SUBSURFACE GEOLOGY OF THE COCHRAN PEGMATITE, CHEROKEE-PICKENS DISTRICT, GEORGIA Alexander J. Gunow Gregory N. Bonn Bruce J. O'Connor Georgia Department of Natural Resources Environmental Protection Division Georgia Geologic Survey GEOLOGIC REPORT 5 Subsurface Geology of the Cochran Pegmatite, Cherokee-Pickens District, Georgia Alexander J. Gunow Gregory N. Bonn Bruce J. O'Connor Georgia Department of Natural Resources Joe D. Tanner, Commissioner Environmental Protection Division Harold F. Reheis, Director Georgia Geologic Survey William H. McLemore, State Geologist Atlanta 1992 Geologic Report 5 TABLE OF CONTENTS Page Abstract ..................................................................................................... 1 Introduction ............................................................................................. 2 General r>escription ................................................................................ 3 Results ....................................................................................................... 6 Discussion................................................................................................. 9 References ................................................................................................. 10 Appendices ............................................................................................... 11 A. Drill Hole Information and Mineralogy ......................... 11 B. Lithologic r>escription of Drill Core ............................... 17 LIST OF ILLUSTRATIONS Page Figure 1. Location map of the Cochran Mine.................................... 4 Figure 2. Geologic map of the Cochran Pegmatite........................... 5 Plate 1........................................................................................................ Pocket iii SUBSURFACE GEOLOGY OF THE COCHRAN PEGMATITE CHEROKEE-PICKENS DISTRICT, GEORGIA by Alexander J. Gunow, Gregory N. Bonn and Bruce J. O'Connor ABSTRACT Five core holes were drilled in the Cochran pegmatite located in northeasternCherokeeCounty, Georgia, in orderto evaluate the subsurface features of this rock body. All five holes were started on or just below the hangingwall and verticallyoriented to drill completelythrough the pegmatite body. The core holes ranged in depth from 115 to 170 feet and yielded information onpegmatitecontinuity,orientation, width (thickness), mineralogy, and weathering. The following seven rock units were encountered in the core: 1) garnet-quartz-muscovite-biotite schist, the hanging wall host rock of the Cochran pegmatite belonging to the Dean Formation of the Late Precambrian Great Smoky Group; 2) border zone pegmatite consisting of a 6 inch to 1 foot wide zone of quartz, muscovite, tourmaline and feldspar; 3) weathered pegmatite, interior to the border zone, composed primarily of saprolitized feldspar and disseminated tourmaline, muscovite, quartz, and beryl; 4) partially weathered pegmatite characterized by the same mineralogy and textures as weathered pegmatite, but with feldspar that is significantly less decomposed; 5) quartz core consisting of a 1 to 15 foot wide zone of massive white or smoky quartz and surrounded by a zone containing 10 volume percent quartz veins in pegmatite; 6) fresh pegmatite with the same mineralogy as the partially weathered pegmatite (4 above), but with variable textures including graphic, fine- and medium-grained pegmatite; and 7) Dean Formation schistose metaconglomerate in the footwall of the pegmatite (at the bottom of all five drill holes). Geophysical logs for gamma ray and self-potential were obtained for each of the drill holes. In general, however, neither logs revealed a direct correlation with identified lithologies. However, contacts between the lithologic units show significant positive or negative deflections in the gamma signal. 