 
 
 6) i 
 
 .. L964 
 
 
 42 
 
 Ibid., 
 
 p. 1968. 
 
 
 
 
 
32 Fors n srite i »i.i\ ink Deposits 
 
 But immediately after the magma was intruded into the 
 country rock, the olivine began to undergo alteration of 
 the type known to geologists as bein.u, - "cooked in its own 
 juices/* That is, during the cooling period of the olivine 
 magma, the entire formation was subjected to the vapors 
 
 DESCRIPTION OF PLATE 6 
 
 Showing photomicrographs of thin sections of dunite illustrating 
 various Btages of alteration of olivine 
 
 Figure 1. Dunite from the Railroad cut (Dark Ridge De- 
 posit) 2 miles west of I'.alsam Gap, Jackson County, N. C. A 
 photomicrograph in ordinary tight, magnified 12 diameters. A 
 typical granular dunite. showing only the slightest trace of alter- 
 ation to serpentine. Thin section No. Wll. 
 
 Figure2. Dunite from Webster. Jackson County, N. C. A 
 photomicrograph in ordinary light, showing the beginning of 
 serpentinization along the borders of the olivine grains. 
 
 Figure 8. Dunite. Webster, X. C. A photomicrograph in 
 ordinary light, magnified 18 diameters. Shows an advanced 
 stage in the alteration of the olivine to serpentine. Some of the 
 olivine grains are darkened on the borders by the segregated 
 iron oxides. Thin section No. Wl. 
 
 Figure 1. Dunite. Webster, N. C. A photomicrograph in 
 ordinary light, magnified 18 diameters. Similar to Fig. 3, except 
 in the larger amounts of the iron oxides segregated along the 
 borders of the olivine remnants. Thin section No. W9. 
 
 Figure 5. Dunite from Cane Creek, 5 miles northeast of 
 Webster, X. C. A photomicrograph in ordinary light, magnified 
 1 1 diameters. Shows the typical structure of laminated dunite, 
 with alternating layers of sheared and unsheared granular 
 olivine. Only a trace of serpentinization. Thin section No. 
 Wl':;. 
 
 Figure6. Dunite from 5 miles northeast of Webster, N. C, 
 on the road from Webster to Hall. A photomicrograph in ordi- 
 nary light, magnified 18 diameters. Shows dunite altered to 
 chlorite in radiating tufts, with granules and irregular aggre- 
 gates of magnetite. Small unaltered remnants of olivine are 
 scattered throughout the field. Thin section No. W5a. 
 
 Plat '- and description thereof taken from Joseph Hyde Pratt and Joseph Volney 
 I ewis, "Corundum and the Peridotites of Western North Carolina," North Carolina 
 Geological Survey, Vol. 1. pages 454 and 45 ; . 
 
Plate 6 
 
 Fig. 
 
 
 vSg 
 
 V,. t^^'« 
 
 %--- 
 
 1 
 
 ' -fes#i 
 
 fcjUNS*- 
 
 
 
8 I FORSTERITE ( OLIVINE DEPOSITS 
 
 DESCRIPTH >X OF PLATE 7 
 
 A. Pine-grained dunite made up of light green olivine with 
 disseminated chromite. The olivine grains average about 
 11.12 mm. in diameter and are entirely surrounded by yellow- 
 ish serpentine. The chromite crystals arc well defined octa- 
 hedrons averaging about <>.."> mm. in diameter and show no 
 indications of being altered. Natural size. 
 
 B. Dark gray dunite made up of interlocking olivine crystals 
 which average about '2 mm. in diameter. As seen in thin 
 
 ction, serpentine forms about 15 per cent of the rock and 
 is found to penetrate the olivine crystals. Chromite is 
 sparingly present, and as seen microscopically, occurs as 
 remnant crystals partially replaced by chlorite. Natural 
 size. 
 
 < . A fine-grained dunite consisting of light green olivine crystal 
 remnants enclosed by brown and gray serpentine which 
 imparts a dark color to the rock. This dark, olive-drab 
 color is characteristic of olivine that has undergone hydro- 
 thermal serpentinization. Natural size. 
 
 I). A representative specimen of medium-grained dunite con- 
 sisting of pale green olivine partially altered to serpentine. 
 Note the vein of secondary dolomite with small enclosed 
 crystals of chromite. Natural size. 
 
 and solutions being produced during the time of crystalli- 
 zation and cooling of the intrusion. After the olivine 
 bodies cooled, many of them underwent repeated periods 
 of serpentinization by invading pegmatite solutions (see 
 Plate 7, Fig. C ) . So it is no wonder that all conceivable 
 stages of serpentinization are represented in the various 
 olivine deposits in the area. In most cases, however, 
 parts of the olivine formations were protected by faults 
 from the solutions and have remained relatively sound 
 and free from serpentine growth. This is evidenced by 
 the fact that the rising solutions were confined princi- 
 pally to the fault zones, and did not extend outward from 
 them to any great extent into the main body of the 
 deposit. 
 
Plate 7 
 
 A. 
 
 B. 
 
 ■ ■ 
 
 
 i 
 
 | H 
 
 c. 
 
 I). 
 
M - s s 
 
 The Balsam i Dark Ridg ^ 
 
 I in detail on pag " 
 rpentin: a. H both o: thesi sits 
 
 have undergon- morphism; tha: is, 
 
 ^lutions liberated during the -:allization 
 
 :iod of the magma. Alteration from pegm; or 
 
 g anitic intrusions are almost entire! ; -ent in thesr 
 
 Thus, these :wo deposits of 
 
 oli\*ine deposits .ich have undergone a minimum 
 
 amount of serpentinization. The Democrat dunite 
 
 bed in detail on page 61 is several large 
 
 pegmatities and almost the entire formation is high 
 
 Thus it is xample of a formation 
 
 ich has undergone a great deal of both types of 
 
 STLATmZATIC'' 
 
 - ". ".- :.. -r : . ..r. . ■.:: :. . :::::: :: 
 ... .::. :..r • : "r". : — : iuziitrs . .:".". ?axoz:::e5. This 
 " - i :-..'r ::■.'.: = _ : . :: " a::aci-:i r.z -:.: .-r us 
 
 - /-:: r.s ■ :-h ; - :hf iur.ix ::.: :::::: ure : a". ■:•" s ap- 
 
 ■ -'.- It is later than serpentinization and is produced 
 
 -llicec as s idution originating from without the 
 
 This method of alteration is of little im- 
 
 ". ..- --..-.■>-.- : :> '..::/_--' -r.'.r..'. usuaiiy :\:\7.r.ri 
 
 - - . -: -> : : -r : --.:- :. ..." :;-.rrr::re sr.iu'.n :: 
 tc-zirZ'r "■":_-. :r.r ::: / .:: /. : .:' ;:.t 
 
 Ir. discussing the origin of the dunites. Greaves- 
 Walker and Stone, in their publication, 
 more probable tha: the accumulated c: ystals of olivine, 
 formed by sinking from a complex magma, were intruded 
 into surrounding rock while in a more or less plasti 
 state, in which case the temperature existing would ha - 
 been reasonably low and, therefore, the eonta zie 
 
 would be comparatively nanx 7 r : 
 
of N rth IB :.:.■• -.:■: .-i b ,:.-. 
 
 :ement with : "An xamp.e : :his condition has been 
 noted in the biotite schist underlying the dunite 
 Balsam. X. I The - :st contains iarre an: ur.ts ■:: 
 plagioclase and is not altered to a depth of more than 
 t ] inches at the contact with the dunite. thei s 
 
 made similar .statements trying to explain the absei 
 :■: :outact ntetantorr.hisru. ?:: euaruyir. Hess -tates 
 "The absence of contact metamorphism around basic in- 
 tra.-: ns favors the hypothesis "reiatiUi : — eutiui- 
 zation] that the solution- were ::: _ ..-the: from the 
 country rook? in:: the :::._:::. than .r versa N 
 doubt shortly after the olivine was intruded the sur- 
 rounding country rock did sfa : :. :: rnetamorphism. 
 However, all signs of this .:.:.: /T.amorphism have 
 long since been obi: berated the schist - e eloped 
 
 in the rocks during the several periods of great earth 
 movements which the : e h a s undergone since the n : st 
 olivine intrusions. Also their is deai evidence .: many 
 ::' the he:;:si:s that there has heeu ntneh fauit us iate- 
 n:eut a.ozti the :-:uta:ts. s: it is rare :u:":eo-t that the 
 dunite is now in contact wit:: the rock into which :: 
 intruded. This condition is well ill:: - : : .-. :ed in the central 
 western pan of the D: ? h iuu:te-sax:u:te thrntat: 
 
 see Plate 11). Here the iuuite is in ::re:t : utact 
 a large lens of the Spruce Pine Alas 
 relatively recent acid ( high silica ) intrusion, and there 
 -ign of serpentin ization due t: the presence of the 
 alaskite. which pi ves that the dunite and alaskite 
 been brought togethei :aulting. 
 
 *h. i 
 
 - 
 
FORSTERITE < M.l\ INK DEPOSITS 
 
 WEATHERING 
 
 The dunitea and saxonites, composed almost entirely 
 • ii' forsterite olivines that have not undergone serpentini- 
 ition, do not weather by decay as is customary with 
 mosl rocks. Forsterite olivine is rather soluble and goes 
 into solution in a manner similar to that of a pure lime- 
 stone; thus the surface of an outcrop is covered by a thin 
 coat of insoluble residue under which there is sound 
 olivine. However, olivine formations are more resistant 
 to mechanical erosion than the surrounding country rock 
 and thus usually stand up as hills in a mountainous 
 country where the rain fall is heavy and the erosion is 
 rapid. 
 
 DESCRIPTION OF AREAS AND DEPOSITS 
 
 For convenience of description of deposits and group- 
 ing of tonnage estimates, the olivine belt has been divided 
 into eight areas. These areas have been named after 
 prominent geographic points occurring within them. 
 They are listed as follows: (1) Frank, (2) Toecane, 
 (•*>) Canton-Democrat, (4) Webster-Balsam, (5) Ellijay, 
 (6) Buck Creek-Shooting Creek, all in North Carolina, 
 and (7) Burton Lake, and (8) Laurel Creek, in Georgia 
 i see Plate 8). The extent of any one of the areas is not 
 indicative of the quantity of olivine occurring within its 
 limits. For example, No. 4 (Webster-Balsam), although 
 one of the smallest in areal extent, contains more than 
 twice as much olivine as any other. Also it might be 
 stated that olivine from two or more areas may be drawn 
 to a centrally located point for processing. For example, 
 olivine produced in areas Nos. 3 and 4 (see Plates 8 and 
 9 i could conveniently be processed at any one of several 
 points along the main line of the Southern Railway in the 
 French Broad River valley in the vicinity of Asheville. 
 
 RESERVES OF OLIVINE 
 
 Reserve tonnages have been calculated for each of the 
 olivine deposits and totaled for each area. These calcu- 
 
of North Carolina and Georgia 
 
 39 
 
 00 
 
 H 
 H 
 < 
 
in Fobs i eri i e < olivine Deposits 
 
 lations arc based on carefully made geologic maps of 
 each deposit. Most of the deposits were mapped in detail 
 .Hi a scale of one inch equals 500 feet. On these maps 
 the olivine has been divided into two classes — one, 
 relatively unaltered granular olivine, and the other, 
 serpentinized dunite. The areas shown on the maps as 
 "relatively unaltered granular olivine" is composed 
 chiefly of sound, sugary, friable olivine showing little 
 indication of having been altered to other magnesium 
 minerals with inferior refractory and chemical qualities. 
 The olivine included in this classification contains more 
 than 15 per cent MgO and has less than 2 per cent ignition 
 loss. This grade of olivine usually occurs in the central 
 part ol* the formation. 
 
 The area shown on the map as "serpentinized dunite" 
 is composed mainly of faulted and partly serpentinized 
 dunite and saxonite and in some cases includes steatitized 
 material. However, most of it consists of dark olive- 
 green olivine showing some alteration to various second- 
 ary magnesium minerals. Included in this classification 
 is material containing at least 40 per cent magnesia 
 suitable for some refractory and most chemical processes. 
 This type of olivine rock usually occurs near the borders 
 of the deposit. 
 
 In most cases the topography has been shown on the 
 maps by contours of 50-foot intervals. The elevations 
 were determined with an aneroid barometer. The ton- 
 nage calculations for each of the deposits are based only 
 on the olivine and dunite occurring above the local drain- 
 age level and are therefore very conservative. This is 
 the material that could be produced from the deposit by 
 a gravity-draining quarry. It is thought that in all 
 deposits more olivine occurs below this level than has 
 been included in the above calculations. Underground 
 mining methods could be used on many of the deposits 
 but this is not necessary because of the existence of 
 
of North Carolina and Georgia 
 
 41 
 
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12 
 
 FORSTERITE < >I.I\ INK DEPOSITS 
 
 numerous excellent quarry sites having high-grade 
 olivine with little or no overburden. The specific gravity 
 was determined on seventy representative olivine sam- 
 ples taken from the various deposits in the area. The 
 average specific gravity 40 of the olivine was found to be 
 3.17. From this specific gravity the olivine was calcu- 
 lated to weigh about 200 pounds per cubic foot, which 
 figure was used in making the tonnage estimates. 
 
 In making the tonnage estimates, the areal extent of 
 the two grades i'or each deposit was determined from the 
 geologic map by use of a grid system. The volume 
 determination was made separately for the area between 
 each contour interval. The depth was determined by the 
 local drainage condition at each deposit. The total ton- 
 nage for each of the olivine areas is listed in the following 
 table: 
 
 Table. — Olivine Reserves in the Tennessee Valley Region. 
 
 \ki \ 
 
 Frank 
 
 Toecani- 
 
 Canton-Democrat.. 
 
 fir-Balsam.... 
 
 EUijay 
 
 Relatively Unaltered 
 ( divine 
 
 + 45% Magnesia 
 — 2% Ignition Loss 
 
 Buck Creek-Shooting 
 Creek 
 
 Burton Lake 
 
 Laurel Creek 
 ( hlit r areas (estimated) 
 Total Reserves 
 
 (tons) 
 2,250,000 
 
 4.800,000 
 
 10,090,000 
 
 122,690,000 
 
 20,020,000 
 
 60,000,000 
 
 1,440,000 
 
 i:. ooo, ooo 
 
 Serpentinized Dunite 
 
 40% to 45% Magnesia 
 
 + 2% Ignition Loss 
 
 233,290,000 
 
 (tons) 
 10,550,000 
 
 23,800,000 
 
 69,230,000 
 
 334,000,000 
 
 56,340,000 
 
 325,000,000 
 25,000,000 
 17,650,000 
 85,000,000 
 
 946,570,000 
 
 Total Reserves 
 Per Area 
 
 (tons) 
 
 12,800,000 
 
 28,600,000 
 
 79,320,000 
 
 456,690,000 
 
 76,360,000 
 
 385,000,000 
 25,000,000 
 19,090,000 
 97,000,000 
 
 1,179,860,000 
 
 M Determined by Jolly balance at TV A Minerals Testing Laboratory, Norris, Tennessee. 
 
of North Carolina and Georgia 43 
 
 FRANK AREA 
 
 The Frank area contains approximately 2,250,000 
 tons of relatively unaltered granular olivine and 
 10,550,000 tons of serpentinized dunite. This area is in 
 the western part of Avery County, North Carolina, about 
 45 miles northeast of Asheville. It extends from Plum- 
 tree northward to near Cranberry, a distance of about 
 nine miles, and is about five miles wide. The area lies 
 within rugged mountains; the southern two-thirds is 
 drained by the North Toe River and the remaining third 
 by the Watauga River, both of which are part of the 
 Tennessee River system. U. S. Highway No. 19E 
 traverses the area lengthwise and the E.T. & W.N.C. 
 narrow-gauge railroad serves the northern half of the 
 area. 
 
 Two deposits, the Frank and Senia, were mapped and 
 sampled. Several other deposits occur within the area, 
 but they were not mapped or sampled, because they were 
 located at somewhat inaccessible places, and were there- 
 fore of little importance for immediate future produc- 
 tion of olivine. 
 
 THE FRANK OLIVINE DEPOSIT 
 
 The Frank olivine deposit occurs at Frank, N. C, 
 about two miles south of Minneapolis, N. C, on a branch 
 of the E.T. & W.N.C. railroad. U. S. Highway No. 19 
 passes near the western and northern sides of the deposit, 
 and the North Toe River flows adjacent to and across 
 part of the formation. This deposit is well exposed in 
 two barren hills on the south side of the river (see Plate 
 10, Fig. A). The larger and westernmost hill rises 
 about 300 feet above river level. The Frank deposit is 
 about 1400 feet long and averages about 400 feet in 
 width. 
 
 Slip-fiber anthophyllite asbestos, which occurs in the 
 contact zone of the formation and in many of the in- 
 terior faults, has been produced intermittently for many 
 
1 1 
 
 Forsteri i e i n.i\ ink Deposits 
 
 Plate LO 
 
 I 
 
 l"i..i 1:1 A Barren outcrop of olivine showing asbestos and talc prospects. 
 