1 Introduction The drilling project at the Cochran Mine is an outgrowth of previous pegmatite investigations conducted by the Georgia Geologic Survey. Detailed geochemical work by Gunow and Bonn (1989) provided a data base for detecting anomalous mineralization within the Cherokee-Pickens district. Early geologic investigations by Furcron and Teague (1943) and Galpin (1915) give descriptions of mica-bearing pegmatite throughout Georgia and are important references concerningproduction and historical records. As part of the Accelerated Economic Minerals Program for the Georgia Department of Natural Resources, the Georgia Geologic Survey initiated a geochemical investigation of pegmatite districts within Georgia. The purpose ofthis geochemical investigation was to evaluate the economic potential of major and rare element mineralization within the associated pegmatites. In 1986, a geochemical study of the Cherokee-Pickens district pegmatites identified the Cochran Mine as anomalous with respect to several geologic and geochemical features and as having economically favorable characteristics (Gunow and Bonn, 1989). The favorable characteristics for this pegmatite include: 1) A significant outcrop exposure. 2) Mineral zonation and replacement features within the pegmatite. 3) Evidence for volatile enrichment within the pegmatite. (Anabun- dance of hydroxyl- and boron-bearing minerals). 4) An exocontact zone of tourmalinization. 5) Anomalous enrichment of incompatible trace elements in associ- ated muscovite. (High values for Rb, Nb, Li, F, and Be). 6) Extensive weathering of the pegmatite, making the deposit ame- nable for mineral extraction. As a result of these favorable characteristics, five drill sites were selected at the Cochran Mine to evaluate the subsurface features of this pegmatite body. The authors thank B. Thames and L. Gorday for theircontributions in various phases of the drilling and geophysical logging operations. Helpful suggestions and reviews for this manuscript were provided by staff members of the Georgia Geologic Survey. 2 General Description The Cochran Mine is located in northeastern Cherokee County, Georgia, approximately 2.6 miles N80E of Ball Ground and 0.55 miles east of Long Swamp Creek (Figure 1). It includes two outcrop areas which have been mined; an active upper pit and an abandoned lower pit (Figure 2). Whenexaminedin1986thelowerpitmeasuredappro:ximately180feetlong by 60 feet wide and trended about N36E. The pit walls are composed of saprolitized feldspar and perthite and contain significant quartz and muscovite with minor tourmaline, beryl and garnet. The pegmatite exhibits both fine- and medium-grained pegmatite textures. The pegmatite in the upper pit trends N70-75E and dips 48-53 southeast. Present exposure (in 1986) in the upper pit measures roughly 30 by 300 feet. Although deeply weathered, this portion of the pegmatite exhibits a wide variety of textures including graphic, as well as fine- and medium-grained pegmatite. Individual crystals of tourmaline, beryl and muscovite up to 2 feet long are present in the upper pit. Overall, the Cochran pegmatite is a zoned pegmatite containing a fine-grained, dark muscovite-bearing border zone up to 6 inches wide. The interior portion of the pegmatite consists of an intermediate zone dominated byperthite, medium-grained pegmatiteand graphic granite. Locally, fine-grained pegmatite dikes up to 2 inches wide cut medium-grained pegmatite. Thecentralportionofthepegmatiteconsistsofa zoneofmassive quartz. Most of the beryl associated with this pegmatite is found either in the quartz core or in zones adjacent to the core. The pegmatite has an apparent age of 356. 20 m.y. based on muscovite K-Ar methods (Gunow and Bonn, 1989). The surrounding countryrock consistsofquartz-muscovite-biotite schist and biotite-bearing metaconglomerate of the Late Precambrian Great Smoky Group. Detailed geochemical analyses were performed on samples from pegmatite and country rock outcrops. These and other data are given in Gunow and Bonn (1989). Although the Cochran pegmatite exhibits many economically favorable characteristics, the geologic information concerning this deposit was limited to outcrop exposure. In order to assess this deposit more adequately, subsurface information was obtained by core drilling and geophysical logging. Desired information includes pegmatite continuity, orientation, width, and mineralogy. Field investigations indicate that the pegmatite trends northeast and dips to the south. Consequently, all five holes were drilled on the hanging wall and vertically oriented to drill completely through the pegma- 3 Base from U.S. Geological Survey 1:24,000 Ball Ground East, 1973, photorevised 1985. [:0=====:::::~:=======~1 MILE (:0===:::J;;;;;;;;;;;;;;;~1 KILOMETER Figure 1. Location map of the Cochran Mine in northeastern Cherokee County (U.S. Geological Survey, Ball Ground East, Georgia, 1:24,000 topographic quadrangle). 4 C)~ ~.i -Dl N a.n &~ =C)O ::::J 0n3. ~~ N t r 0 100 200 300 feet .L-r....J.._----L, 50 100 meters Contour Interval - 10 feet ~"g Pcgld gson'.f- .. 0 Cll :0~ - ----- ..... .,... .,.,......p. .e...g Quartz float ., / .,.,..,.,- Prospect P~ dhS )I:> o dh4 X ~O::O:D:JI ::n"'d ~-1'-!-"!I:..>:.r.. // Clo14 .-/ / / _~P1ro.6..s..p-ecl-plt- - - - - - - - -- Pcgld - (... ..... ~ ~ m j ... r:...:;,; :J ~~ ~~j,fcS;fl:_ ~w."~ EXPLANATION Pegmatite (outcrop in pattern) Schist of the Dean Fonnatlon (outcrop In pattern) Contact of rock units Inferred contact #i/itl\ Foot of mine dump 1. Surface sample location dh3X Drill hole location tite body. The general orientation of the pegmatite and placement of drill holes were established by field mapping and are shown in Figure 2. Results Lithologic Description NX drill core (1.875 inches in diameter) was obtained from all five drill holes by utilizing a combination of conventional singlebarrel methods and diamond core, wireline methods. The single barrel method was used to drill through hanging wall host rock and moderately weathered pegmatite. The wireline method was used through the highly weathered pegmatite, moderately weathered pegmatite, and below the moderately weathered zone. The holes were started on or just below the hanging wall and vertically oriented to drill completely through the pegmatite body. All holes were relatively shallow, vertical holes, ranging from 115 to 170 feet in total depth. Lithologic logs were prepared for all of the core material using standard geologic methods of visual examination and mineral identification. The relative abundance of the mineral constituents were estimated visually for each 10 foot interval of core (see Appendix A). Lithologic descriptions were prepared based upon routine visual examinationand are summarized in Appendix B. For this report the nomenclature for rocks of the Dean Formation, Great Smoky Group, and the Ocoee Supergroup, is that designated by McConnell and Costello (1980). The following rock units were recognized within the core and outcrop: 1) Mica Schist: This is hanging wall host rock of the Cochran pegmatite. It consists of a well-foliated quartz-muscovite-biotite schist belonging to the Dean Formation of the Great Smoky Group. For the purpose of this paper, it is referred to as mica schist. This unit weathers to a distinctive red saprolite outcrop, which strongly contrasts to the white outcrop of the pegmatite. Mica schist is best exposed on the south side of the u~per pit. Here, the foliation of the schist trends approximately N70 E and dips 50SE. In general, the pegmatite is concordant with this host rock foliation. The mica schist contains 1-5% poikiloblastic garnets up to 1/8" wide and traces (<1 %) of green disseminated tourmaline less than 1/8 inch wide. Weathered garnet from weathered portions of the mica schist exhibit a skeletal framework of hematite containing inclusions ofquartz and biotite whichare concentrated in separate zones 6 or sectors of the relict garnet. Replacement biotite after garnet is commonly observed at the edges of the poikiloblasts. Near contacts with the pegmatite, the mica schist is locally tourmalinized. This alteration is characterized by coarse- grained quartz-muscovite-tourmaline lenses up to 6 inches