 '•^'.i 
 
 Kn.i 1:1 l', olivine outcrop showing thin overburden. 
 
 
 
 Piotjki C. Outcrop of < oarse-grained olivine showing sharp edges on the 
 boulders which indicate the absence of weathering. 
 
of North Carolina and Georgia 
 
 45 
 
 years from this deposit. Vermiculite and a rather pure 
 foliated apple-green talc are associated with the asbestos 
 and have been mined to a limited extent. 
 
 A north-south faulted or squeezed zone near the 
 middle divides the deposit into two parts (see Plate 11 ). 
 The eastern part, which outcrops as a rounded barren 
 
 Plate 11 
 
 bCALE 
 
 CONTOUR INTERVAL SOTEET 
 DATUM MEAN SEA LEVEL 
 
 FRANK DEPOSIT 
 
 LEGEND 
 
 RELATIVELY UNALTERED GRANULAR OLIVINE 
 
 SERPENTINIZED DUNITE 
 TALCY VERMICULITE FRINGE ZONE 
 BIOTITE SCHIST 
 Y/A HORNBLENDE GNEISS 
 
16 FORSTERITE < M.i\ INK DEPOSITS 
 
 hill, contains very little overburden except for some 
 residua] material between the dunite boulders. This 
 part, composed mostly of coarse-grained granular olivine 
 (see Plate 10, Fig. B), contains irregular areas of closely 
 
 spaced, small chromite crystals. Hand specimens from 
 the interior of the olivine boulders show little serpentini- 
 zation to the unaided eye: however, near the faulted or 
 squeezed zone there occur small areas that have been 
 almost completely changed to serpentine, but these are 
 small and closely associated with the slip-fiber asbestos. 
 Several small pegmatites of no economic value outcrop 
 on the northern slope of this hill. 
 
 The western part of this formation, the larger of the 
 barren hills, is composed mostly of a fine-grained granu- 
 lar olivine, which consists partly of the interlocking 
 crystalline variety. Here, the olivine ranges from dull 
 green to light brown in color, while that on the opposite 
 hill is of a darker green variety. Few accessory minerals, 
 except large crystals of dark green chlorite in thin veins, 
 occur with the olivine on the western hill. Overburden 
 here, as well as elsewhere on the deposit, is rather thin, 
 usually less than five feet. The western contact is of 
 particular interest because at this point the hornblende 
 schist dips at about 10 degrees to the southeast under 
 the dunite, and there appears to be a rather sharp con- 
 tact 1 tot ween these two basic materials, a condition which 
 is indicative of a fault contact. 
 
 The Frank deposit contains about 2,250,000 tons of 
 relatively unaltered granular olivine and about 9,750,000 
 tons of serpentinized dunite above river level. The 
 eastern part of the deposit offers good possibilities for 
 quarry sites; and, no doubt, some asbestos, talc, and 
 vermiculite could be obtained from any large-scale 
 operation here. 
 
of North Carolina and Georgia 47 
 
 petrographic analysis "" 
 
 Sample — Frank B-l. The principal constituents of this 
 specimen are olivine (70 to 80 per cent), the fer- 
 ruginous enstatite, bronzite (10 to 15 per cent), 
 chlorite (about 5 per cent), chromite (less than 1 
 per cent), a small amount of antigorite, and a 
 few crystals of talc. 
 
 Most of the olivine occurs as large crystals, 1 to 
 2 mm. in diameter. In the areas where the 
 bronzite is found the olivine crystals are much 
 smaller. The olivine is fairly high in iron, indi- 
 cated by iron oxide in the antigorite alterations 
 along crystal boundaries. 
 
 The chlorite was observed in several fairly large 
 areas and surrounding the chromite crystals. 
 Sample Frank B-l has a P.C.E. value" of +36. 
 
 THE SENIA DEPOSIT 
 
 The Senia deposit, a mile southwest of Frank Post 
 Office, N. C, outcrops at the mouth of Roaring Creek in 
 a road cut along U. S. Highway No. 19E. Thick horn- 
 blende talus conceals much of the formation, but it is 
 thought to be about 800 feet long and 300 feet wide. 
 Olivine exposed in the road cut, about 25 feet above creek 
 level, is a fine-grained granular bluish variety containing 
 chlorite flakes. This deposit is estimated to contain 
 800,000 tons and is suitable for only a relatively small 
 quarry operation. 
 
 Similar deposits occur to the north and east of Frank, 
 N. C, but were not sampled because of their occurrence 
 at points so inaccessible that they are of little value for 
 immediate production. These deposits are likely to enter 
 
 •'"' Petrographic analysis made by W. Wurth ECriegel, Department ol Ceramic Engineer- 
 ing, University of North Carolina, Raleigh, North Carolina. 
 
 ■' \|| |'. c. !•,. values in tins report were determined by Gilbert C Robinson, l\ \ 
 Minerals Testing Laboratory, Norris, Tennessee. P C I is abbreviation of pyro 
 metric cone equivalent which is used to designate the softening or melting tempera 
 tuns ol ceramic materials. P. C. E. value ol I ; <> means that the sample began to 
 soften at a temperature "I 1800 degrees C. The temperature ol thi olivini cones 
 were brought up to P. C. E. value of 29 at a fast rate and thereafter fired at the standard 
 rate set by the American Ceramic Soeit t \ 
 
18 Fors ["Erite < )i.i\ ink Deposits 
 
 into production when the demand is sufficient to justify 
 the building of access mad.-. 
 
 TOECANE AREA 
 
 The Toecane area is characterized by fine-grained 
 dunites and saxonites that have a distinctive yellow color 
 dm the weathered surface. This area is estimated to con- 
 tain 1,800, I tons of relatively unaltered granular 
 
 olivine and 23,800,000 tons of serpentinized dunite and 
 saxonite. 
 
 The area is about 30 miles northeast of Asheville, 
 \\ C. and extends from near the center of Yancey County 
 to a short distance beyond Bakersville in Mitchell County. 
 This area is about 12 miles long and 8 miles wide. The 
 Toe River flows from east to west across the middle of 
 the area and the Clinchfield (('.('. & O.) railroad closely 
 parallels the river. The northern end is served by State 
 Highway No. 19 and the southern by U. S. Highway No. 
 19E, with many connecting good gravel roads. The 
 whole area lies in mountainous terrain, and the entire 
 drainage is into the Toe River, a part of the Tennessee 
 River system. 
 
 THE DAY BOOK DEPOSIT 
 
 The largest and most outstanding peridotite in the 
 Toecane area is the Day Book deposit occurring about 
 three miles north of Burnsville, Yancey County, N. C, 
 on Mine Fork of Jacks Creek two and one-half miles 
 southwest of the Clinchfield (C.C. & O.) railroad station 
 at ( Ireen Mountain. 
 
 The Day Book deposit is about 2,000 feet long and 
 600 feet wide, outcropping as two hills on both sides of 
 Mine Fork Creek (see Plate 12). Each hill rises to about 
 L75 feet above the creek level. The steep sides of the 
 deposit, facing the creek, have practically no overburden. 
 Veins of chromite occur in the dunite at the extreme 
 southwest and northeast ends. This chromite has been 
 prospected at the southern end of the formation by means 
 
of North Carolina and Georgia 49 
 
 of several pits and at the northern end by means of a 
 shaft more than 100 feet deep. Both of these locations 
 are well above the creek level ; the chromite content, how- 
 ever, is probably too low to be worked economically. 
 
 This peridotite consists of partly altered and rela- 
 tively unaltered dunite and saxonite. Much of the outer 
 portion has been altered by hydrothermal solutions, while 
 the relatively unaltered material occurs as a lens-shaped 
 zone near the center of the formation. 
 
 The dunite is composed of fine-grained olivine and 
 small crystals of chromite (see Plate 5, Fig. A). Much 
 of this material is extremely friable, and has a grain size 
 of about 0.2 mm, which is smaller than that of the aver- 
 age olivine. However, near the chromite concentrations, 
 the olivine is quite coarse. Individual grains, ranging 
 from 3 to 4 mm in diameter, were noticed near the 
 chromite pits south of Mine Fork Creek. The degree of 
 serpentinization in the dunite is comparatively small. 
 
 The saxonite is composed essentially of fine-grained 
 friable olivine, many bronzite crystals, and small 
 amounts of chromite (see Plate 5, Fig. B). This rock 
 occurs surrounding, and as fault blocks within, the 
 dunite. In most cases the bronzite, often comprising 15 
 per cent of the rock, has been partly or completely altered 
 to talc. 
 
 The second largest olivine quarry in North Carolina 
 is located above the road in the west central part of the 
 formation (see Plate 13, Fig. A). This quarry has been 
 an intermittent producer of olivine for about five years. 
 The olivine produced is divided into two types. Grade 1 
 consists of fine-grained friable, fresh material containing 
 practically no accessory minerals except chromite. This 
 grade is produced almost entirely from the dunite. Grade 
 2 is a fine-grained, friable olivine which contains talc 
 in noticeable quantities. Most of the talc is an alteration 
 product of the bronzite. Near the faults and Larger 
 

 Kors 1 1 1:1 1 1 ( nix i\i Deposits 
 
 I 'I VI K L2 
 
 SCALE 
 
 2SO 
 
 CONTOUB INTERVAL SO FEET 
 DATUM A5SUMED 
 
 DAY BOOK DEPOSIT 
 
 LEGEND 
 
 fcX:l RELATIVELY UNALTERED GRANULAR OLIVINE 
 
 SERPENTINIZED DUNITE 
 I TALCY VERMICJlITE FRINGE ZONE 
 LZJ BIOTITE SCHIST 
 223 HORNBLENDE GNEISS 
 
of North Carolina and Georgia 
 
 51 
 
 Plate 13 
 
 Figure A. — Olivine quarry after blast. Note vertical drill holes in quarry face 
 
 * ' m 
 
 'igi re I?.- -Small olivine quarry in large residual boulders of dunite. 
 
52 
 
 Kors i ri;i 1 1: I m.i\ i\i I DEPOSITS 
 
 joints in the Day Rook deposit the olivine shows signs of 
 chloritization. This material is discarded when en- 
 countered in quarrying. The Day Book deposit has 
 excellent topography Tor two large quarries. This 
 
 deposit is estimated to contain o,l<so,()()() tons of rela- 
 tively unaltered granular olivine and 6,710,000 tons of 
 serpentinized dunite above the level of Mine Fork Creek. 
 
 CHEMICAL ANALYSIS 
 
 Average of Five Commercial Shipments"'- 
 
 MgO 
 
 
 F« 
 7.60 
 
 MM 
 
 CaO 
 
 \lk. 
 
 Ign. Loss 
 
 Total 
 
 W 77 
 
 in 93 
 
 1.32 
 
 0.29 
 
 0.13 
 
 L.09 
 
 100.13 
 
 
 Fine-grained Dunite Relatively Unaltered Olivine 
 
 
 Samples" 
 
 MgO 
 
 SiO 
 
 Fe 2 < h 
 
 Ti, Cr, \1, 
 (Oxides) 
 
 CaO 
 
 lull. Loss 
 
 Daj 
 
 Book \-l 
 
 1 1 n 
 
 in 
 
 7.66 
 
 2.18 
 
 0.00 
 
 0.63 
 
 FlNE-ORAINED SAXONITE PARTLY ALTERED 
 
 mpli s 1 
 
 MgO 
 
 SiOj 
 
 Ft .< » 
 
 Ti. Cr, \l. 
 (Oxides) 
 
 CaO 
 
 Ign. Loss 
 
 Da) Book \-2 
 
 45.92 
 
 12 40 
 
 8.62 
 
 L.06 
 
 0.00 
 
 1 23 
 
 
 
 
 
 PETROGRAPHIC ANALYSIS 
 
 Samplr — Day Rook A-l. (Fine-grained dunite.) The 
 principal constituent of this rock is quite fresh 
 olivine constituting about 95 per cent of the 
 whole. The crystals vary in size between 0.1 and 
 1.0 mm., averaging about 0.3 mm. 
 
 Two thin stringers of talc were observed cut- 
 ting through the hand specimen. No estimate 
 
 Vnalysis by John Boyd of the United Feldspar and Mineral Company, Spruce Pine, 
 North Carolina 
 : ' Chemical analysis madi by TV A Minerals Testing Laboratory at Xorris. Note that 
 samples Day npok \-l and V-2 are similar to specimens shown on Plate 5. 
 Petrographic analysis made by W. Wurth Kriegel, Department of Ceramic Engineer- 
 ing, University of North Carolina, Raleigh, North Carolina. 
 Note that samples Day Book A-l and A-2 represent material as shown on Plate 5. 
 
OF North Carolina and Georgia 53 
 
 can be made of the amount present; however, it 
 is evidently small. 
 
 The rock also contains about 1 to 2 per cent of 
 chromite crystals scattered throughout the rock 
 and a small amount of chlorite (less than 1 per 
 cent). 
 Sample™ — Day Book A-2. (Altered fine-grained saxonite.) 
 The principal constituent of this rock is a quite 
 fresh, low-iron olivine making up about 60 to 70 
 per cent of the rock. The olivine shows a small 
 amount of alteration to antigorite along crystal 
 boundaries. The olivine crystals are rather 
 small, varying in size between 0.05 and 0.3 mm. 
 
 In addition to the olivine, the rock contains 
 about 10 per cent each of long prismatic crystals 
 of tremolite and nodular aggregates of talc. The 
 tremolite crystals were found cutting through 
 the olivine and also in the talc areas. Much of 
 the talc contains inclusions of brown substances 
 too fine to identify. Probably these inclusions 
 are from the original rock from which the talc 
 was formed. A few small remnants of a pyroxene 
 mineral, probably bronzite or hypersthene, were 
 observed. 
 
 Scattered crystals of chromite (1 to 2 per cent) 
 were observed throughout the rock. Surrounding 
 the chromite are bladed crystals of chlorite. 
 Chlorite was observed in other areas. The total 
 amount of chlorite is estimated at about 5 per 
 cent. 
 
 P. C. E. VALUE 
 
 Sample Day Book A-l has a P. C. E. Value of h36. 
 
 THE NEWDALE OLIVINE DEPOSIT 
 
 The Newdale olivine deposit is located one and three- 
 fourths miles east of Micaville, Yancey County, North 
 Carolina and one-fourth of a mile up Mine Branch, a 
 tributary of South Toe River. The Clinchfield (C.C. & 
 0.) railroad at Boonford is within one and one-half 
 miles of the deposit. 
 
 5fi 
 
 Note that sampKs l).iv Book A-l and A-2 represent material .i^ shown on Plate 5, 
 
:. I 
 
 KoRS 1 1 1:1 1 1 < »i.i\ im: I DEPOSITS 
 
 Plate i i 
 
 
 
 ~F=I~ 
 
 500 
 
 =1 
 
 CONTOUR INTERVAL 50 FEET 
 DATUM MEAN SEA LEVEL 
 
 NEWDALE DEPOSIT 
 
 1000 FEET 
 
 LEGEND 
 
 fjv^j RELATIVELY UNALTERED GRANULAR OLIVINE 
 SERPENTINI2ED DUNITE 
 TALCY VERMICULITE FRINGE ZONE 
 BIOTITE SCHIST 
 
 £2 HORNBLENOE GNEISS 
 
of North Carolina and Georgia 55 
 
 The dunite outcrops on two low hills, about 125 feet 
 high, on each side of the road (see Plate 14). The 
 formation is approximately 1800 feet long and 500 feet 
 wide, most of which is barren or covered with small scrub 
 growth. 
 
 The olivine in this deposit is similar to that at Day 
 Book in that it is extremely fine grained, pale green and 
 yellow in color. However, scattered olivine crystals 
 occur as large as 1 ! •> inches in diameter at several places 
 throughout the formation. Near the middle portion of 
 the formation large chromite octahedron crystals are 
 rather conspicuous, but these, upon close examination, 
 are found to be thinly spaced in the formation. No 
 saxonite was observed. 
 
 Along the southeastern part of this deposit there 
 occurs a barren bluff in the dunite. Here the formation 
 consists of a gray-green, inter-locking, crystalline, tough- 
 type olivine. The grain size is larger than is usually 
 found in this variety. 
 
 One of the outstanding structural features of this 
 deposit is the occurrence of smooth and straight vertical 
 joints extending as much as 75 feet through the dunite. 
 Expansion joints parallel to the surface (see Plate 15, 
 Fig. A) are important structural features found in all 
 the fine-grained dunites. The southwestern nose of the 
 formation contains a fringe about 50 feet wide of soap- 
 stone and interlocking anthophyllite asbestos. Most all 
 the olivine occurring along the southern contact of the 
 formation, is highly serpentinized and contains small 
 areas of soapstone and anthophyllite asbestos. This 
 deposit has suitable topography for two or more quarry 
 sites in granular and relatively fresh olivine. It is esti- 
 mated that the Newdale deposit contains 1,560,000 tons 
 of relatively unaltered granular olivine and 5,090,000 
 tons of serpentinized dunite above South Toe River. 
 
56 
 
 Fors ii kitk < Olivine Deposits 
 
 Plate r> 
 
 Pioi 1:1 A Dunite outcrop showing thin overburden and expansion joints 
 
 paralleling the surface. 
 