wide and elongate parallel to the foliation trend. Individual tourmaline crystals within the podiform lenses are up to 0.5 inches wide. 2) Border zone pegmatite: A thin, 6 inch to 1 foot wide border zone of quartz-muscovite-tourmaline-feldspar is present as a border phase of the pegmatite. Muscovite from the border zone, occurring as crystals up to 2 inches wide, has a distinctive dark gray coloration. The crystals are generally oriented perpendicular to the contact with the pegmatite. Feldspar, a minor constituent of the border zone, is generally weathered to kaolinite. The border zone is best observed in outcrop at the hanging wall exposures in the upper pit. 3) Weathered pegmatite: Interior to the border zone is a zone of weathered pegmatite. This zone is primarily composed of saprolitized, crumbly feldspar. This material consists of white, powdery microcline, kaolinite, or a combination of these minerals. X-rayanalysesofsaprolitizedfeldsparindicatethepresenceofboth minerals. In outcrop, weathered pegmatite exhibits extremely well preserved textural features includinggraphic, perthitic, fine-grained pegmatitic, and coarse-grained pegmatitic textures. Locally, one foot wide, fine-grained pegmatite dikes cut coarse-grained pegmatite. Additional minerals within the weathered pegmatite include quartz, and disseminated muscovite, tourmaline, weathered garnet and beryl. Muscovite appears to be particularly stable in weathered pegmatite. Gamet typically weathers to 0.25 to 2 inch wide masses of dark gray iron and manganese oxides, and quartz. The tourmaline typically exhibits muscovite alteration rims. These rims are probably the result of endocontact replacement during the late stages of pegmatite crystallization. The disseminated tourmaline, muscovite and beryl crystals are as much as 8 inches long within the weathered pegmatite. Core recovery within weathered pegmatite varied from 54 to 94% (see Appendix B). 4) Partially Weathered pegmatite: Beneath the weathered pegmatite isa partiallyweathered zonecharacterizedby the same mineralogy and textures as that from the weathered zone (3), but exhibiting 7 feldspar that is significantlyless decomposed. Asa result, partially weathered pegmatite is a more competent rock and contains only minor kaolinite; but it is characterized by high friability. The friability is probably the result of partial decomposition that promotes splitting along the feldspar cleavage. Because of the friable nature of partially weathered pegmatite, drilling through this material yielded a core sample that had a distinctive granular appearance resemblinggranular sand. The poorestcore recoveries in the drill holes were associated with this unit (7-40%). 5) Quartz core: A quartz core zone was encountered beneath partially weathered pegmatite. This zone contains a 1-15 foot wide zone of massivewhite or smokyquartz surroundedbya zone containingat least 10% (volume) quartz veins. Beryl is most common within quartz veins from this zone. Core recovery from the quartz core was highly variable due to pronounced variations in rock competency immediately adjacent to the quartz-rich zone. 6) Fresh pegmatite: Fresh pegmatite was encountered beneath the quartz core in drill holes #3, 4 and 5. Fresh pegmatite is characterized by variable rock textures including graphic, fine-grained pegmatitic and medium-grained pegmatitic. Dominant minerals are identical to those within the altered portions of the pegmatite except that feldspar is unaltered. Perthitic texture within feldspar is common. Beryl is slightly less abundant than in the core zone. Fresh pegmatite contains interstitial clots of muscovite-tourmaline-quartz and beryl. Replacement features are common, indicated by muscovite envelopes and rims on the disseminated minerals. Some of these mineral segregations exhibit exceptional growth. Tourmaline and beryl crystals over 1 foot wide are common within this zone. Core recovery from this unit was highly variable (10-100%). 7) Biotite-bearing metaconglomeratic schist and schistose metaconglomerate: This unit was found at the footwall of the Cochran pegmatite and was encountered in all five of the drill holes. It is a well-foliated, dark gray, fine- to medium- grained schistose rock containing 5-35 volume percent ellipsoidal, relict detrital clasts of feldspar, and lithic fragments up to 1 inch wide. The clasts are typically flattened parallel to the foliation within the rock (50-70 to the core axis). This unit is locally silicified and portions of this unit show relict sedimentary crossbedding or graded bedding. The percentage of coarse, relict detritaJ clasts 8 changes abruptly from layer to layer in the metaconglomerate. Fractures within the metaconglomerate typically contain chlorite. Pyrite is disseminated within this unit or along fracture planes. Disseminated almandine garnet, up to 1/8 inch in diameter, is occasionally observed within the metaconglomerate. Core recovery from this unit was excellent (70-100%). Asummarygraphiclithologiclogforeachofthedrillholesfromthe Cochran Mine is given in Plate 1. All five holes intersected pegmatite at depth and three of the five holes were started in pegmatite. Typical host rock-pegmatitecontactssuggestthatthecontactsparallel the lineations and foliation in the metaconglomerate (50-70 to the core axis). If this is the case, the Cochran pegmatite is at least 90 feet wide and appears to widen towards the southwest. Geophysics: Geophysical logs for gamma ray and self-potential were obtained for most of the drill holes. Geophysical logs were not obtained from core hole #1, due to caving within the hole. The results of these logs are summarized in Plate 1. The geophysical logs in Figure 3 are plotted with zero as the base for relative comparison. Gamma intensity is plotted in counts per second and self potential is plotted in millivolts. In general, neither the self-potential or gamma ray logs show a direct correlation with lithologies identified in the core. However, contacts between the lithologic units show significant positive or negative deflections in the gamma signal. Discussion The results from the drilling program verify the southeast dip of the pegmatite dike, suggest that the pegmatite iscontinuousbetweendrill holes and that it is at least 90 feet wide. This information, combined with information obtained by surface exposures, suggests that the pegmatite is continuous from the lower pit through the upper pitand extends at least 600 feet west of the upper pit workings. Assuming an average minable width of 100 feet exposed at the surface, the following pegmatite reserves are estimated: Proven reserves: 250,000 tons (25 foot depth) Probable reserves: 550,000 tons (50 foot depth) 9 These estimates assume a maximum of 9 feet of overburden and that the pegmatite averages about 166lbs/cubic foot. Given the depth of weathering observed within these drill holes, the Cochran pegmatite should be amenable for relatively economical mineral extraction by open pit mining. Potentially economic or by-product minerals include feldspar, quartz (for high purity silica), kaolinite and beryl. References Furcron, A.S., and Teague, K.H., 1943, Mica-bearing pegmatites of Georgia: Georgia Geologic Survey Bulletin 48, 192 p. Galpin, S.L., 1915, A preliminary report on the feldspar and mica deposits of Georgia: Georgia Geologic Survey Bulletin 30, 190 p. Gunow, A.J., and Bonn, GN., 1989, Mica geochemistry and origin of pegmatite, Cherokee-Pickens district, Georgia: Georgia Geologic Survey Bulletin 110,93 p. McConnell, K.I., and COstello, J.O., 1980, Guide to geology along a traverse through the Blue Ridge and Piedmont Provinces of north Georgia in Frey, R.W., ed, Excursions in southeastern geology, American Geological Institute, v. 1, p. 241-258. 