 Fi..i in B Vermii ulite prospect exposing fault zone in dunite. Note the 
 broken condition of the olivine, vertical fault face at left of 
 picture, and slickensided talc (white) on boulders. 
 
of North Carolina and Georgia 
 
 57 
 
 chemical analysis 
 
 Commercial Shipments of Olivine" 1 ' 
 
 MgO 
 
 SiO, 
 
 Fe 2 3 
 
 A1 2 3 
 
 Ca( ) 
 
 Ign. Loss 
 
 Total 
 
 47.81 
 
 41.06 
 
 7.27 
 
 1.53 
 
 .24 
 
 2.43 
 
 100.34 
 
 Sample Newdale B-l has a P.C.E. value of +36. 
 
 THE BAKERSVILLE OLIVINE DEPOSIT 
 
 The smallest peridotite sampled in the Toecane area 
 is the Bakersville olivine deposit located on White Oak 
 Creek, one mile southeast of Bakersville, Mitchell County, 
 N. C, and two and one-half miles east of the Clinchneld 
 (C.C. & 0.) railroad station at Toecane. This deposit 
 outcrops on the nose of a low hill south of White Oak 
 Creek. While all of the dunite is not visible because of 
 overburden, it is thought to be about 300 feet long and 
 60 feet wide. The highest outcrop is only 30 feet above 
 White Oak Creek. The olivine is medium-grain, granu- 
 lar, and semi-friable with a high uniform chromite 
 content. The most unique feature about this deposit is 
 the presence of chrysotile asbestos which occurs as seams 
 up to 6 inches thick and as individual fibers and clusters 
 of fibers penetrating individual olivine grains. This 
 deposit is estimated to contain 50,000 tons of relatively 
 unaltered granular olivine above White Oak Creek. 
 
 The deposits described above are by no means all the 
 olivine deposits occurring in the Toecane area. However, 
 they do represent the most important. Other deposits, 
 such as the one near Loafers Glory, were not sampled 
 because they had undergone extreme hydrothermal 
 alteration, or because their location was inaccessible for 
 commercial production. 
 
 67 Analysis made liy John Boyd, United Feldspar & Mineral Company, Spruce l'm< 
 North Carolina 
 
Forsti rite < >i.i\ i.\k Deposits 
 
 CANTON-DEMOCRAT AREA 
 
 The Canton-Democrat area is estimated to contain 
 10,090,000 tons of relatively unaltered granular olivine 
 and 69,230,000 tons of serpentinized dunite. 
 
 This area extends as a belt about 10 miles wide, from 
 Junaluska in Haywood County, to Barnardsville in Bun- 
 combe County, a distance of about 30 miles. The center 
 of this area is about 8 miles west of Asheville, N. C. In 
 contrast to the usual rugged topography of western 
 North Carolina, this area consists of large rolling hills, 
 and wide-bottomed valleys. Drainage is directly or in- 
 directly into the French Broad River which flows across 
 the center of the area. 
 
 The Asheville-Knoxville branch of the Southern Rail- 
 way crosses the center of the area; and the Asheville- 
 Murphy branch crosses the southwestern end. U. S. 
 Highways 70 and 25, and 19 and 23 supplemented by 
 State Highways 63, 197, and 209, are important routes 
 for local commerce. Asheville, N. C, a few miles south 
 of the area, is the largest and the most important city in 
 western North Carolina, and because of its central 
 location should become an important olivine-processing 
 center. 
 
 THE HOLCOMBE BRANCH OLIVINE DEPOSIT 
 
 The Holcombe Branch olivine deposit is located one 
 and one-half miles north of Democrat and 15 miles north 
 of Asheville on both sides of Holcombe Branch in Madison 
 County, North Carolina. The deposit is very irregular 
 in outline, the maximum length being about 3,000 feet 
 and the maximum width approximately 1,500 feet. The 
 formation is somewhat broken up by faults and it con- 
 tains several schist inclusions. The part of the forma- 
 tion lying south of Holcombe Branch has been the most 
 disturbed and contains a higher percentage of soapstone 
 than does the northern half. Much of the northern half 
 of the formation, especially the area near a small branch 
 
of North Carolina and Georgia 
 
 59 
 
 Plate 16 
 
 CONTOUR INTERVAL 50 rttT 
 DATUM ASSUMED 
 
 HOLCOMBE BRANCH DEPOSIT 
 
 LEGEND 
 F: : :*:1 relatively unaltered granular olivine 
 K#3 serpentinized dunite 
 
 ] TALCY VERMICULITE FRINGE ZONE 
 BIOTITE SCHIST 
 f^^ HORNBLENDE GNEISS 
 
60 Fobs i i ri it: < Olivine Deposits 
 
 in the western part, is granular, and light yellow in color 
 but apparently relatively sound (sec Plate 16). Chromite 
 crystals art- rather conspicuous in the material and 
 secondary minerals such as tale and chlorite are mostly 
 confined to .joints. The surface part of boulders and 
 outcrops are exceptionally friable. The parts of the 
 Ilolcomhe Branch deposit that are fine-grained and 
 yellow in color are similar in appearance to the Day Book 
 and Newdale material. This deposit contains about 
 :;..">:'. 1 1, nnn tons of relatively unaltered granular olivine 
 and 1 T.onn, 1 1()0 tons of serpentinized dunite above Hol- 
 combe Branch level. The granular material can be 
 quarried or mined below Holcombe Branch level so that 
 the economicallv recoverable olivine is about twice the 
 amount given above. During early 1941 a new quarry 
 and crushing plant was opened on the Holcombe Branch 
 deposit which makes this the third active producer of 
 olivine in the TVA region. 
 
 PETROGRAPHIC ANALYSIS^ 
 
 Sample — Holcombe Branch Dunite. The dunite (the 
 Holcombe Branch area) is composed of a fine- 
 grained laminated rock, varying in color from 
 light yellowish green to dark green and almost 
 I ilack. With the exception of occasional grains 
 and crystals of chromite, no constituent but olivine 
 is visible. 
 
 .Most of the sections show a very fine-grained 
 lock, the grains averaging 0.1 to 0.2 mm. in diam- 
 eter, but with crossed nicols these are found to 
 polarize together over considerable area, showing 
 the grains to have been originally 0.6 to 1 mm. in 
 diameter. ... In all cases the granules are sep- 
 arated from each other by a thin development of 
 yellowish or greenish serpentine. 
 
 " Pratt and Lewis, op. til., p. 108. 
 
of North Carolina and Georgia 61 
 
 Sample Holcombe Branch A-2 has a P.C.E. value 
 of +36. 
 
 THE DEMOCRAT DEPOSIT 
 
 The Democrat deposit occurs in Buncombe County 
 one and one-half miles southwest of the Holcombe Branch 
 deposit. This deposit is one-half mile west of Democrat 
 and extends from Ivy Creek southwestward for one and 
 one-half miles. The formation is approximately 600 
 feet wide at its northern end and tapers gradually to a 
 narrow belt at the southwestern end. 
 
 Most of the formation is covered with residual over- 
 burden and in many places it is as much as 20 feet thick. 
 However, adjacent to Ivy Creek the overburden is thin 
 where the grade is fairly steep. The entire formation 
 is serpentinized to such an extent that it is noticeable in 
 all the outcrops. The dark serpentinized streaks obscure 
 much of the chromite occurring as disseminated crystals 
 throughout the olivine. The formation is cut by several 
 large pegmatites, two of which are intermittently worked 
 for high-grade feldspar (see Plate 17, Fig. A). Nickel 
 silicate minerals occurring in cracks, joints, and as in- 
 crustations are visible wherever there is a good exposure 
 of the formation. Many years ago the formation was 
 prospected for nickel minerals comparable to those occur- 
 ring at Webster, N. C. 
 
 This deposit is not well suited for the production of 
 olivine alone, but it is worthy of attention because of the 
 occurrence of nickel silicate minerals and disseminated 
 crystals of chromite in the partly serpentinized dunite. 
 This formation probably contains as much chromite as 
 any in the entire olivine belt, It is estimated that the 
 Democrat deposit contains 25,000,000 tons of serpen- 
 tinized dunite and 2, 000, ()()() tons of relatively unaltered 
 granular olivine above Ivy Creek level. 
 
62 
 
 FORSTERITE < M l\ INK DEPOSITS 
 
 Plate it 
 
 Fh.i i;i A. Large pegmatite in dunite. Note small pegmatite in top contact, 
 sheared talc above, and dark-colored serpentinized dunite in top 
 right corner. 
 
 
 Pigi isk R. — Dunite showing joint systems. 
 
of North Carolina and Georgia 
 
 »;:; 
 
 chemical analysis 
 
 Highly Serpentinized Dunite 
 
 Sample 60 
 
 MgO 
 
 Si< h 
 
 Fe 2 ( ), 
 
 Ti, Cr, VI, 
 (Oxides) 
 
 CaO 
 
 [gn. Loss 
 
 Democrat A-1 
 
 45.39 
 
 40.18 
 
 8 . 94 
 
 1.48 
 
 0.00 
 
 3 . 76 
 
 .<il 
 
 PETROGRAPHIC ANALYSIS 
 
 Sample — Democrat, A-1. The rock appears to have been 
 nearly all olivine before alteration, which is quite 
 extensive at crystal boundaries. The olivine 
 crystals vary in size between 0.1 and 1.2 mm. with 
 an average diameter of about 0.4 mm. 
 
 The alteration product of the olivine is chryso- 
 tile serpentine with a small amount of antigorite. 
 The chrysotile fibers are very short with a maxi- 
 mum observed length of 0.1 mm. The serpentine 
 appears to make up 10 to 15 per cent of the rock. 
 
 Occuring with the olivine crystals are small 
 (maximum of 0.1 mm.) crystals of a pyroxene 
 which appears to be diopside. The pyroxene con- 
 stitutes about 2 to 3 per cent of the rock. 
 
 A small quantity (less than 1 per cent) of 
 chromite and a negligible quantity of chlorite were 
 observed. 
 
 THE JUNO DEPOSIT 
 
 The Juno deposit occurs one and three-fourths mile 
 southeast of Leicester, Buncombe County, N. C, and 
 about five miles northwest of Asheville. This is a serpen- 
 tine deposit and is described here because it is probably 
 the only occurrence of its kind in the entire olivine belt. 
 The serpentine body is about 800 feet long and approxi- 
 mately 60 feet wide with most of this area containing 
 little or no overburden. The serpentine is dark green in 
 color and highly fractured. A few fragments of the 
 
 59 ( Ihemical analysis made by 'I V \ Minerals Testing Laboratory, Norris, I < mi. 
 ''" Sum pie I )( nion.it \-l similar to material shown in Plate 7, Fig. C. 
 1,1 Petrographic analysis made by W. Wurth Kriegel, Department ol Ceramic Engineer- 
 ing, University of North Carolina, Raleigh, N i 
 
6 1 Fors i erite < Olivine Deposits 
 
 original olivine arc noticeable in some of the freshly 
 broken pieces of the serpentine; the original chromite 
 crystals, however, have heen unaffected and in some 
 places arc rather conspicuous. Cracks and seams in the 
 material arc filled with visible secondary magnetite. 
 Talc and chlorite occur along many of the joints in the 
 serpentine; also associated with the joints are impure 
 chalcedony and possibly remnants of nickel silicate 
 minerals. 
 
 Outcrops of the Juno deposit are light gray in color 
 and the weathered material is porous, with a specific 
 gravity about one-third less than that of the fresh 
 material. The weathering extends to a depth of about 
 10 feet. The Juno deposit contains about 95,000 tons of 
 "quarrable" serpentine. 
 
 PETROGRAPHIC ANALYSIS'" 
 
 Sample — Juno, A-2. The major constituent of this rock is 
 antigorite serpentine. Of the original rock only 
 pseudomorphs of a compact, moderate relief, low 
 birefringent mineral remain. The properties are 
 very similar to those of the antigorite with the 
 exception of a slightly higher birefringence. Some 
 of these remnants are stained by iron oxide. It 
 might be that these are the mineral bastite formed 
 from olivine. 
 
 The black banding is the result of high concen- 
 tration of small crystals of magnetite in those 
 areas. A few crystals of chromite were observed. 
 
 P. C. E. VALUE 
 
 Sample Juno A-l has a P.C.E. value of 23 to 26. 
 
 One-fourth of a mile west of this deposit, the state 
 highway crosses a dunite body which is about 800 or 
 900 feet wide. The material in this deposit is extremely 
 serpentinized and weathered, so it is of doubtful value 
 as an olivine deposit. Many other small and similar 
 deposits occur in this same vicinity. 
 
 Pi trographic analysis made by W. Wurth Kriegel, Department of Ceramic Engineer- 
 ing University of North Carolina, Raleigh, N. C. 
 
of North Carolina and Georgia 65 
 
 newfound gap deposit 
 
 The Newfound Gap dunite occurs in Newfound Gap 
 on the Haywood-Buncombe County line about 15 miles 
 west of Asheville. This occurrence is five miles northeast 
 of the railroad station at Canton, N. C. 
 
 The Newfound Gap deposit is 1000 feet long and 250 
 feet wide at its widest point (see Plate 18). The dunite 
 occurs well above the local drainage system and it rises 
 abruptly in a steep hill south of the state highway. The 
 olivine in this formation is of a light green, granular, 
 friable type with crystals and large blebs of chromite 
 rather conspicuous throughout the mass. The olivine on 
 outcrops is relatively sound and the hand specimen shows 
 little alteration to serpentine. However, part of this 
 formation, especially near the southern part, consists of 
 brownish interlocking crystalline olivine probably of 
 inferior refractory properties. Near the northeastern 
 end where the highway crosses the formation the dunite 
 is of the bluish tough variety containing chlorite. 
 
 The topography of this deposit is well suited for a 
 quarry and its location is within trucking distance of 
 Canton or Alexander, N. C. It is estimated that this 
 deposit contains 1,310,000 tons of relatively unaltered 
 granular olivine and 6,640,000 tons of serpentinized 
 dunite. 
 
 Sample Newfound Gap A-2 has a P.C.E. value 
 of f -36. 
 
 THE HOMINY GROVE OLIVINE DEPOSIT 
 
 The Hominy Grove olivine formation occurs two and 
 one-fourth miles northeast of the railroad station at 
 Canton, Haywood County, N. C. The eastern end of the 
 deposit outcrops at the back of Hominy Grove Church. 
 This dunite is approximately 2,000 feet long and 200 
 feet wide with the long axis trending east and west. 
 Most of this formation is covered with thick overburden, 
 part of which was observed to consist of gravel and clay 
 
66 
 
 FORSTERITE < OLIVINE DEPOSITS 
 
 Plate is 
 
 SCALE 
 
 CONTOUR INTERVAL 30 FEET 
 DATUM ASSUMED 
 
 NEWFOUND GAP DEPOSIT 
 
 LEGEND 
 
 ■X-3 RELATIVELY UNALTERED GRANULAR OLIVINE 
 
 SERPENTINIZED DUNITE 
 
 TALCY VERMICULITE FRINGE ZONE 
 
 BIOTITE 5CHIST 
 
 HORNBLENDE GNEISS 
 
of North Carolina and Georgia 67 
 
 banks, probably terrace deposits from the Pigeon River. 
 The eastern quarter of the deposit is best exposed and 
 here the dunite, consisting of dark gray and green com- 
 pact interlocking grains of olivine, outcrops in erosion 
 gulches. This material in hand specimen shows indi- 
 cation of slight serpentinization. A small area adjacent 
 to the church was also observed to consist almost entirely 
 of a fresh coarse-grained granular olivine similar to that 
 occurring at Newfound Gap. This deposit is thought to 
 contain about 20,000,000 tons of serpentinized dunite 
 and 1,000,000 tons of relatively sound olivine. 
 
 WEBSTER-BALSAM AREA 
 
 The Webster-Balsam area is estimated to contain 
 122,690,000 tons of relatively unaltered granular olivine 
 and 334,000,000 tons of serpentinized dunite. This area 
 contains the largest reserve of olivine of all the areas. 
 
 The Webster-Balsam area is about 35 miles south- 
 west of Asheville and extends from near the center of 
 Jackson County northeastward to the Jackson-Haywood 
 county line at Balsam Gap, with a length of about 15 
 miles and a width of approximately 8 miles. The south- 
 western end of the area is in the Tuckasegee Valley where 
 low, rounded, hilly topography predominates and the 
 eastern end is in the rugged Balsam Mountains. The 
 Asheville-Murphy branch of the Southern Railway passes 
 through the area from end to end, and the Tuckasegee 
 and Southeastern branch line passes across Hie south- 
 western part of the area. The Webster-Balsam area is 
 well served by U. S. Highways Nos. 19 and 23 and 
 numerous secondary highways. 
 
 THE BALSAM GAP OLIVINE DEPOSIT 
 
 The Balsam Gap olivine deposit is in the eastern part 
 of Jackson County, one-half mile southwest of the 
 
 Southern Railway station at Balsam. U. S. Highways 
 Nos. 19 and 23 pass over the northern ^ml of this deposit. 
 