10 APPENDIX A Drill Hole Information and Mineralogy Cochran Mine Cherokee-Pickens District, GA Drill Hole# 1 (GGS# 3563) Elevation at collar: 1172 feet Inclination: Vertical Total Depth: 115 feet Drill Hole# 2 (GGS# 3564) Elevation at collar: 1175 feet Inclination: Vertical Total Depth: 131 feet Drill Hole# 3 (GGS# 3565) Elevation at collar: 1239 feet Inclination: Vertical Total Depth: 170 feet Drill Hole# 4 (GGS# 3566) Elevation at collar: 1254 feet Inclination: Vertical Total Depth: 151 feet Drill Hole# 5 (GGS# 3567) Elevation at collar: 1254 feet Inclination: Vertical Total Depth: 160 feet Note: Structure and Foliation data indicate angular orientations relative to the long axis of the core. Feld =feldspar; Qt =quartz; Tml =tourmaline; Tr =trace amount. All percentages estimated visually and are approximate only. 11 APPENDIX A (cont.) Hole #1 Depth (ft) %Recovery %Qt %Clay %Mica %Feld %Tml %Other Structure 0-10 100 20 75 5 11-20 100 10 80 7 - 3 21-30 40 7 80 6 5 2 31-40 20 8 80 10 - 2 ......., 41-50 51-60 10 40 11 45 10 53 10 33 2 2 2 2 61-70 45 74 2 9 15 - - 71-80 81-90 95 40 10 20 30 Tr Tr 75 50 10 15 25 - Tr 91-100 100 70 5 10 15 - Tr 101-110 100 70 - 20 10 - - 111-115 100 70 - 21 9 - - 115 (=End of Hole) Foliation 5o-60o Foliation 40-50 Foliation 50 Foliation 30-50 Foliation 50 Foliation 600 APPENDIX A (cont.) Hole# 2 Depth (ft) %Recovery %Qt %Clay %Mica %Feld %Tml %Other Structure ~10 100 20 70 10 11-20 100 30 60 9 - 1 21-30 78 30 38 11 20 1 Tr w.... 31-40 41-50 51-60 18 10 30 9 40 10 35 9 20 25 15 14 50 1 45 1 45 1 61-70 26 15 10 59 15 1 - 71-80 22 15 15 60 10 Tr - 81-90 91-100 40 10 30 45 15 Tr - 100 40 10 20 30 - - 101-110 100 40 - 29 29 - 2 111-120 100 49 - 25 25 - 1 121-131 100 45 - 30 25 - - 131 (= End of Hole) so Foliation 20" 20" 2~30 50-60" 60" 50-60" APPENDIX A (conl) Hole# 3 Depth (ft) %Recovery %Qt %Clay %Mica %Feld %Tml %Other Structure 0-10 100 - 94 4 - 2 11-20 100 1 92 4 -- 3 21-30 100 1 90 8 - 1 31-40 100 1 90 8 - 1 41-50 100 10 71 15 - 4 51-60 20 15 70 14 - 1 - 30-so ~ A 61-70 100 6 85 8 - 1 71-80 58 39 50 6 4 1 81-90 91-100 20 77 10 8 4 1 Tr 89 15 38 5 40 1 1 Banding 60. 101-110 100 7 20 18 53 1 1 111-120 100 7 10 16 64 1 2 121-130 90 15 - 16 67 1 1 131-140 100 19 - 20 59 1 1 141-150 100 31 - 29 40 - Tr 151-160 161-170 100 30 - 30 100 28 - 32 40 - 40 - Tr Tr 170 (=End of Hole) 50-70. 50-70. 40-75. so Gneissic layers so 60-70. 70-75. APPENDIX A (cont.) Hole #4 Depth (ft) %Recovery %Qt %Clay %Mica %Feld %Tml %Other Structure 0-10 100 1 99 - - Tr ..... 11-20 100 4 90 5 - 1 U1 21-30 84 7 89 2 - 2 31-40 40 60 11 15 11 3 41-50 23 7 28 32 10 23 51-60 41 20 25 30 12 13 61-70 12 10 18 3 67 2 71-80 10 10 5 3 80 2 81-90 70 45 20 15 19 1 91-100 100 10 15 19 54 2 - 101-110 111-120 121-130 131-140 141-151 100 10 10 10 68 1 1 100 19 - 13 65 1 2 100 15 - 15 67 2 1 100 23 - 27 49 1 Tr 96 35 - 40 25 - Tr 151 (=End of Hole) 50-70" 50-70" 50-70" 50-70" 40-70" 50-70" APPENDIX A (cont.) Hole# 5 Depth (ft) %Recovery %Qt CfoClay %Mica %Feld %Tml %Other Structure 0-10 100 17 72 10 - 1 11-20 100 22 65 12 - 1 21-30 75 35 45 10 5 5 31-40 28 87 3 5 4 1 41-50 5 72 4 7 15 2 .... 51-60 5 37 3 8 51 1 0) 61-70 5 30 5 6 58 1 71-80 5 29 4 7 59 1 81-90 5 20 4 6 69 1 91-100 5 22 3 5 68 2 101-110 18 35 11 10 43 1 111-120 50 15 18 15 52 1 121-130 55 15 10 25 49 1 - 131-140 100 18 5 39 38 Tr - 141-150 151-160 100 10 2 37 37 Tr 14 100 10 - 40 35 Tr 15 160 (=End of Hole) 50-70" 50-70" 60-70" 60-70" APPENDIXB Lithologic Description of Drill Core Note: Kspar or K-feldspar =potassium feldspar (orthoclase or microcline) undifferentiated. C.A. = Core Axis DEP'IH(Ft.) Hole I 1 DESCRIPTION 0.0 7.0 7.0 10.0 10.0 16.0 16.0 18.0 18.0 40.0 40.0 50.0 50.0 55.0 Mine tailings and alluvium consisting of weathered mica schist and pegmatite. Abundant clay. Mine tailings and alluvium- same as above. Light brown clay and decomposed pegmatite containingwhitekaoliniteclumpsupto4inchesin length. Mine tailings and alluvium- same as 0-7 feet. Mine tailings and alluvium- same as 0-7 feet. Oay diminishes; crushed, "sandy" fragments ofquartz and feldspar predominate. Kaolinized pegmatite with local dark 1/8 inch bands of tourmaline. Kaolinized pegmatite- same as above. Muscovite is abundant, only minor K-feldspar. Massive, friable, milky quartz, containing light green muscovite crystals up to 2 inches wide. 17 APPENDIX B (cont.) Hole # 1, cont. DEP'IH (Ft.) DESCRIPTION 55.0 60.0 Kaolinized pegmatite containing white and gray quartz crystals, tourmaline, and muscovite crystals. 60.0 61.0 Biotite-rich metaconglomerate characterized by a dark gray, fine-grained groundmass exhibiting weak foliation, cross- bedding, and graded bedding. This unit typically contains white to light pinkellipsoidsofsub-rounded feldspar andquartz (up to 1 inch) in a dark gray biotite-rich matrix. This unit is poorly sorted and exhibits varying degrees of weathering indicated by a brownish discoloration of the groundmass. Local lenses of muscovite schist are present.The metaconglomerate is cut by numerous pegmatite dikes and stringers composed of fine to medium-grained quartz and K-feldspar. 61.0 62.0 Massive gray quartz dike cutting kaolinized tan to gray metaconglomerate. 62.0 90.0 Biotite-richmetaconglomerate (sameas60-61 feet) which is deeply weathered and has the appearance of a tan arkosic conglomerate. Traces of pyrite at 70-80 feet. 90.0 92.0 Biotite-rich metaconglomerate- same as 60-61 feet. 92.0 100.0 Biotite-richmetaconglomerate-sameas60-61 feet. The metaconglomerate showsa pronounced foliation with thin laminations ofbiotite up to 1/8 inch wide. Contains traces of pyrite and chlorite. 100.0 115.0 Biotite-rich metaconglomerate- same as60-61 feet. 115 =End of Hole 18 DEPTII (Ft.) 0.0 7.0 7.0 13.0 13.0 25.0 25.0 27.0 27.0 61.0 61.0 63.0 63.0 64.0 APPENDIX B (cont.) Hole I 2 DESCRIPTION Light orange to reddish mine tailings composed of weathered mica schist, pegmatiteand quartz fragments up to 2 inches across. Light brown, deeply weathered pegmatite composed of clay, iron oxide, quartz and mica crystals. Mica crystalsupto3inchesacross. White kaolinite clumps up to 6 inches wide. Kaolinized pegmatite containing dark bands and clots of weathered, highly fractured and oxidestained tourmaline up to 2 inches across. Muscovite has a greenish-gray coloration. Quartz zone with traces of disseminated pyrite (crystals up to 1/8 inch across). Quartz (30%) is clear to milky. Partially weathered, granular pegmatite. This interval contains both feldspar and quartz but the pegmatite appears to have been especially friable yielding a "sandy'' texture. Minor disseminated tourmaline and muscovite are present in the crushed pegmatite zone. The clay contentofthepegmatitewithin this zone decreases with depth. Coarse-grained muscovite and tourmaline in weathered pegmatite; abundant quartz and kaolinite. Muscovite and tourmaline crystals up to 2 inches across. Medium-grained, light tan-brown, iron oxidestained, sericitized metaconglomerate cut by numerous pegmatite stringers. Moderate foliation at 2C1'C.A. (Core Axis). Muscovite crystals in metaconglomerate(?) up to 1/8 inch across. 19 DEPTH (Ft.) 64.0 72.0 72.0 75.0 75.0 81.0 81.0 85.0 85.0 93.0 93.0 101.0 101.0 131.0 131 =End of Hole APPENDIX B (cont.) Hole # 2, cont. DESCRIPTION Light gray-tan, fine-grained sericitized schist, well foliated (20" C.A.). Numerous iron oxide stains and coated fractures. Sericite up to 1I 6 inch wide. Abundant tourmaline in sericitized schist and in quartz-mica stringers. Kaolinized and granular pegmatite dike containing xenoliths of schist and weathered iron oxide bands. Kaolinized, medium-grained, tan to light gray, sericitized schist. Dominant foliation 20-30" C.A. Strongly weathered, fine to medium-grained, tan to light gray metaconglomerate with local schistose laminations. Strong foliation; K-feldspar and quartz-bearing. Fine- to medium-grained biotite-rich metaconglomerate.This unit varies from tan to dark dependingupon thedegreeofweatheringinwhich biotite alters to sericite and iron oxide. Metaconglomerate (same as above) containing numerous ellipsoidal clasts of quartz and feldspar elongate parallel to foliation. At 100 feet fresh biotite-rich metaconglomerate is encountered. Metaconglomerate - same as 85-93 feet. 20 DEPTH (Ft.) 0.0 40.0 40.0 60.1 60.1 60.4 60.4 65.0 65.0 72.0 72.0 78.0 78.0 88.0 APPENDIX B (cont.) Hole# 3 DESCRIPTION