68 
 
 FORSTERII E I U.l\ INK I DEPOSITS 
 
 SCALE 
 a&o soo 
 
 CONTOU« INTERVAL 50 FEET 
 
 DATUM ASSUMED 
 
 BALSAM GAP DEPOSIT 
 
 LEGEND 
 RELATIVELY unaltered granular olivine 
 B8&3 SERPENTINIZEO DUNITE 
 
 TALCY VERMICULITE FRINGE ZONE 
 BIOTITE SCHIST 
 HORNBLENOE GNEISS 
 
of North Carolina and Georgia 
 
 69 
 
 Plate 20 
 
 Hi : 
 
 
 aH»-3& 
 
 -'^-r^** 
 
 
 I' 
 
 
 Figure A. — Olivine deposit showing usual conical shape. 
 
 Fiqube I'., olivine outcrop showing stunted vegetation common to man] 
 
 deposits. 
 
Til FORSTERITE I OLIVINE DEPOSITS 
 
 This deposit is about 2,000 feet long and approxi- 
 mately . s <»<» feet wide at the widest point, with the long 
 axis trending north and south (see Plate L9). The center 
 
 of the deposit lies :->f)() feet above the nearby drainage 
 system. This centra] portion, about 500 feet in diameter, 
 rises as an almost sheer bluff (see Plate 20, Fig. A) from 
 which huge boulders of olivine have rolled a considerable 
 distance down the slope. These boulders are rather 
 sound, and from a practical quarrying standpoint, are 
 not classified as overburden. The overburden consists of 
 residual boulder fragments and red soil derived from the 
 olivine. 
 
 The Balsam Gap deposit is composed of relatively 
 sound dunite and saxonite. Most of the saxonite and 
 altered materials are segregated near interior faults and 
 the borders of the formation. Much of the Balsam Gap 
 deposit is composed of light green, coarse-grained, friable 
 dunite containing few accessory minerals with little 
 visible serpentinization in the hand specimen (see Plate 
 4, Fig. A). About one-fourth of the deposit is made up 
 of coarse-grained and light green saxonite containing 
 spots of talc (see Plate 4, Fig. B). Upon close exami- 
 nation these talc blebs are found to be an alteration 
 product of the bronzite crystals which are rather numer- 
 ous in the saxonite. These bronzite crystals average 
 about one-fourth inch in diameter but some crystals were 
 observed with diameters of over one inch. At many 
 points, especially near the borders of the coarse-textured 
 dunite, there are small zones, often up to three feet wide 
 and several times this in length, of magmatic segregated 
 chromite intermixed with the olivine. An analysis of 
 this material made at the Minerals Testing Laboratory 
 shows that it contains 3.60 per cent of chromium oxide. 
 
 The Balsam Gap deposit is broken into large blocks 
 by numerous faults and joints. Partly because of its 
 occurrence high above the local drainage level, weather- 
 
of North Carolina and Georgia 
 
 71 
 
 ing and clay have penetrated downward along joints and 
 faults deep into the deposit. 
 
 The Balsam Gap deposit contains about 17,330,000 
 tons of relatively unaltered granular olivine and 32,860,- 
 000 tons of serpentinized dunite above Scott Creek level. 
 
 The first commercial production of olivine in the 
 United States came from a quarry in the Balsam Gap 
 deposit (see Plate 21, Fig. A). This quarry has been in 
 operation since 1933 and has produced more than half 
 of the olivine marketed from North Carolina. Another 
 quarry, 750 feet to the northeast, has been worked in- 
 termittently. The topographic features of this deposit 
 are such that large quarries on several sides of the 
 deposit can be operated simultaneously. 
 
 chemical analysis 
 
 Analysis of Commercial Shipments — Balsam Gap Olivine' 18 
 
 Samples 
 
 MgO 
 
 Si0 2 
 
 Fe 2 3 
 
 CaO 
 
 N 
 
 48.45 
 
 42.26 
 
 8.82 
 
 0.10 
 
 
 
 S 
 
 47.99 
 
 41.60 
 
 8.60 
 
 00 
 
 
 
 
 Relatively Unaltered Olivine 
 
 
 
 Samples 64 
 
 MgO 
 
 Si0 2 
 
 FeA 
 
 Ti, Al, Cr, 
 (Oxides) 
 
 CaO 
 
 Ign. Loss 
 
 Balsam Gap A-l 
 
 50.12 
 
 39.90 
 
 8.94 
 
 1 . 86 
 
 0.00 
 
 0.49 
 
 
 Slightly Altered Saxonite 
 
 
 
 Samples 64 
 
 MgO 
 
 Si0 2 
 
 Fe 2 0, 
 
 Ti, Al. Cr, 
 (Oxides) 
 
 Cal ) 
 
 1-11 1 ovs 
 
 Balsam ( lap A-2 
 
 47.00 
 
 41.34 
 
 8.78 
 
 1 .22 
 
 0.00 
 
 I 57 
 
 63 Chemical analysis by John Boyd, United Feldspar ami Minerals Company, Spruce 
 Bine. North Carolina. 
 
 M Sample A-l represents besl grade and Sample \-2 second gradi .i^ comrni rcially ship- 
 ped. Chemical analysis made bj I \ \ Minerals resting Laboratory, Morris, Tennes- 
 see. 
 
Plate 21 
 
 *- -^ ♦**,•■ .w : > 
 
 Figxjbe A. — Olivine Quarry. 
 
 ^ 
 
 ;t « 
 
 
 - 1 "i . 
 
 1 ><: l£iJ£? £•" ?T' 
 
 Figube B. — Screening ou1 tines in olivine quarry after blast. 
 
of North Carolina and Georgia 
 
 73 
 
 Coarse-grained Dunite Relatively Unaltered Olivine 
 
 Balsam Gap 
 
 Sam pits' 1 '' 
 
 MgO 
 
 Si0 2 
 
 Fe 2 O s 
 
 Al, Ti, Cr, 
 
 (Oxides) 
 
 CaO 
 
 [gn. Loss 
 
 B-2.. 
 
 50.14 
 
 39.96 
 
 10.70 
 
 0.74 
 
 0.00 
 
 0.33 
 
 C-l . 
 
 49.31 
 
 40.90 
 
 9.58 
 
 0.50 
 
 0.00 
 
 92 
 
 
 
 Coarse-grained Saxonite Partly Altered 
 
 
 Balsam ( lap 
 Samples 65 
 
 MgO 
 
 S,()., 
 
 Fe,0 3 
 
 Al, Ti, Cr, 
 
 (Oxides) 
 
 CaO 
 
 [gn. Loss 
 
 B-3 
 
 46.72 
 
 43. IS 
 
 9.10 
 
 1 . 30 
 
 0.00 
 
 0.69 
 
 Chromite in Dunite Relatively Unaltered Olivine 
 
 Balsam Gap 
 Samples 66 
 
 MgO 
 
 Si0 2 
 
 Fe 2 3 
 
 Al, Ti, Cr, 
 (Oxides) 
 
 CaO 
 
 [gn. Loss 
 
 B-l 
 
 47.80 
 
 38.62 
 
 9.74 
 
 5.90 
 
 0.28 
 
 0.31 
 
 
 
 P. C. E, VALUE 
 
 Sample Balsam Gap A-l has a P.C.E. value of +36 
 to 38. 
 
 Sample Balsam Gap A-2 has a P.C.E. value of +36. 
 
 PETROGRAPHIC ANALYSIS 
 
 Sample — Balsam Gap A-l. The rock consists essentially 
 of light green olivine, showing very little altera- 
 tion. The olivine crystals have a minimum size of 
 0.1 mm., a maximum of 5 mm., and an average of 
 about 3 mm. The crystals show less than normal 
 shattering. The rock contains a very small 
 
 '" Note thai Samples Balsam (lap 15-2 and C-l arc material Similar to t li.it in S| 
 
 shown m Plate 4, Fig. A, Sample B-3 is similai i<> specimen shown in Plati I. 
 and Sample B-l is material similar i<> specimen shown in Plate 1. Chemical ■ 
 made at TVA Minerals listing Laboratory, Nbrris, rennessee. 
 
 m Note that Samples Balsam (lap W-l ami I ' 1 an material similai In that in s| 
 
 shown in I 'Ian I, Fig. A, Sample B-3 is similar to specimen shown in Plate I. 
 ami Sample B-l is material similar m specimen shown in Plate 1. Chemical i 
 made at TVA Minerals resting Laboratory, Norris, rennesset 
 1,7 Petrographic analysis made by W. Wurth Kriegel, Department ol Ceramic Et 
 
 ing, University ol North Carolina, Raleigh, North Carolina. 
 
 lecimen 
 
 I ,, B, 
 
 inalj sis 
 
 u emu n 
 
 1,, B. 
 
 inalj sis 
 
 ijjini 1 1 
 
7 1 FORSTERITE OLIVINE DEPOSITS 
 
 amount (less than 1 per cent) of chromite and 
 magnel ite. 
 
 The vein thai is observed in the hand specimen 
 was found to be a fracture zone or band. Most of 
 the fractures are filled with very thin seams of 
 chrysotile and a few skeletons of magnetite. A 
 few small crystals of chlorite were also observed 
 in this zone. The vein makes up less than one 
 pei - cent of the hand specimen. 
 
 Sample — Balsam Gap A-2. The rock is quite highly al- 
 tered. The principal minerals are olivine (about 
 60 per cent), talc (20 to 30 per cent), antigorite 
 (about 5 per cent) , and a small amount of chlorite, 
 chromite, and magnetite. 
 
 The olivine grain sizes vary from 0.05 to 3 mm. 
 in diameter. About half of the rock is quite fresh, 
 with little fracturing. The remaining half is quite 
 shattered and shows alteration to antigorite. Of 
 many crystals, only remnants remain from the 
 alteration. A few of the grains show alteration 
 across the grains and along the borders to ferro- 
 mineral similar to bowlingite. Magnetite is found 
 in the fissures with the antigorite. 
 
 The talc appears to be an alteration product of 
 a pyroxene of which only ghost cleavages remain. 
 Several sections were found showing inclusions 
 and typical bronzite schiller structure. The talc 
 contains magnetite. 
 
 A few small crystals of chromite surrounded by 
 chlorite were found. Some of the chlorite is par- 
 tially altered to antigorite. 
 
 THE MIDDLETON DEPOSIT 
 
 The Middleton dunite occurs approximately 1,200 
 feet southwest of Balsam Gap deposit. The dunite is 
 about 180 feet wide and 400 feet long, which makes it 
 one of the smallest in the area. The main outcrop is on 
 the crest of a steepsided ridge, about 300 feet above a 
 tributary of Jones Creek. Most of the western half of 
 the deposit is altered to soapstone. 
 
of North Carolina and Georgia 75 
 
 Near the eastern extremity of this formation a small 
 pit blasted into the fresh dunite has exposed a medium- 
 grained, light green, friable olivine similar to that at the 
 Balsam Gap deposit. Accessory minerals are almost 
 entirely lacking in the exposed part of the deposit, except 
 talc occurring in narrow veins. This deposit contains 
 about 500,000 tons of relatively unaltered granular 
 olivine and 100,000 tons of serpentinized dunite. 
 
 DARK RIDGE DEPOSIT 
 
 One of the more important peridotite formations in 
 the Webster-Balsam area is the Dark Ridge olivine de- 
 posit. It is located along the Southern Railway, one and 
 one-fourth miles southwest of Balsam station, and 400 
 feet east of Dark Ridge trestle. The deposit occurs as 
 a north-south trending, lemon-shaped formation about 
 2,000 feet long, and has a maximum width of 900 feet. 
 
 The main part of the deposit forms an east-west spur 
 (see Plate 22) which rises abruptly from the nearly 
 valley floor to a height of about 400 feet. Dark Ridge 
 Creek crosses the southern part, and Jones Creek bounds 
 the northern end of the formation. The best exposures 
 are on the north side of Dark Ridge Creek where a bluff 
 of olivine rises steeply to a height 400 feet above creek 
 level. Other good exposures occur along the Southern 
 Railway cuts in the northern part of the deposit. 
 
 This peridotite is composed of unusually coarse- 
 grained dunite and saxonite. Two-thirds of the deposit 
 consists of relatively unaltered dunite, forming a large 
 lens-shaped core surrounded by saxonite. The dunite 
 consists of relatively sound, dark green, granular, friable 
 olivine. Giant shattered olivine crystals, as large as six 
 inches in diameter occur throughout the core. To the 
 unaided eye the material shows no signs of serpentini- 
 zation. Small crystals of chromite are visible throughoul 
 the dunite and at many places seams of massive chromite 
 outcrop. 
 
76 
 
 FORSTERITE < ILIVINE DEPOSITS 
 
 Plate 22 
 
 SCALE 
 250 500 
 
 COWTOU«» INTtBVAU 30 rtCT 
 DATUM ASSUMCD 
 
 DARK RIDGE DEPOSIT 
 
 LEGEND 
 
 RELATIVELY UNALTERED GRANULAR OLIVINE 
 
 SERPENTINIZED DUNITE 
 TALCY VERMICULITE FRINGE ZONE 
 BIOTITE SCHIST 
 ^2 HORNBLENDE GNEISS 
 
of North Carolina and Georgia 
 
 77 
 
 Plate 23 
 
 , 
 
 
 
 Fkk're A. — Refractory grades of block olivine. 
 
 Piguri B Crude forsterite olivine blocka ready for use in furnace walla 
 
78 
 
 FORSTERITE OLIVINE DEPOSITS 
 
 The saxonite occurs chiefly in the border zone of the 
 formation or as small fault blocks within the dunite. 
 The saxonite is partly altered to serpentine and steatite, 
 especially near the contacts. However, most of it is 
 relatively sound and is composed principally of coarse- 
 grained, granular, dark green olivine. The bronzite 
 crystals, often altered to talc, averages about one-fourth 
 inch in diameter, and makes up 10 per cent of the rock. 
 
 The Dark Ridge deposit is one of the most outstand- 
 ing olivine formations in the entire olivine belt. It is 
 not only one of the largest, but also one of the least 
 altered. Most of the alteration has been of an auto- 
 metamorphism character as no indications of pegmatitic 
 intrusions are seen in the formation. The proportion of 
 sound olivine is high in comparison to that of altered 
 material in other deposits. This deposit contains 
 16,550,000 tons of relatively unaltered granular olivine 
 and 24,500,000 tons of partly serpentinized dunite and 
 saxonite above Dark Ridge Creek level. 
 
 The topography of this deposit is ideal for a large 
 quarry so located that the olivine can be loaded directly 
 into railway cars. 
 
 .68 
 
 chemical analysis 
 
 Coarse-grained Dunite Relatively Unaltered Olivine 
 
 Dark Ridge 
 Sampli s 
 
 A-l 
 
 MgO 
 
 Si0 2 
 
 Fe 2 < » 
 
 49. 69 
 
 41.00 
 
 9.74 
 
 Al, Ti, Cr, 
 
 (Oxides) 
 
 it ;.s 
 
 Ca< ) 
 
 0.00 
 
 Ign. Loss 
 
 0.61 
 
 
 
 Steatitized and 
 
 Weathered Dunite 
 
 
 Dark Ridge 
 Sampli s 
 
 MgO 
 
 Si0 2 
 
 Fe 2 3 
 
 \\. Ti, Cr, 
 
 (Oxides) 
 
 CaO 
 
 Ign. Loss 
 
 \-7 
 
 
 
 44.08 
 
 43.60 
 
 9 . f )0 
 
 1.76 
 
 1.23 
 
 1.51 
 
 
 
 
 
 
 
 68 Chemical analysis made hy TV \ Minerals Testing Laboratory, Norris, Tennessee. 
 
of North Carolina and Georgia 79 
 
 p. c. e. value 
 
 Sample Dark Ridge A-l has a P.C.E. value of 36 
 to 38. 
 
 Sample Dark Ridge C-6 has a P.C.E. value of 36 
 to 38. 
 
 PETROGRAPHIC ANALYSIS' ' 
 
 Sample — Dark Ridge A-l. The olivine, which is the prin- 
 cipal constituent of the rock, is quite fresh, with 
 the majority of the crystals showing little or no 
 fracturing ; however, a few of the crystals are 
 badly shattered. A small amount of serpentiniza- 
 tion has taken place around the borders of some 
 of the crystals. The olivine crystals vary in size 
 from about 0.2 mm. to about 2 mm. in diameter 
 with an average of about 1 mm. 
 
 A few large (about 5 mm.) crystals of bronzite 
 were found in the rock. The amount would not 
 exceed a very few per cent. 
 
 The chromite in this sample is for the most part 
 fine-grained (about 0.05 mm. in diameter) with a 
 few large crystals (3 to 4 mm. in diameter). In 
 all but one case the chromite is surrounded by 
 olivine crystals. The one exception had a few 
 small plates of chlorite around the chromite. The 
 chromite comprises about 2 to 3 per cent of the 
 rock. 
 
 White talc was found on the surfaces of two 
 small specimens. No estimate of quantity can be 
 made. 
 Sample — Dark Ridge C-l. This rock is composed of olivine, 
 antigorite, talc, chlorite, and chromite and appears 
 to have been nearly all olivine before alteration 
 took place. 
 
 The olivine composes about 50 per eent of the 
 l'ock. About half of the olivine is unaltered and 
 occurs in crystals of 1 to 2 mm. in diameter. Tin 1 
 other half of the olivine is highly shattered and 
 shows extensive alteration to antigorite. 
 
 "Petrographic analysis made by W. Wurth Kriegel, Department ol Ceramii I n ineer- 
 
 inu, University nf North Carolina, Raleigh, North Carolina 
 
SO FORSTERITE I M.I\ ink DEPOSITS 
 
 The antigorite comprises 20 to 25 per cent of 
 the rock. It is an alteration produd of the olivine 
 and also from some of the chlorite. 
 
 Talc makes up al><mt 20 per cent of the rock. 
 The origin of the talc was not determined. Some 
 sections show inclusions arranged in a pattern 
 similar to those of pyroxene, however, no rem- 
 nants sufficient to identify the source of the talc 
 were found. 
 
 The chlorite comprises about 10 per cent of the 
 rock. Crystals were found throughout the rock 
 but principally surrounding the chromite grains. 
 Many of the crystals are partially serpentinized. 
 
 Only a small amount of chromite was found. 
 Sample — Dark Ridge C-6. The principal constituent (about 
 90 per cent) of this rock is olivine. The crystals 
 vary in size between 0.3 mm. (about 50 per cent) 
 and 5 mm. in diameter with an average size of 1 
 mm. A good deal of the olivine is shattered, show- 
 ing parallel cracks. A small amount of alteration 
 to what appears to be chrysotile was observed in 
 some of the olivine crystals. 
 
 A large per cent of talc was observed principally 
 along veins ; however, isolated masses were found. 
 A few crystals of olivine appear to have altered 
 to talc. 
 
 A vein of carbonate was observed in the rock. 
 The carbonate appears to be an alteration product 
 of the olivine and completely surrounds some of 
 the small olivine crystals. 
 
 Chromite occurs in the olivine and appears to 
 make up from 2 to 3 per cent of the rock. A few 
 crystals of chlorite were observed. 
 
 THE ADDIE DEPOSIT 
 
 The Addie deposit occurs about 35 miles southwest 
 of Asheville near the center of the Webster-Balsam area. 
 This deposit extends three-fourths of a mile northwest 
 and slightly more than one mile south of the railroad 
 station at Addie. It is 2,000 feet wide at its widest 
 point which occurs one-fourth of a mile south of the 
 station (see Plate 24). 
 
of North Carolina and Georgia 
 
 81 
 
 Plate 24 
 
 2 >oo 
 
 SCALE 
 300 
 
 CONTOU* INTERVAL iOFUT 
 OATUM MEAN SCA L(V{L 
 
 ADDIE DEPOSIT 
 
 LEGEND 
 
 RELATIVELY UNALTEREO GRANULAR OLIVINE 
 
 SERPENTINIZEO DUNITE 
 I,.- \\ T *LCY VERMICULITE TRINCE ZONE 
 (HI BIOTITE SCHIST 
 (JJj HORNBLENDE GNEISS 
 
82 Forsterite Olivine Deposits 
 
 The Asheville-Murphy branch of the Southern Rail- 
 wax- and also LI. S. Highways Nos. 19 and 23 (parallel 
 to the railroad) cross the northern end of the deposit. 
 Several secondary roads cross the deposit at various 
 
 points. 
 
 The Addie deposit is one of the largest in the Webster- 
 Balsam area, and forms the eastern part of the great 
 Webster-Balsam ring dike. This dike consists of a 
 -erics of saxonite and dunite intrusions, which form an 
 elliptical-shaped ring having a long axis of about six 
 miles, and a short one of about three and one-half miles. 
 The oldest dunites have been intruded by younger ones, 
 and the whole mass later subjected to partial hydro- 
 thermal alteration. The geology of this dike is extremely 
 complex, the details of which are beyond the scope of 
 this report. 
 
 The Addie deposit, like others of the ring dike series, 
 consists of a highly laminated dunite which on the 
 weathered surface has an appearance of thin-bedded 
 sandstone. These laminations, composed of concentra- 
 tions of talc, chlorite, and other secondary minerals, are 
 generally parallel to the formation contacts, and stand 
 out as weather-resisting seams. Certain areas in the 
 dunites, especially the later intrusions, suffered little 
 metamorphism by hydrothermal solutions, and it is in 
 these areas that the purest and highest grade olivine 
 occurs. 
 
 The northwestern part of the deposit (not shown on 
 Plate 24) consists of two steep-sided hills divided by a 
 small stream. A pegmatite along the contact has altered 
 the southern half of the formation, on the western side 
 of the stream, to a soapstone of sufficient purity to be 
 classed as talc. The northern part of this section, west 
 of the stream, is a steep barren hill containing a thin 
 residua] clay underlain by two types of olivine. One is 
 composed of gray-green interlocking crystals of medium- 
 
of North Carolina and Georgia 83 
 
 grained olivine, partially altered to serpentine. The 
 other is fine-grained, blue, highly laminated, tough 
 olivine. Fine flakes of chlorite, scattered throughout the 
 rock, greatly increase bonding strength. 
 
 On the east side of the small creek, the olivine rises 
 in a bluff about 100 feet in height. The southern and 
 southwestern part of this bluff consists mostly of coarse- 
 grained, tough, gray-green, interlocking olivine. Near 
 the northern and western part of the bluff there is a zone 
 about 75 feet wide of medium-grained light green, 
 granular and semifriable olivine which contains few 
 accessory minerals and shows little signs of alteration to 
 serpentine. The northern and eastern part of the forma- 
 tion, lying on the east side of the creek, has a rather 
 heavy overburden, probably as much as 30 to 40 feet in 
 most places. 
 
 The main body of the Addie deposit, much of which is 
 known as the Fisher property, lies south of Scott Creek 
 and north of Ocher Creek. This part of the deposit is 
 characterized by rugged topography made up of steep- 
 sided and narrow riclges divided by deep valleys. 
 
 Immediately south of the Fisher home is a steep ridge 
 which rises from the valley floor and continues south- 
 ward to Ocher and Scott Creek Gap. The northern half 
 of this ridge, approximately 300 feet high, consists of 
 good olivine which underlies an area about 1,500 feet 
 long and 400 feet wide (see Plate 24). This olivine con- 
 sists of both a coarse-grained, granular, interlocking 
 crystalline type, and dark green, granular and friable 
 material containing few accessory minerals except 
 chromite. 
 
 Near the middle of the Addie deposit there occurs an 
 inclusion of mica-schist (see Plate 24). Surrounding 
 this inclusion is a partly serpentinized dunite which con- 
 tains many small seams filled with nickel silicate 
 minerals. 
 
8 I FORSTERITE < )l.!\ INK DEPOSITS 
 
 An abrupt bluff of olivine so feet high occurs adja- 
 cent to Scott Creek a short distance east of the railroad 
 
 station at Addie. This bluff continues as a long ridge 
 southward for a distance of about 2,500 feet and has a 
 width of approximately 500 feet (see Plate 24). The 
 ridge is intersected by two small valleys at right angles 
 to its long axis. Most of this ridge is underlain by olivine 
 of the light green, coarse-grained, granular and friable 
 type containing massive seams and disseminated crystals 
 of chromite, the whole of which shows little indication 
 of serpentinization. South of the ridge, the topography 
 becomes rather steep and forms the Ocher-Scott Creek 
 Gap, which is underlain mostly with a coarse-grained, 
 interlocking crystalline type of olivine containing many 
 small faults partly filled with vermiculite and asbestos. 
 
 The southern part of the formation narrows to about 
 H>0 feet in width and outcrops along a steep bluff over- 
 looking Ocher Creek to the southwest. A gravel road 
 passes along the center of this section of the Addie 
 deposit ; the best olivine occurs between the road and 
 ( )cher Creek. This part of the formation outcrops as a 
 sheer bluff in which all the olivine is highly laminated. 
 This laminated olivine, however, has retained a part of 
 its original granular, friable character, and serpentini- 
 zation is only visible upon close examination of the hand 
 specimen. The olivine outcrops on the northeastern 
 branch of the gravel road contains exceptionally closely 
 spaced vermiculite veins, some of which are as much as 
 two feet in thickness. The part of the formation between 
 the road and Ocher Creek offers several excellent quarry 
 sites in relatively sound olivine. 
 
 Much of the Addie deposit is nearly barren of vege- 
 tation and contains practically no overburden. In the 
 areas of granular, fresh olivine, the boulders stand well 
 above the general surface. This deposit offers excep- 
 tionally good quarrying possibilities, clue to the large 
 
of North Carolina and Georgia 
 
 85 
 
 reserve of high-grade olivine occurring adjacent to the 
 railroad. 
 
 The Addie deposit contains 28,350,000 tons of rela- 
 tively unaltered granular olivine and 102,450,000 of 
 serpentinized dunite above Scott Creek level. 
 
 chemical analysis'" 
 
 Relatively Unaltered Olivine from Addie Deposit 
 
 Samples 
 
 MgO 
 
 Si0 2 
 
 Fe 2 3 
 
 Al, Ti, Cr, 
 (Oxides) 
 
 CaO 
 
 Ign. Loss 
 
 A-l 
 
 48.80 
 
 38.68 
 
 10.88 
 
 0.94 
 
 0.12 
 
 0.69 
 
 
 
 B-l . 
 
 48.64 
 
 39.14 
 
 10.40 
 
 1.14 
 
 0.08 
 
 0.85 
 
 
 
 C-l 
 
 48.10 
 
 39.58 
 
 9.28 
 
 1.24 
 
 0.08 
 
 1.14 
 
 
 
 E-l .... 
 
 46. S2 
 
 37.40 
 
 11.52 
 
 1.60 
 
 0.20 
 
 1.77 
 
 
 
 P. C. E. VALUE 
 
 Sample A-l from the Addie deposit has a P.C.E. 
 value of 36 and Sample E-l has a P.C.E. value of 35, 
 which means the olivine has good P.C.E. value. 
 
 Relatively Fresh Typical Saxonite from Addie Deposit 
 
 Sample 
 
 MgO 
 
 Si0 2 
 
 Fe 2 3 
 
 Al, Ti, Cr, 
 (( )xides) 
 
 CaO 
 
 [gn. 1 oss 
 
 \-l 
 
 46.40 
 
 41.62 
 
 9.28 
 
 1.08 
 
 0.20 
 
 1 95 
 
 
 
 
 
 Weathered and Steatited Dunite 
 
 Sample 
 
 MgO 
 
 Si0 2 
 
 1 , o 
 
 Al. 1 i. Cr, 
 (Oxides) 
 
 ('.,<> 
 
 [gn. 1 oss 
 
 O.C-1 . 
 
 12.96 
 
 1 1 . 86 
 
 Kl 21 
 
 1.76 
 
 i) 22 
 
 2 
 
 
 
 
 ( 
 
 ii inu'.il .m.i 
 
 lysis made by 1\ \. Minerals festing Laboratory, Norris, rennessee. 
 
36 
 
 FORSTERITE I ILIVINE DEPOSITS 
 
 *ARTIA SERPENTIMZKI) Dl'NITE KROM GARLAND DlLLAKI) 
 
 Part of the Addie Deposit 
 
 Sample 
 
 MgO 
 
 ) 73 
 46. c 
 
 Ml 1, 
 
 1', ■.. 1 
 
 M. Ii. Cr, 
 (Oxides) 
 
 CaO 
 
 [gn. Loss 
 
 \-l 
 
 W.94 
 
 8 30 
 
 1.86 
 
 0.30 
 
 2.22 
 
 
 
 \-: 
 
 41.34 
 
 9.02 
 
 1.1' 
 
 0.32 
 
 1.92 
 
 
 
 B-l 
 
 4> 
 
 11 94 
 
 s . 5 ; 
 
 1.30 
 
 0.32 
 
 2.32 
 
 
 
 B-2 
 
 44.55 
 
 40.78 
 
 9.12 
 
 1.28 
 
 0.26 
 
 2.71 
 
 
 
 C-l 
 
 45.24 
 
 40.50 
 
 8.40 
 
 1.18 
 
 0.30 
 
 3.67 
 
 PETROGRAPHIC ANALYSIS 
 
 Sample — Addie E-2. The chief constituents of the rock are 
 fine-grained antigorite serpentine and carbonate 
 (dolomite or magnesite) occuring in nearly equal 
 amounts. Throughout the rock are high-refrin- 
 gent remnants of an orthorhombic mineral which 
 likely is olivine. The particles are too small to 
 determine their composition definitely. It is rather 
 difficult to estimate the relative amounts of this 
 mineral ; however, it is believed that it will amount 
 to 15 to 20 per cent of the rock. 
 
 A few badly shattered crystals of chromite are 
 also present. 
 
 Sample — Addie A-l. The principal constituent of this rock 
 is olivine. It comprises about 90 per cent of the 
 rock. The crystals of olivine vary in size between 
 0.1 and 2 mm. in diameter with the majority about 
 0.5 mm. Approximately half of the crystals are 
 cracked. Many of the fissures are filled with ser- 
 pentine. A few of the olivine crystals are partially 
 altered to antigorite. Not over 2 per cent are so 
 affected. The olivine is high in iron content as 
 shown by the dark color of the rock and the 
 presence of iron oxide with the antigorite. It is 
 
 71 Petrographic analysis made by W. Wurth Kriegel, Department of Ceramic Engineer- 
 ing, University of North Carolina, Raleigh, North Carolina. 
 
of North Carolina and Georgia 87 
 
 estimated that the antigorite amounts to about 5 
 per cent of the rock. 
 
 About 5 per cent of the rock was found to be 
 chromite which occurs in 0.03 to 0.05 mm. euhe- 
 dral crystals. A few crystals of chlorite were 
 observed. The latter occur at the olivine-chromite 
 boundaries. 
 Sample — Addie D-l. The principal constituent of the sam- 
 ple is olivine. The crystals are cracked but are 
 only slightly altered to antigorite along the crystal 
 borders, with the exception of those crystals in 
 contact with the blue veins cutting through the 
 rock. These latter crystals are altered to anti- 
 gorite and chlorite. 
 
 About two-thirds of the vein material appears 
 to be a mixture of antigorite, talc, and chlorite. 
 The remaining third is largely bladed crystals of 
 chlorite which penetrate into the margin of olivine 
 crystals. 
 
 The extent of the alteration of the material will 
 depend upon the frequence of occurrence of the 
 veins. There are only two in the hand specimens. 
 
 The sample contains one to two per cent of 
 chromite dispersed throughout the olivine. 
 
 P. C. E. VALUE 
 
 Sample Addie O.C. A-l has a P.C.E. value of 35 to 36. 
 
 CANE CREEK OLIVINE DEPOSIT 
 
 The Cane Creek deposit, three and one-half miles 
 southeast of Sylva, N. C, is located one-half mile up Cane 
 Creek, due west of Rocky Face Mountain. The deposit 
 outcrops on the west side of Cane Creek as a roughly 
 lens-shaped body trending in an east-west direction for 
 about 1,500 feet. It has a maximum width of approxi- 
 mately 300 feet. This deposit is a part of the Webster- 
 Addie ring dike series. 
 
 Most of the formation consists of dunite outcropping 
 on two barren hills, divided by Mary Hooper branch 
 (see Plate 25). A part of the formation along the 
 southern contact, consists of a coarse-grained inter- 
 
ss 
 
 FORSTERITE OLIVINE DEPOSITS 
 
 'i. \ii: 25 
 
 i — t i— i i=r 
 
 SCALE 
 
 280 500 
 
 1000 rEET 
 
 CONTOUR INTERVAL 50 FEET 
 DATUM ASSUMED 
 
 CANE CREEK DEPOSIT 
 
 LEGEND 
 
 RELATIVELY UNALTERED GRANULAR OLIVINE 
 
 SERPENTINIZED DUNITE 
 
 TALCY VERMICULITE FRINGE ZONE 
 
 BIOTITE SCHIST 
 
 HORNBLENDE GNEISS 
 
of North Carolina and Georgia 
 
 89 
 
 locking crystalline saxonite which has been highly 
 laminated, and partly serpentinized. Talc blebs, altered 
 from bronzite, are quite common throughout this part 
 of the deposit. The central part of the formation con- 
 sists mostly of coarse-grained, light green, friable and 
 relatively sound olivine. Part of this friable material 
 contains chromite crystals in such quantity that the 
 weathered surface of the dunite has a black-spotted 
 appearance. The formation contains very little over- 
 burden except residual clay and a few residual boulders. 
 Vermiculite- and chlorite-filled faults paralleling the long 
 axis of the olivine formation are rather conspicuous. 
 
 The Cane Creek deposit is rather small in size in com- 
 parison with some of the other deposits in the area. 
 This deposit is located one-half mile from the South- 
 eastern and Tuckasegee Railroad and has suitable topo- 
 graphy and sufficient reserves of relatively high-grade 
 olivine to support two medium-sized quarries. It is 
 estimated that this deposit has 1,800,000 tons of rela- 
 tively unaltered granular olivine and 3,100,000 tons of 
 serpentinized dunite above Cane Creek level. 
 