Dark red, highly weathered, tourmaline-bearing, muscovite-biotite schist containing several thin stringers of tourmaline-bearing pegmatite. The pegmatite stringers are identified by tan to white kaolinite lenses within the red schist. Tourmaline crystals up to 1/8 inch across are present within the kaolinite lenses. Abundant tourmaline and muscovite are present in the schist adjacent to the pegmatite stringers. Muscovite crystals range up to 1 inch across in stringers. Weathered, kaolinized pegmatite characterized by white kaolinite with local bands of dark oxide minerals (brown to black) and crumbly tourmaline crystals. Pseudohexagonal muscovite up to 1 inch across throughout this interval. Trace greenish- black biotite crystals up to 1 inch across near schist/pegmatite contact. At 60 feet, pegmatite is less weathered and graphic granite textures are well defined. Weathered zone of dark, banded tourmaline and coarse muscovite in kaolinized pegmatite. Weathered pegmatite- same as 4().6().1 feet above. Kaolinite with local fractures which have limonite staining. Weathered pegmatite- same as 4().6().1 feet. Granular pegmatite composed of quartz, feldspar and muscovite. Quartz core zone characterized by a massive gray to white quartz intermixed with minorgranulated pegmatite (<10%). Trace tourmaline and pseudohexagonal mica (green). 21 DEP'IH {Ft.) 88.0 90.0 90.0 94.0 94.0 96.0 96.0 100.0 100.0 120.0 120.0 139.0 139.0 140.0 140.0 140.5 APPENDIX B (cont.) Hole It 3, conl DESCRIPTION Kaolinized, poorly consolidated pegmatite which containsintergranulargrowthsofquartzand tourmaline. Pegmatite is predominantly fresh from 88-139 feet. White, quartz-rich, tourmaline- and garnet-bearing pegmatite. Microcline is dominant mineral with graphic texture. Microcline pegmatite with minor tourmaline and green muscovite. Mottled,banded pegmatitecontainingmuscovite, tourmaline, garnet, and quartz. Partiallykaolinized pegmatitewithabundantmuscovite as books and in veinlets. Large disseminated crystals of tourmaline and garnet tip to 2 inches long. Diverse mineralogy and rock textures. Fracture-filled tourmaline and garnet with trace of pyrite. Trace of tourmaline associated with muscovite seams. Fresh pegmatite with graphic texture characterized by K-feldspar, quartz and muscovite, with minor garnet and tourmaline. Contact with Dean Formation is sharp but undulatory. Biotite-rich metaconglomerate characterized by a gray quartz-biotite groundmass containing ellipsoidal clasts of quartz and K-feldspar up to 1 inch wide. Muscovite-rich layers are found within the metaconglomerate. Bluish-gray metaconglomerate containing ellipsoids of K-feldspar and quartz in a fine-grained biotite-rich groundmass. 22 DEPTH (Ft.) 140.5 150:.0 150.0 170.0 170 =End of Hole DEPTH (Ft.) 0.0 18.0 18.0 31.0 31.0 40.0 40.0 54.0 54.0 56.0 APPENDIX B (cont.) Hole II 3, cont. DESCRIPTION Medium-grained metaconglomerate. Bluish-gray metaconglomerate containing thin layersof mica schistup to 1/10inchthick. Groundmass consists of fine-grained biotite and quartz. Fine-grained pyrite at 152 feet. Local mica layers 1-2 inches thick. Hole# 4 DESCRIPTION Highly weathered, saprolitized red to reddishbrown mica schist. This unit is poorly consolidated and containsminordisseminated blacktourmaline crystals up to 1/8 inch across. The schist is cutbyseveral kaolinized pegmatitestringersfrom 10..18 feet. Some of these stringers contain muscovite crystals up to 1 inch wide. White,kaolinized pegmatitecontaininggreenmuscovite crystals up to 2 inches wide. Quartz, Kfeldspar, and tourmaline are present locally. Partially weathered granular pegmatite, characterized by an abundance of granular quartz, mica or feldspar. Clay is significantly less abundant than the preceding interval. Partially weathered pegmatite - same as above. Tourmaline is especially abundant. Partially weathered pegmatite- same as31-40 feet. Almostentirely composed ofcoarse-grained muscovite. This muscovite occurs as crystals ovet 1 inch across which exhibit ruling. 23 DEP'IH