 CHEMICAL ANALYSIS 7 " 
 
 
 Serpentinized Saxonite 
 
 
 
 Sample 
 
 MgO 
 
 Si0 2 
 
 Fe 2 3 
 
 Al, Ti, Cr, 
 
 (Oxides) 
 
 CaO 
 
 [gn. Loss 
 
 Cane Creek A-l 
 
 44.82 
 
 41.34 
 
 9.44 
 
 1.58 
 
 0.30 
 
 2. 35 
 
 
 Relatively Unaltered Olivine 
 
 
 
 Sample 
 
 MgO 
 
 S,< ), 
 
 1 , ( » 
 
 M. Ti, Cr. 
 (Oxides) 
 
 CaO 
 
 [gn. 1 oss 
 
 Cane Creek A-2.... 
 
 48.78 
 
 40.01 
 
 L0.24 
 
 0.48 
 
 0.26 
 
 0.92 
 
 
 
 72 Chemical Analysis made by TV A Minerals Testing Laboratory, Morris, fennessi 
 
90 Forsterite Olivine Deposits 
 
 P. C. E. VALUE 
 
 Sample C'aiH' Creek A-2 has good refractory qualities 
 because the P.C.E. value was found to be +35. 
 
 PETROGRAPHIC ANALYSIS'" 
 
 Sample — CANE Creek A-l. This rock is composed of 70 to 
 80 per cent olivine, 10 per cent or more of talc, 
 several per cent of anthophyllite and chlorite, and 
 a small amount of antigorite and chromite. 
 
 The olivine crystals vary in size between 0.1 and 
 1.0 mm. in length. The crystals are all shattered. 
 The fractures appear to be filled with antigorite ; 
 however, it is so fine-grained that it is impossible 
 to verify. Very few iron spots are seen along the 
 altered edges, which would indicate that the 
 olivine is low in iron content and approaches 
 forsterite in composition. 
 
 The talc is distributed throughout the rock and 
 also is found in small nodules or clumps up to 2 or 
 3 mm. in size. The talc forms the bulk of the 
 filling and in places contains chlorite. 
 
 The blue-black spots have a highly shattered 
 chromite grain in the center surrounded by bladed 
 crystals of chlorite. The chromite is very black 
 even in small fragments and shows very few 
 brown edges. It may be assumed that the chromite 
 is high in iron. 
 
 The anthophyllite may be the source of at least 
 a part of the talc. 
 Sample — Cane Creek A-3. This rock appears to contain at 
 least 80 per cent olivine, 15 to 20 per cent of ser- 
 pentine (largely antigorite), and 1 to 2 per cent 
 chromite. 
 
 The olivine occurs in fairly large crystals, many 
 measuring 2 to 3 mm. in diameter. The crystals 
 are all quite badly shattered, thus reducing the 
 effective size. The fracture and spaces between 
 the crystals show alteration to antigorite. Many 
 of the olivine crystals are almost entirely altered 
 leaving only remnants of the original crystals. 
 
 73 Petrographic analysis made by W Wurth Kriegel, Department of Ceramic Engineer- 
 ing, University of North Carolina, Raleigh, North Carolina. 
 
of North Carolina and Georgia 91 
 
 The light green blades through the rock are 
 mainly composed of antigorite with some rem- 
 nants of olivine. Very little iron oxide is to be 
 seen in the rock except in sections on the surfaces, 
 which appear to be reddish in the hand specimens. 
 Here, also, the olivine appears stained. 
 
 The chromite occurs in small scattered grains 
 usually surrounded by antigorite. The chromite 
 is very dark, and shows brown only on the very 
 thinnest edges. 
 
 P. C. E. VALUE 
 
 Sample Cane Creek A-2 has a P.C.E. value of +35. 
 
 WEBSTER DEPOSIT 
 
 The Webster peridotite is located about two miles 
 south of Sylva, Jackson County, North Carolina. It 
 extends from a short distance north of Webster, south- 
 ward through the town to a point three-fourths of a mile 
 south of the Tuckasegee River ; and then nearly due east 
 for one mile to the Tuckasegee and Southwestern Rail- 
 road (see Plate 26). The deposit is roughly crescent- 
 shaped, and has a length of two and three-fourths miles, 
 and maximum width of 1,800 feet. This is the largest 
 peridotite body exposed in the ring dike. 
 
 Most of the area consists of long, low, rolling ridges 
 and wide valleys. However, the topography is quite 
 rugged in the extreme eastern part, where the hills rise 
 abruptly for about 250 feet above the valley floor. Just 
 south of Webster, the rolling topography is again broken 
 by a steep bluff 150 feet high, which parallels the 
 northern bank of the Tuckasegee River. About one- 
 fourth of the deposit, especially the uplands, is covered 
 by transported clays, river gravels, and thick-residual 
 soil. The best exposures of olivine are on the bluff over- 
 looking the river. 
 
 Apparently this formation is made up of a series of 
 intrusions which have undergone various degrees of 
 alteration, mostly caused by invading pegmatitic solu- 
 
92 
 
 FORSTERITK Ol.I\ INK DhTOSITS 
 
 lions. Along I lie eastern rim is a highly faulted and 
 fractured zone in which the dunite is badly weathered 
 and serpentinized. Several minor faults cut through the 
 deposit in various directions, and on either side of these 
 the rocks show signs of alteration. Typical of others in 
 the ring dike, this deposit is highly laminated. 
 
 Plate 26 
 
 SCALE 
 
 IOOO 
 
 CONTOUR INTERVAL. SO FEET 
 DATUM MEAN 5EA LEVEL 
 
 WEBSTER DEPOSIT 
 
 LEGEND 
 
 [?X3 RELATIVELY UNALTERED GRANULAR OLIVINE 
 
 SERPENTINIZED DUNITE 
 [ . 1 TALCY VERMICULITE FRINGE ZONE 
 
 BIOTITE SCHIST 
 
 HORNBLENDE GNEISS 
 
of North Carolina and Georgia 93 
 
 The Webster deposit consists, for the most part, of a 
 medium-grained, fairly sound, granular, green olivine, 
 which usually shows a slight amount of serpentinization. 
 This rock occurs as a band occupying about 75 per cent 
 of the western and southern half of the deposit, and ex- 
 tends from just south of Webster to the eastern end of the 
 deposit. Crystals of chromite have been concentrated in 
 pockets and lenses within the band of dunite. Some of 
 these concentrations, especially those near the eastern 
 end of the deposit, have been mined to a limited extent. 
 More chromite float is visible on the Webster formation 
 than on any other dunite in the belt. 
 
 Websterite, a variety of saxonite composed mostly of 
 green diopside and brown bronzite, occurs as a band 
 about 200 feet wide, just east of the unaltered dunite 
 zone. This rock is rendered quite conspicuous by its 
 bright grass-green color, extremely large grain size, and 
 numerous bronzite crystals. (For analysis, see page 95.) 
 The Websterite probably represents one of the later 
 peridotite intrusions of the ring dike series. At present, 
 this rock is of little commercial value. 
 
 A badly weathered serpentinized olivine rock which 
 has been fractured and faulted, occurs along the eastern 
 rim of the formation. Nickel, occurring as silicate 
 minerals, fills many of the cracks and faults in the rock. 
 This nickelized zone, averaging 1.5 per cent Ni 71 extends 
 nearly the entire length of the deposit, and attains a 
 maximum thickness of 300 feet near the old Nickel Plant, 
 just south of the river. 
 
 The Webster deposit has several suitable quarry sites 
 in the semi-fresh granular olivine. Probably the host of 
 these sites is just south of Webster, along the bluff on the 
 north side of Tuckasegee River. Most of the western 
 end of this bluff is composed of a fairly sound olivine, 
 
 74 (J. \V. Pawt-l, "Nicki-1 in North Carolina," Ei 1/ , Octobei 
 
 1939, p. 35. 
 
n 
 
 FORSTERITE < U.IVI.NK DEPOSITS 
 
 with little overburden. Another good site is located in 
 the extreme eastern end of the formation, near the 
 
 Tuckasegee and Southwestern Railroad. Here the 
 olivine is of the light green granular type, and is asso- 
 ciated with pockets of chromite. Several other quarry 
 sites are located throughout the formation. 
 
 I rsing the Tucka^e.uee River as base level, the Webster 
 deposit is estimated to contain 58,150,000 tons of rela- 
 tively unaltered granular olivine, and 167,890,000 tons 
 of serpentinized dunite. 
 
 CHEMICAL ANALYSIS 
 
 Relatively Unaltered Olivine 
 
 Sampli 
 
 MgO 
 
 SiO s 
 
 Fe 2 8 
 
 \l. Ti. Cr, 
 (Oxides) 
 
 CaO 
 
 Ign. Loss 
 
 Webster A-l N 
 
 45. 12 
 
 41.38 
 
 9.28 
 
 1.26 
 
 0.20 
 
 1.97 
 
 Relatively Unaltered Olivine and Chromite 
 
 I 
 
 Sampl 
 
 MgO 
 
 SiOj 
 
 Fe 2 8 
 
 Al, Ti, Cr, 
 
 (Oxides) 
 
 CaO 
 
 Ign. Loss 
 
 Webster G. C. B-l 36.41 
 
 27.38 
 
 12.48 
 
 19.31 
 
 0.22 
 
 3.26 
 
 Partly Altered Saxonite 
 
 Sample 7 * 
 
 MgO 
 
 Si( >, 
 
 r\ < > 
 
 Al, Ti, Cr, 
 
 (Oxides) 
 
 CaO 
 
 Ign. Loss 
 
 Webster B-l N 
 
 46.42 
 
 1 
 
 41.82 
 
 9.12 
 
 1.14 
 
 0.18 
 
 1.55 
 
 Serpentinized and Weathered Dunite 
 
 Sam pi 
 
 MgO 
 
 Si< >: 
 
 Fe,0 3 
 
 M, Ti, Cr, 
 
 (Oxides) 
 
 CaO 
 
 Ign. Loss 
 
 Webster B-l 
 
 42.82 
 
 ; "" 04 
 
 8.72 
 
 1.14 
 
 0.32 
 
 9 17 
 
 
 
 78 Chemical Analysis made by TV A Minerals Testing Laboratory, Xorris, Tennessee. 
 
of North Carolina and Georgia 
 
 95 
 
 Serpentinized Dunite 
 
 Sample 71 ' 
 
 MgO 
 
 Si0 2 
 
 Fe 2 3 
 
 AI, Ti, Cr, 
 
 (Oxides) 
 
 CaO 
 
 I Li ii . Loss 
 
 Webster A-1 
 
 44.08 
 
 39.98 
 
 8.00 
 
 2.36 
 
 0.20 
 
 4.41 
 
 
 
 
 
 Websterite from Webster, N. C. 
 
 77 
 
 
 MgO 
 
 2>, i,<, 
 
 SiO, 
 
 55.14 
 
 CaO 
 
 s ;<; 
 
 ho 
 
 4.73 
 
 Fe 2 3 
 
 3.48 
 
 A1,0 3 
 
 i,i, 
 
 H 2 
 
 0.3S 
 
 Cr 2 3 
 
 0.25 
 
 Websterite from Webster, N. C. 77 (Cont.) 
 
 P 2 6 
 
 NiO 
 
 MnO 
 
 Na 2 
 
 Ti0 2 
 
 Total 
 
 0.23 
 
 0.11 
 
 0.03 
 
 0.30 
 
 Trace 
 
 100.36 
 
 P. C. E. VALUE 
 
 Samples Webster B-1N and Webster B-l have P.C.E. 
 values of +35, which is higher than would be expected 
 from the chemical analysis. 
 
 78 
 
 PETROGRAPHIC ANALYSIS 
 
 Petrography of Webster Dunite. 
 
 This rock consists of an even-grained crystalline 
 olivine, with more or less chromite disseminated 
 through the mass in small grains and crystals. 
 In texture the olivine varies from almost invisible 
 grains to very coarse-grained masses, with occa- 
 sional individuals an inch or more in diameter. The 
 more common occurrences are somewhat coarser 
 grain than loaf sugar. 
 
 The least altered portions have a light to dark 
 yellowish green or grayish green color, an oily to 
 vitreous lustre, and an uneven, angular fracture. 
 Weathering gives rise to all gradations of color 
 from that of the fresh rock to the characteristic 
 yellowish or reddish brown of the barren OUt- 
 
 78 Chemical Analysis made by l\ \ Minerals resting Laboratory, Norris, Iuhiismi 
 
 77 Websnrite analysis from Pratt and Lewis, op. cit., p. 97. 
 
 78 Pratt and Lewis, op. cit.. p. 92. 
 
96 Forsi i i;i i e < )i.i\ ink Deposits 
 
 crops. . . . Transparent colorless, allotriomorphic 
 olivine grains constitute the mass of the rock. 
 Chromite in scattering crystals or irregular grains 
 is a constanl accessory .... 
 
 In the great majority of cases, even when the 
 hand specimens look perfectly fresh, the olivine is 
 found to have altered somewhat to serpentine, with 
 sometimes more or less talc, chlorite, etc. Hence 
 the olivine grains are usually completely separated 
 from one another by these secondary products. In 
 many specimens, however, the alteration has been 
 very slight; and, in a few sections, only traces of 
 serpentine are to be found. The olivine is trans- 
 parent and colorless, and exhibits typical optical 
 characteristics. ... It is only in a somewhat ad- 
 vanced stage of alteration that the corners become 
 rounded and the section under the microscope as- 
 sumes the appearance of rubble masonry. In the 
 fresh specimens the olivine grains are often broken 
 by irregular fractures. . . . With the beginning of 
 alteration to serpentine, however, the increase in 
 volume gives rise to stresses that greatly increase 
 the irregular fracturing and frequently develop 
 regular cleavage cracks in considerable num- 
 bers. . . . Chloritization, a mode of alteration 
 much less common than serpentinization, is well 
 represented in portions of the Webster dunite. . . . 
 Sample 7 ' 1 — Webster B-l N. The sample consists of 80 to 90 
 per cent olivine, 10 per cent or more of enstatite 
 and /or bronzite, several per cent of antigorite ser- 
 pentine, a small amount of chromite, and a trace of 
 chlorite. 
 
 The olivine crystals are from 0.3 to 2 mm. in 
 diameter, and are somewhat fractured. Antigorite 
 surrounds the grains and fills the fractures. 
 
 The pyroxene is largely enstatite ; however, a 
 portion of it appears to be the ferruginous form, 
 bronzite. The pyroxene is dispersed quite evenly 
 throughout the rock. There is evidence of some 
 serpentinization of this mineral. 
 
 79 Petrographic Analysis made by W. Wurtb. Kriegel, Department of Ceramic Engineer- 
 ing, University of North Carolina, Raleigh, North Carolina. 
 
of North Carolina and Georgia 97 
 
 The antigorite does not appear to be concentrated 
 in any large areas but fills around the other 
 minerals in thin crystals oriented parallel to the 
 fracture and crystal boundary lines. 
 
 The chromite appears to be small in amount and 
 rather low in iron content. It occurs in the olivine 
 but is frequently surrounded by crystals of 
 chlorite. 
 Sample*" — Webster G. C. A-l. The sample consists of 50 to 
 60 per cent olivine, 30 to 40 per cent antigorite, 
 4 to 8 per cent chlorite, 4 to 8 per cent carbonate 
 (likely dolomite), a small amount, perhaps one per 
 cent of talc, one per cent or less of chromite, and 
 a small amount of limonite. Because of the great 
 variance of sections, the percentages are approxi- 
 mations. 
 
 The olivine appears to be rather iron free and 
 must approach forsterite in composition. All of 
 the crystals are shattered and few are not highly 
 disintegrated. Only remnants of many remain. 
 
 The carbonate appears to have replaced olivine. 
 They showed no effervescence with hydrochloric 
 acid. It is therefore assumed to be dolomite or 
 magnesite. 
 
 The serpentine is largely antigorite. The 
 mineral appears to be the chief alteration product 
 of the olivine. It surrounds all olivine grains. 
 
 The chromite occurs in fairly large but badly 
 shattered grains surrounded by chlorite. Chlorite 
 also occurs in small isolated aggregates. 
 
 P. C. E. VALUE 
 
 Sample Webster G. C. B-l has a P.C.E. value of +36. 
 
 Sample Webster B-l has a P.C.E. value of ^35. 
 
 Sample Webster B-l N has a P.C.E. value of | 35. 
 
 Several other deposits of granular olivine occur in 
 the Webster-Balsam area, but are not described here 
 because of their poor location in relation to transpor- 
 tation. The best of these occurs near the headwaters of 
 Cane Creek. 
 
 80 Petrographic Analysis made In W Wurth Kriegel, Department ol Ceramic Engineei 
 ing. University of North Carolina, Raleigh, North Carolina. 
 
98 FORSTBRITE Olivine Deposits 
 
 ELLIJAY AREA 
 
 The Ellijay area, about 15 miles long and 8 miles 
 wide, is located apppoximately 55 miles southwest of 
 Asheville, X. C. and a few miles east of Franklin, N. C. 
 It extends from the northwestern part of Rabun County, 
 Georgia, northeastward through Macon County, N. C, 
 and into Jackson County, N. C. (see Plate 8). 
 
 In genera] the topography is quite rough. The 
 southwestern part of the area consists of high rounded 
 hills and fairly wide valleys, while the northeastern part 
 extends into the rugged Blue Ridge mountains. The 
 entire drainage is by the Little Tennessee River which 
 flows through the center of the area. 
 
 Olivine deposits are scattered throughout the area, 
 with the most important ones located within 3 miles of 
 Ellijay Post Office. This report describes only those 
 which are accessible to adequate transportation facilities, 
 namely, Moores Knob, Ellijay Creek, Number 9, Corun- 
 dum Hill, and Norton. These deposits contain an esti- 
 mated 20,020,000 tons of relatively unaltered olivine, and 
 56,340,000 tons of serpentinized dunite. 
 
 The area is crossed by the Tallulah Falls Branch of 
 the Southern Raihvay, and several federal highways. 
 Many secondary roads make transportation fairly easy 
 throughout the area. 
 
 MOORES KNOB DEPOSIT 
 
 The Moores Knob Dunite, three-fourths of a mile 
 northeast of Ellijay, Macon County, N. C, is the largest 
 deposit in the area. It is roughly lens-shaped, with 
 minor and major axes of 1,000 and 3,000 feet respec- 
 tively. Berry Prong of Ellijay Creek flows along the 
 eastern and southern contacts of the formation. 
 
 The deposit outcrops as a spur, wdiich rises abruptly 
 from the north side of the creek to a height of about 200 
 feet and continues northeastward at a steep grade to 
 Amnion's Ridge, where it attains a height of about 400 
 
of North Carolina and Georgia 
 
 99 
 
 feet. Overburden is relatively light except in the north- 
 western part of the area, where a thick red residual soil 
 containing much soapstone float covers the rock. 
 
 This olivine occurs as a dunite which has undergone 
 some alteration. Most of the eastern quarter of the 
 formation consists of relatively fresh, yellowish-green, 
 coarse-textured, granular olivine; while that near the 
 southwestern nose is fine-grained, light green, and some- 
 what friable. The remainder of the deposit consists of 
 steatizecl and chloritized dunite. This formation is esti- 
 mated to contain 14,000 tons of relatively unaltered 
 granular olivine and 42,000,000 tons of serpentinized 
 dunite above Berry Prong of Ellijay Creek. 
 
 Many years ago this deposit was worked for corun- 
 dum. Recently these old workings have been reopened 
 and many new shafts and tunnels driven into the forma- 
 tion for the production of vermiculite. This mineral is 
 quite abundant, occurring as veins and lenses throughout 
 the deposit. 
 
 ,-i 
 
 chemical analysis 
 
 Relatively Unaltered Olivine 
 
 Samples 
 
 MgO 
 
 Si( » • 
 
 FeoOs 
 
 Al, Ti, Cr. 
 
 (Oxides) 
 
 CaO 
 
 [gn. 1 oss 
 
 Moores Knob B-l 
 
 49.48 
 
 39.52 
 
 9.2X 
 
 1.12 
 
 0.05 
 
 0.08 
 
 
 Chloritized Dunite 
 
 
 
 Samples 
 
 MgO 
 
 SiO, 
 
 Fe 2 ( 1 
 
 Al, Ti, Cr, 
 (Oxides) 
 
 CaO 
 0.10 
 
 (t H 
 
 [gn. 1 oss 
 
 Moores Knoli \-l 
 
 45.50 
 
 42.06 
 
 9.76 
 
 I 06 
 2.16 
 
 1 13 
 
 Moons Knob S-l 
 
 46 60 
 
 11 64 
 
 7.50 
 
 71 
 
 P. C. E. VALUE 
 
 Sample Moores Knob A-l has a P.C.H. value of 36-37. 
 
 •i 
 
 Chemical analysis made l>v TV A Minerals Testing I aboratory, Norris, fennessei 
 
LOO Forsterite Olivine Deposits 
 
 ELLIJAY CREEK DEPOSIT 
 
 The Ellijay Creek dunite — about one-half mile north- 
 west of Ellijay Post Office, is just east of the point at 
 which Merry Prong enters the main Ellijay Creek. The 
 deposit is semicircular in shape and rises from creek level 
 to a height of about 50 feet. This is one of the smallest 
 deposits, and has an outcrop length of only 500 feet and 
 a maximum width of 200 feet. The formation has been 
 partly exposed on the southern side adjacent to the creek 
 by recent vermiculite mining. 
 
 The olivine occurs as a fresh, light green, granular, 
 friable dunite, about half of which has undergone alter- 
 ation. This deposit is estimated to contain 315,000 tons 
 of relatively sound olivine and about an equal amount of 
 serpentinized dunite. 
 
 DEPOSIT NUMBER NINE 
 
 Deposit Number Nine occurs one-half mile southwest 
 of Ellijay Post Office and a short distance east of Ellijay 
 Creek. This occurrence is about five miles east of Frank- 
 lin, North Carolina. The deposit outcrops along the 
 crest and on the north and south side of a low ridge 
 which rises about 200 feet above Ellijay Creek. 
 
 This deposit is heart-shaped with the long axis 
 slightly more than 1,000 feet long and the width at the 
 blunt end nearly 1,000 feet (see Plate 27). This forma- 
 tion is made up of medium-grained dunite containing 
 light green, fresh, friable olivine. The deposit is thickly 
 intersected with small faults filled with exceptionally 
 high grade, light green vermiculite. Some of these veins 
 have been worked rather extensively. 
 
 Near the southern extremity of this deposit, there 
 occurs a concentration of massive chromite in small 
 veins, but the most chromite occurs on the northern side 
 of this formation in the form of disseminated crystals in 
 a matrix of granular olivine. Little serpentine can be 
 detected in the hand specimens of the dunite. 
 
of North Carolina and Georgia 
 
 101 
 
 Plate 27 
 
 EHJE3^£iI 
 
 SCALE 
 
 300 600 
 
 CONTOUR INTERVAL. SO FEET 
 
 DATUM ASSUMED 
 
 DEPOSIT NO. 9 
 
 LEGEND 
 
 £53 RELATIVELY UNALTERED GRANULAR OLIVINE 
 
 8££3 SERPENTINIZED OUNITE 
 
 [ 1 TALCY VERMICULITE FRINGE ZONE 
 
 BIOTITE SCHIST 
 YfA HORNBLENDE GNEISS 
 
102 
 
 FORSTERITE OLIVINE DEPOSITS 
 
 Although the deposit is not the largest in the Ellijay 
 area, it may well he one of the most important because 
 of its high grade and uniform olivine. The Number Nine 
 deposit contains 5, 020, 000 tons of relatively sound olivine 
 and 7,020,000 tons of serpentinized dunite above creek 
 level. 
 
 chemical analysis 
 
 Relatively Unaltered Olivine 
 
 Sample 
 
 MgO 
 
 Si0 2 
 
 Fe 2 3 
 
 Al, Ti, Cr, 
 (Oxides) 
 
 CaO 
 
 Iun. Loss 
 
 Number Nun \-l 
 
 47.50 
 
 38.94 
 
 10.88 
 
 1.36 
 
 0.08 
 
 0.89 
 
 Number Nun- B-l 
 
 47.96 
 
 39.20 
 
 11.20 
 
 1.34 
 
 0.22 
 
 1.01 
 
 P. C. E. VALUE 
 
 Sample Deposit Nine B-l has a P.C.E. value of 35 
 to 37. 
 
 PETROGRAPHIC ANALYSIS 
 
 Sample — Deposit Nine B-l. The rock contains 80 to 90 
 per cent olivine. The crystals are all quite large, 
 many measuring 2 or 3 mm. in diameter ; however, 
 they are all quite badly shattered. The larger 
 fractures are filled with chlorite. The smaller 
 fractures are filled with chrysotile. Small areas 
 of olivine show serpentinization to antigorite. 
 
 Fairly large areas of chlorite are found in zones 
 of fracture. A few chlorite crystals are found at 
 the olivine boundaries, and they appear to be an 
 alteration product of the olivine. 
 
 Chromite occurs in many small crystals scat- 
 tered throughout the rock. The average size is 
 about 0.03 mm. in diameter with a few larger 
 crystals about 0.4 mm. in diameter. All are sur- 
 rounded by bladed crystals of chlorite. 
 
 82 Chemical analysis by TVA Minerals Testing Laboratory, Norris, Tennessee. 
 
 83 Petrographic analysis made by W. Wurth Kriegel, Department of Ceramic Engineer- 
 ing, University of North Carolina, Raleigh, North Carolina. 
 
of North Carolina and Georgia 
 Plate 28 
 
 103 
 
 SCALE 
 
 100 300 
 
 ioofeet 
 
 CONTOUR INTERVAL 10 FEET 
 0*tum ASSUMED 
 
 MAP FROM N C GEOLOGICAL SURVEY. VOL I, PL. VI 
 
 CORUNDUM HILL DEPOSIT 
 
 LEGEND 
 
 RELATIVELY UNALTERED GRANULAR OLIVINE 
 
 SERPENTINIZED OUNITE 
 
 TALCY VERMICULITE FRINGE ZONE 
 
 BIOTITE SCHIST 
 
 HORNBLENDE GNEISS 
 
lit 1 FORSTERITE < OLIVINE DEPOSITS 
 
 THE CORUNDUM HILL OLIVINE DEPOSIT 
 
 The Corundum Hill olivine deposit occurs six miles 
 southeast of Franklin and one and one-fourth miles 
 northwest of Gneiss. It forms a rounded hill a short dis- 
 tance southeast of Evans Knob and one-half mile north 
 of U. S. Highway 64. 
 
 The Corundum Hill deposit is no doubt the most 
 famous dunite formation in the entire country. The 
 whole deposit is honeycombed with old corundum work- 
 ings. It was here that corundum was first produced in 
 the United States and that many of the fine corundum 
 and gem specimens now in the National Museum were 
 mined. 
 
 This deposit is approximately 1,200 feet long and 
 averages 500 feet wide. At its northeastern end and its 
 southwestern end, this formation is rounded and blunt 
 in shape, and in this respect is somewhat different from 
 the other dunite formations occurring in the Appalachian 
 area (see Plate 28). The formation contains several 
 schist inclusions, especially near the northwestern con- 
 tact zone. Some of these inclusions show evidence of 
 having been faulted into place. Much of the deposit out- 
 crops as a barren rounded hill. 
 
 The Corundum Hill deposit consists entirely of dunite, 
 part of which has been serpentinized. Near both ends 
 of the formation the dunite is composed of coarse- 
 grained, yellowish, granular olivine, much of which 
 appears to be rather sound. Parts of the dunite, 
 especially near the faults, are highly serpentinized and 
 at a few places near the schist inclusion nickel silicate 
 minerals are visible. 
 
 The contact zones and many of the interior faults in 
 the deposit are filled with vermiculite. This deposit has 
 produced vermiculite intermittently since 1933. 
 
 Note in the next analysis chart that the Corundum 
 Hill olivine contains a rather high percentage of mag- 
 
of North Carolina and Georci a 
 
 K).-) 
 
 nesia which should make the material desirable for use 
 in a chemical process. Two parts of the deposit offer 
 good quarry sites in rather sound olivine. Corundum 
 Hill deposit is estimated to contain 700,000 tons of 
 relatively sound olivine and 6,970,000 tons of serpen- 
 tinized dunite above creek level. 
 
 .84 
 
 chemical analysis 
 
 Relatively Unaltered Olivine 
 
 Sample 
 
 m«o 
 
 Si( ), 
 
 Fe 2 3 
 
 Al. Ti, Cr, 
 (Oxides) 
 
 CaO 
 
 lull. 1 n« 
 
 Corundum Hill A-l. 
 
 49.35 
 
 40.58 
 
 8.30 
 
 0.65 
 
 Trace 
 
 1.15 
 
 Corundum Hill C-l ... 
 
 48.62 
 
 4 1 . 50 
 
 7.52 
 
 0.50 
 
 Trace 
 
 1.19 
 
 Corundum Hill F-l... 
 
 48.57 
 
 40.20 
 
 7.66 
 
 1.94 
 
 0.00 
 
 1.42 
 
 Partly Serpentinized Dunite 
 
 Sample 
 
 MgO 
 
 Si0 2 
 
 Fe 2 O s 
 
 Al, Ti, Cr, 
 (Oxides) 
 
 CaO 
 
 [gn. 1 oss 
 
 Corundum Hill B-l .... 
 
 45.46 
 
 41.60 
 
 8.46 
 
 1.70 
 
 Trace 
 
 2.61 
 
 Corundum 1 lill D-l 
 
 47.52 
 
 41.10 
 
 8.70 
 
 0.48 
 
 Trace 
 
 2.87 
 
 Corundum Hill E-l 
 
 47.70 
 
 40. 'M 
 
 8.06 
 
 1.05 
 
 Trao 
 
 2.52 
 
 P. C. E. VALUE 
 
 Sample Corundum Hill A-l has a P.C.E. value of 
 
 +35. 
 
 petrographic analysis 
 
 Sample — Corundum Dunite. "The fresh rock is <>r various 
 shades of yellowish green, according t<> physical 
 and chemical conditions. . . . Olivine IS the only 
 abundant constituent of the rock, varying in tex- 
 ture from very fine to medium coarse, with occa 
 
 84 Chemical .ma I \ ms li \ I \ \ Minerals Testing Laboratory, Morris, Pennessei 
 '" Petrographic analysis from Pratl and I ewis, op. ci;., p. 86. 
 
L06 
 
 PORSTERITE OLIVINE DEPOSITS 
 
 sioiial individuals measuring half an inch or more 
 in diameter. . . . The olivine greatly exceeds all 
 other minerals in abundance. It presents all de- 
 grees of alteration to serpentine, only in rare cases 
 appearing perfectly fresh. It is also rarely the 
 case thai more than half of the mineral has been 
 altered. . . . The olivine in the unaltered sec- 
 tions ... is perfectly transparent and color- 
 less. . . . [The grains vary] in size from 0.5 mm. 
 to L2.0 mm. in diameter. The enstatite, which is 
 found in most of the sections, occurs in nearly 
 square or somewhat elongated sections of the 
 prism zone . . . [and] in the great majority of 
 cases it is also perfectly fresh " 
 
 NORTON DUNITE DEPOSIT 
 
 The Norton dunite occurs 14 miles south of Franklin 
 and one mile north of the North Carolina and Georgia 
 state line. This deposit occurs on the north side of Com- 
 missioners Creek and one mile west of Tallulah Falls rail- 
 road. The deposit forms a rugged hill overlooking the 
 creek. 
 
 This deposit contains little true olivine as it is com- 
 posed mostly of anthophyllite asbestos and chlorite. The 
 formation is nearly circular with a diameter of nearly 
 500 feet. The top of the formation is estimated to be 300 
 feet above creek level. 
 
 The Norton deposit is estimated to contain 10,000,000 
 tons of altered dunite above creek level. 
 
 chemical analysis^' 1 
 
 Amphibolized and Chloritized Dunite 
 
 Sample 
 
 MgO 
 
 Si0 2 
 
 Fe 2 3 
 
 Al, Ti, Cr, 
 (Oxides) 
 
 CaO 
 
 Ign. Loss 
 
 Norton A-1 
 
 39.04 
 
 43.62 
 
 10.24 
 
 2.20 
 
 1.32 
 
 2.20 
 
 
 
 P. C. E. VALUE 
 
 Sample Norton A-1 has a P.C.E. value of 20-23. 
 
 V", 
 
 Chemical analysis by T\ A Minerals Testing Laboratory, Norris, Tennessee. 
 
of North Carolina and Georgia 107 
 
 petrographic analysis^ 
 
 Sample — Norton A-l. The rock appears to have been an 
 olivine which has been highly altered. Remnants 
 of what appears to be olivine were found. The 
 principal alteration product is chlorite, making- up 
 40 to 50 per cent of the rock. 
 
 A fibrous mineral with typical amphibole cross- 
 section cuts across the other minerals. The parallel 
 extinction of the fibers would indicate that it is 
 anthophyllite. The rock contains 15 to 20 per 
 cent of this mineral. 
 
 Small euhedral crystals of magnetite, estimated 
 
 at about 5 per cent are distributed throughout the 
 
 rock. A small amount of talc was also observed. 
 
 There are many other olivine deposits occurring in 
 
 the Ellijay area but the few described here are the most 
 
 accessible and most typical. The best of the others occur 
 
 on Higdon Mountain and in the headwaters area of 
 
 Walnut Creek and Little Buck Creek. 
 
 BUCK CREEK-SHOOTING CREEK AREA 
 
 The Buck Creek-Shooting Creek area is estimated to 
 contain 325,000,000 tons of serpentinized dunite and 
 60,000,000 tons of relatively sound olivine. 
 
 The Buck Creek-Shooting Creek area is located about 
 100 miles southwest of Asheville, N. C. This area ex- 
 tends from the central part of Towns County, Georgia, to 
 near the Clay-Macon County line in North Carolina. The 1 
 area, which is about 13 miles long and 7 miles wide, 
 extends from Hiwassee, Georgia, to Rainbow Springs, 
 N. C. The eastern part of the area is drained by the 
 Nantahala River, the central by Shooting Creek, and the 
 southwestern by the Hiwassee River; all of which are 
 tributaries of the Tennessee River. 
 
 The topography of the area consists of broad \ alleys 
 and rolling hills for the central part and rugged moun- 
 tains for the southwestern and northeastern part. Most 
 
 87 Petrographic analysis byW, Wurth Kriegel, Departmem "i Ceramic I ngineering, 
 
 University ot North ( '.iiolm.i, Raleigh, North Carolina. 
 
L08 FORSTERITE OLIVINE DEPOSITS 
 
 of the eastern half of the Buck Creek-Shooting Creek 
 area is above 1,000 feet in elevation. 
 
 A branch line of the Southern Railway serves Hayes- 
 ville, N. ('., located about three miles west of the central 
 part of the area. U. S. Highways 64 and 76 pass through 
 the area. 
 
 BUCK CREEK DEPOSIT 
 
 The Buck Creek dunite is located in the eastern part 
 of Clay County, N. C, 25 miles east of Murphy, N. C. 
 This deposit occurs two and one-half miles up Buck Creek 
 and near the top of the rugged Nantahala Mountains. 
 U. S. Highway 64 passes over part of the southern corner 
 of the formation. 
 
 The Buck Creek deposit is the largest single outcrop 
 of dunite in the entire olivine belt. This deposit is 4,500 
 feet wide at the eastern end and tapers to a narrow fringe 
 at the western end. It has a length of about one and one- 
 half miles. The topography of the deposit is rather 
 rugged, as much of it is dunite cliffs. Part of the forma- 
 tion rises to more than 700 feet above Buck Creek, which 
 is carved as a gorge near the eastern part of the 
 formation. 
 
 The Buck Creek dunite consists of a series of in- 
 trusions, some of which have undergone much alteration. 
 The deposit is cut by many small pegmatites which aided 
 in alteration of parts of the dunite into chlorite. How- 
 ever, part of the deposit has remained relatively sound. 
 Near the middle of the steep outcrop rising to the west of 
 Buck Creek there occurs a zone about 250 feet wide of 
 semigranular and partly friable olivine. This zone ex- 
 tends from near Buck Creek westward to Smaragdite 
 Hill, a distance of about 2,000 feet (see Plate 29) . Many 
 of the samples taken from within this zone show only a 
 small amount of alteration to serpentine and other 
 minerals. 
 
of North Carolina and Georgia 
 
 109 
 
 A conservative estimate of 300,000,000 tons of dunite 
 above Buck Creek is made for the deposit. The tonnage 
 of rather fresh, granular olivine for this deposit is esti- 
 mated at 52,820,000 tons. The Buck Creek olivine 
 deposit is by no means the best one in the area, but it is 
 important because of its enormous size and its location 
 only 30 miles from the TVA Hiwassee Dam and only 10 
 miles from one of the large Nantahala Power plants of 
 the Aluminum Company of America. 
 
 Other deposits of dunite occur in this area, mainly in 
 the southern end. Some of the deposits in the vicinity of 
 Hiwassee, Towns County, Georgia, contain fairly good 
 olivine but they were not mapped or sampled, because 
 
 Plate 29 
 
 GONTOU" INTERVAL JOFEET 
 OATUy MEAN SEA LEVEL 
 
 TOPQ&WAPKT FROM NC GtOL lUBVE*. VOL I, PLATE V 
 
 BUCK CREEK DEPOSIT 
 
 LEGEND 
 
 [Xvj RELATIVELY UNALTERED GRANULAR OLIVINE 
 
 [££3 SERPENTINIZEO DUNITE 
 
 TALCY VERMICULITE FRINGE ZONE 
 Hill BIOTITE SCHIST 
 ^^ HORNBLENDE GNEISS 
 
1 1(1 
 
 FORSTERITE OLIVINK DkI'OSITS 
 
 of inaccessibility of the deposits from a commercial pro- 
 duct inn standpoint. 
 
 CHEMICAL ANALYSIS 
 
 Sf.kp i:\timzkd Dun it?: 
 
 Sample 
 
 MgO 
 
 SiOs 
 
 Fe ,1 » 
 
 Ti, Cr, \l. 
 m fxides) 
 
 Ca( ) 
 
 [gn. Loss 
 
 Murk Creek \-1 
 
 46.52 
 
 38.70 
 
 10.70 
 
 2.52 
 
 0.56 
 
 1.77 
 
 P. C. E. VALUE 
 
 Sample Buck Creek A-l has a P.C.E. value of 35 
 to 37. 
 
 PETROGRAPHIC ANALYSIS 
 
 Sample*'-' — Buck Creek Dunite. The dunite in the unaltered 
 portions is light yellowish green to dark oil-green 
 in color and of medium to fine-grained texture. It 
 frequently possesses a laminated structure similar 
 to that of the Webster dunite, though this char- 
 acter is by no means constant. In the various 
 stages of serpentinization it becomes dark-green 
 to greenish or brownish black. Black grains of 
 chromite can generally be seen in the hand speci- 
 men. On the weathered surfaces the dunite of 
 this area is very similar to that of the other dis- 
 tricts throughout the region, and presents the 
 characteristic dark brown or dun color, except 
 where very much serpentinized, and in such places 
 it is nearly black. 
 
 The microscopic character of the dunite is re- 
 ported as follows : The rock consists essentially 
 of olivine with small, variable amounts of green 
 and colorless amphibole, chromite, and magnetite. 
 In a great majority of the sections studied, altera- 
 tion has given rise to one or more of the secondary 
 products — serpentine, talc, chlorite, carbonates, 
 and iron oxides. 
 
 - s Chemical analysis made by TV A Minerals Testing Laboratory, Norris, Tennessee. 
 89 Pratt and Lewis, op. cit., p. 73. 
 
of North Carolina and Georgia 111 
 
 The olivine is perfectly colorless in the thin sec- 
 tion and never shows crystal boundaries. It is 
 generally cracked irregularly, particularly in the 
 beginning of the change to serpentine. . . . The 
 grains usually average from 0.5 mm. to 1 mm. in 
 diameter, though isolated individuals of 5 mm. to 
 6 mm. are sometimes seen. With the exception of 
 occasional rounded grains of chromite, the olivine 
 is entirely free from primary inclusions. . . . 
 With the beginning of alteration the borders and 
 portions along the cracks often become clouded 
 with dustlike or granular segregations of iron 
 oxides. 
 
 The larger iron oxide spots are almost invaria- 
 bly associated with lath-shaped or confused aggre- 
 gates of chlorite. In some cases the olivine alters 
 extensively to chlorite, which penetrates the grains 
 generally along the cleavage cracks first, though 
 frequently in diagonal directions, in long slender 
 laths, sometimes passing uninterruptedly through 
 two or three grains. 
 
 Sample' 10 — Buck Creek A-2. The principal constituent of 
 this rock is olivine, which amounts to about 70 
 per cent of the rock. About one-third of the olivine 
 is highly shattered and altered to antigorite. The 
 olivine crystals vary in size from 0.3 mm. to 5 
 mm. with the majority about 1.5 mm. to 2 mm. in 
 diameter. 
 
 Between 15 and 20 per cent of the rock is com- 
 posed of antigorite, which is apparently largely 
 derived from the olivine and is found cutting 
 through olivine crystals. Sonic of the antigorites 
 is derived from chlorite. The antigorite appears 
 nearly iron free, thus indicating thai the olivine 
 is a low-iron mineral approaching forsterite in 
 composition. 
 
 The chromite is much less in amount t han would 
 appeal - from the hand specimens, and amounts to 
 
 onlv a few per cent. The majority occurs as skele- 
 
 80 Petrographic analysis by W, Wurth Kriegel, Department ol Ceramii Engineerin 
 University of North Carolina, Raleigh,JN.*C 
 
li- Forsterite Olivine Deposits 
 
 ton crystals in large crystals of chlorite. A lesser 
 amount was found as small crystals in the olivine. 
 
 The chlorite amounts to about l<> per cent of the 
 rock and occurs only with the chromite as already 
 mentioned. 
 
 Thin black veins in the hand specimens appear 
 to contain a high concentration of limonite. 
 
 BURTON LAKE AREA 
 
 The Burton Lake area occurs in a rugged part of the 
 Blue Ridge Mountains about six miles west of Clayton, 
 Rabun County, Georgia. This is a small area drained 
 by the Tallulah River whose waters flow into the Atlantic. 
 The area is crossed by U. S. Highway No. 76, and the 
 Tallulah Falls Railroad passes through Clayton, Georgia. 
 
 THE BURTON LAKE OLIVINE DEPOSIT 
 
 The Burton Lake olivine deposit occurs near the 
 western part of the area 12 miles west of Clayton, Ga., 
 and 30 miles southeast of Murphy, N. C. ; U. S. Highway 
 No. 76 passes over the deposit. This deposit is about 
 2,600 feet long and 800 feet wide outcropping mainly 
 south of the highway along the sides and crest of a sharp 
 ridge. The part of the formation on the north side of 
 the highway forms a steep slope facing away from the 
 road. 
 
 This whole deposit is of inferior dunite because of 
 the high lime and iron content (see following analysis). 
 Much of the dunite in this deposit shows serpentinization 
 in the hand specimens. Near the central part of the 
 western slope of the south ridge pyrite occurs in the 
 olivine, which is the only occurrence noted in the area 
 covered by this survey. This deposit contains several 
 interior faults which have been partly prospected for slip 
 fiber asbestos. Olivine in this deposit might be suitable 
 for chemical use. 
 
of North Carolina and Georgia 
 
 113 
 
 CHEMICAL ANALYSIS 
 
 
 Partly Altered Dunite 
 
 
 
 Sample 
 
 MgO 
 
 Si0 2 
 
 Fe 2 3 
 
 Al, Ti, Cr, 
 
 (Oxides) 
 
 CaO 
 
 [gn. Loss 
 
 Burton Lake A-l 
 
 45.54 
 
 37.80 
 
 13.44 
 
 1.92 
 
 0.18 
 
 2.03 
 
 
 Partly Altered Pyroxenite 
 
 
 
 Sample 
 
 MgO 
 
 Si0 2 
 
 Fe 2 3 
 
 Al, Ti, Cr, 
 (Oxides) 
 
 CaO 
 
 Ign. Loss 
 
 Burton Lake B-l 
 
 20.40 
 
 50.80 
 
 6.56 
 
 1.78 
 
 19.82 
 
 1.29 
 
 P. C. E. VALUE 
 
 Sample Burton Lake B-l has a P.C.E. value of — 21. 
 
 PETROGRAPHIC ANALYSIS 92 
 
 Sample — Burton Lake B-l. The principal constituent of 
 this rock is the pyroxene, diopside, which com- 
 prises about 90 per cent of the rock. The rock is 
 for the most part fine-grained, being made up of 
 crystals 0.1 mm. or less in diameter with a few 
 larger crystals about 1 mm. in diameter. The 
 larger crystals show partial alteration to what 
 appears to be antigorite. The smaller crystals 
 show a small amount of alteration in a few fields 
 to one of the horneblendes, probably actinolite. 
 
 Scattered throughout the rock are many very 
 small crystals of magnetite. It is estimated thai 
 the magnetite constitutes from 3 to 5 per cent of 
 the rock. A small amount of chlorite was also 
 observed. 
 
 THE LAUREL CREEK AREA 
 
 The Laurel Creek area is located in the northeastern 
 part of Rabun County, Georgia. The area is in moun- 
 tainous territory on the eastern slopes of the Blue Ridge 
 
 M Chemical analysis by TV A Minerals Testing I aboratory, Morris, rennesse< 
 '■'- Petrographic analysis by W. Wurth ECriegel, Department ol Ceramic Engine* 
 University of North Carolina, Raleigh, N C. 
 
1 1 1 FORSTERITE OLIVINE DEPOSITS 
 
 near the point where the South Carolina, Georgia, and 
 North Carolina state lines join. The entire area is 
 drained by Wowoman Creek and other tributaries of the 
 Savannah River which flows into the Atlantic. The area 
 is crossed by U. S. Highway No. 28 and several good 
 National Forest roads. The nearest railroads are at 
 Clayton, Ga., 15 miles to the west, and at Walhalla, S. C, 
 15 miles to the southeast. 
 
 THE LAUREL CREEK OLIVINE DEPOSIT 
 
 The Laurel Creek dunite occurs about one and one- 
 half miles east of Pine Mountain, Georgia. This dunite 
 body is about 2,500 feet long and averages about 1,200 
 feet wide; and outcrops in the form of two rounded 
 masses joined by a narrow neck (see Plate 30). The 
 topography of the deposit is essentially bluffs of olivine 
 facing Laurel Creek, except where several small tribu- 
 taries of Laurel Creek have cut small gorges across the 
 formation. 
 
 The northeastern part of the Laurel Creek olivine 
 deposit is the largest part of the formation and rises 
 about two hundred feet above creek level. Most of the 
 olivine is a relatively fresh and coarse-grained granular 
 type ; however, it probably contains 20 per cent talc and 
 anthophyllite asbestos which is uniformly distributed 
 through the mass. With these minerals so thoroughly 
 mixed with the olivine, it is doubtful that the deposit will 
 be of value as a source of olivine in the near future. 
 
 The western hill of this olivine deposit, covered with 
 boulders and thin residual soil, rises about 100 feet above 
 Laurel Creek. The southeast side of this mass is altered 
 to a bluish serpentine but the central part is composed 
 of relatively sound interlocking crystalline olivine. The 
 material shows serpentinization along joints and cracks 
 and it is likely that many of the individual grains are 
 partly serpentinized. This part of the deposit shows few 
 secondary minerals. 
 
of North Carolina and Georgia 
 
 115 
 
 Plate 30 
 
 SCALE 
 
 230 500 
 
 CONTOUR INTERVAL JO FCCT 
 D*TUM ASSUMED 
 
 LAUREL CREEK DEPOSIT 
 
 LEGEND 
 
 RELATIVELY UNALTERED granular OLIVINE 
 SERPENTINIZEO OUNITE 
 TALCY VERMICULITE FRINGE ZONE 
 BIOTlTE SCHIST 
 p^j HOHNBLENOE GNEISS 
 
116 
 
 FoRSTERITE OLIVINE DEPOSITS 
 
 The Laurel Creek dunite deposit probably contains 
 the best olivine in the slate of Georgia, as it shows less 
 alteration than any other deposit examined in Georgia. 
 The deposit has favorable topography for quarry sites 
 and it is estimated that the formation contains, above 
 Laurel Creek level, about 1,440,000 tons of relatively 
 unaltered olivine and 17,650,000 tons of serpentinized 
 dunite. 
 
 CHEMICAL ANALYSIS 
 
 93 
 
 Serpentinized Dunite 
 
 Sample 
 
 MgO 
 
 Si0 2 
 
 FeiOs 
 
 Al. Ti. C'r. 
 (( hides) 
 
 CaO 
 
 Ign. Loss 
 
 1 .mill Creek A-l. 
 
 42.17 
 
 43.92 
 
 8.94 
 
 1.40 
 
 0.00 
 
 3.94 
 
 PETROGRAPHIC ANALYSIS" 
 
 Sample — Laurel Creek B-l. Originally the rock was 
 coarsely crystalline with crystals ranging up to 
 3 mm. or 4 mm. in diameter. The two principal 
 constituents were olivine and pyroxene (diopside) 
 in the ratio of about 2 to 1. The rock is now high- 
 ly shattered and altered so that the remaining 
 crystals of olivine and diopside average about 0.1 
 mm. in diameter. 
 
 The olivine appears to have been fairly high in 
 iron content as evidenced by iron oxide occurring 
 with the antigorite. 
 
 The principal alteration product is antigorite, 
 which make up 30 to 40 per cent of the rock. 
 
 In addition to the minerals discussed above, a 
 small amount of chromite (less than 1 per cent) 
 and a few crystals of talc were observed. 
 
 P. C. E. VALUE 
 
 Sample Laurel Creek B-l has a P.C.E. value of +36. 
 
 To the northeast of the Laurel Creek deposit there 
 
 occur several additional dunite formations which were 
 
 93 Chemical analysis made by TVA Minerals Testing Laboratory, Norris, Tennessee. 
 
 94 Petrographic analysis made by W. Wurth Kriegel, Department of Ceramic Engineer- 
 ing, University of North Carolina, Raleigh, N. C. 
 
of North Carolina and Georgia 
 
 117 
 
 not mapped nor sampled because of their occurrence at 
 points extremely inaccessible from a commercial pro- 
 duction standpoint. 
 
 South and west of the Laurel Creek deposit the dunite 
 formations in the area have largely been altered into 
 anthophyllite asbestos. 
 
 Plate 31 
 
 % 
 
 $&&-.. 
 
 *■*■■ ^^ra*I . 
 
 l*r-± A 
 
 ^'%* 
 
 ~&A 
 
 4X~W 
 
 - 
 
 Olivine is shipped in open cars 
 
I 
 
 
 I 
 
 
 
 
 
 
 
 
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