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GTK Southern Finland Office M19/2323/2010/35 18.6.2010 Espoo
Mineral resource assessment and 3D modelling of the Leviäkangas lithium pegmatite deposit, Western Finland
Esko Koistinen, Hannu Seppänen, Timo Ahtola and Janne Kuusela
Mineral resource assessment and 3D modelling of the Leviäkangas lithium pegmatite deposit, Western Finland. CM19/2323/2010/35. E. Koistinen, H. Seppänen, T. Ahtola and J. Kuusela. ___________________________________________________________________________
GEOLOGICAL SURVEY OF FINLAND DOCUMENTATION PAGE Date / Rec. no.
Type of report
Mineral deposit report, M 19 Authors
Esko Koistinen, Hannu Seppänen, Timo Ahtola and Janne Kuusela Commissioned by GTK
Title of report
Mineral resource assessment and 3D modelling of the Leviäkangas lithium pegmatite deposit, Western Finland Abstract
The Leviäkangas lithium pegmatite deposit is located in the municipality of Kaustinen in Western Finland, about 55 km southeast of the city of Kokkola. The area belongs to the Pohjanmaa Schist Belt between the Central Finland Granitoid Complex in the east and the Vasa Migmatite Complex in the west. The area under the prospect titled “Leviäkangas I”, mining register number 8390/1, covers 90 hectares. Suomen Mineraali Oy conducted the first explorations of the lithium pegmatites in Leviäkangas (previously known as Vintturi) in the 1960s, which were continued in the1980s by Paraisten Kalkki Oy. During 2004-2008, the Geological Survey of Finland (GTK) investigated the deposit using geological boulder mapping, a geophysical ground survey and diamond drilling of 2032 meters. The Leviäkangas spodumene pegmatite strikes NNW – SSE, dips 40 – 60º to the SWW and varies in thickness from one to 20 meter along its inferred length of 500 m. We used Gemcom GEMS software to carry out 3D -modelling and a mineral resource assessment of the deposit, using assays from 101 diamond drill core samples. We first estimated the indicated mineral resources by solid modelling. Details of indicated resources were estimated by block modelling using a 2x2x2m block size. On the basis of solid modelling, the Leviäkangas deposit contains a 2.1 Mt mineral resource with 0.70 wt % Li2O (Table 1). On the basis of block modelling it contains a 2.1 Mt mineral resource with 0.85 wt % Li2O for a 0.0 % Li2O cut off, or a 0.5 Mt mineral resource with 1.09 wt % Li2O for a 1.0 % Li2O cut off (Table 1). We applied the recommendations of the Finnish Association of Mining and Metallurgical Engineers to the classifications used. The assessments are consistent with JORC and EFG standards. The deposit is still open at depth, north and south, and, hence, it is possible that the present resource assessment will prove to be conservative with respect to ton-nage.
Table 1. Summary of mineral resource assessment. Indicated (solid model) Indicated (block model) Cut off Li2O wt%
Tonnage Mt
Li2O wt %
Tonnage Mt
Li2O wt %
0.0
2.1
0.70
2.1
0.85
1.0
0.5
1.09
Keywords
Leviäkangas,Vintturi, lithium deposits, exploration, 3D modelling, mineral resources, resource assessment Geographical area Finland, Pohjanmaa, Ostrobotnia, Kaustinen
Map sheet 2323 08 Report serial M19 Archive code M19/2323/2010/35
Total pages 16 Language English Price Confidentiality Confidential
Unit and section
Southern Finland Office, Bedrock Geology and Re-sources
Project code
2551007
Signature/name
Esko Koistinen, Research Scientist, Lic.Tech., M.Sc. (Eng), EurGeol
Signature/name
Timo Ahtola, Geologist, M.Sc.
Mineral resource assessment and 3D modelling of the Leviäkangas lithium pegmatite deposit, Western Finland. CM19/2323/2010/35. E. Koistinen, H. Seppänen, T. Ahtola and J. Kuusela. ___________________________________________________________________________
GEOLOGIAN TUTKIMUSKESKUS KUVAILULEHTI Päivämäärä / Dnro
Raportin laji
Esiintymäraportti M 19 Tekijät
Esko Koistinen, Hannu Seppänen, Timo Ahtola ja Janne Kuusela Toimeksiantaja GTK
Raportin nimi
Mineral resource assessment and 3D modelling of the Leviäkangas lithium deposit, Western Finland Tiivistelmä
Leviäkankaan litium esiintymä sijaitsee Kaustisilla, Länsi-Suomessa, noin 55 km Kokkolasta kaakkoon. Esiintymä sijoittuu Pohjanmaan liuskevyöhykkeeseen Keski-Suomen graniittikompleksin ja Vaasan migmatiittikompleksin väliin. Leviäkengas I -niminen valtaus (kaivosrekisterinumero 8390/1) on laajuudeltaan 90 hehtaaria. Suomen Mi-neraali Oy teki Leviäkankaalla litiumpegmatiittitutkimuksia jo 1960-luvulla, jolloin kohdetta kutsuttiin nimellä Vintturi. Paraisten kalkki Oy jatkoi tutkimuksia 1980-luvulla. Vuosina 2004 – 2008 Geologian tutkimuskeskus (GTK) selvitti aihetta lohkarekartoituksin ja geofysikaalisin maastomittauksin ja syväkairaamalla 2032 m. Tutki-muksissa Leviäkankaalta on paikannettu noin 500 m pitkä, NNW – SSE suuntainen spodumeenipegmatiittijuoni, jolla on paksuutta yhdestä kahteenkymmeneen metriin ja jonka kaade on 40 – 60 astetta SWW. Esiintymä 3D-mallinnettiin ja mineraalivaranto arviointiin Gemcom GEMS-ohjelmistoa käyttäen kairausten ja 101 kairanäyteanalyysin perusteella. Todennäköiset varannot arvioitiin ensin solidimenentelmällä. Sen jälkeen varanto-ja arvioitiin varantokäyrät mahdollistavalla blokkimenetelmällä solidien sisällä käyttäen 2x2x2 metrin blokkiko-koa. Solidimallinnuksen perusteella Leviäkankaan esiintymän mineraalivaranto on 2,1 Mt Li2O -keskipitoisuuden ollessa 0,70 wt % (taulukko 1). Blokkimallinnuksen perusteella esiintymän varanto on 2,1 Mt ja sen keskipitoi-suus 0,85 wt % Li2O, kun raja-arvona on 0,0 % Li2O (taulukko 1). Kun raja-arvo asetetaan 1,0 prosenttiin Li2O- varanto on 0,5 Mt ja sen keskipitoisuus 1,09 % Li2O. Vuorimiesyhdistyksen suosituksia sovellettiin arvioinnissa ja varantojen luokittelussa. Arvioit noudattavat JORC- ja EFG –standardien vaatimuksia. Esiintymä on rajaamatta etelä- ja pohjoissuunnissa sekä syvyyssuunnassa.
Taulukko 1. Mineraalivarannon yhteenveto. Todennäköinen (solidimenetelmä) Todennäköinen (blokkimallinnus) Raja-arvo Li2O wt %
Massa Mt
Li2O wt %
Massa Mt
Li2O wt %
0,0
2,1
0,70
2,1
0,85
1,0
0,5
1,09
Asiasanat (kohde, menetelmät jne.)
Leviäkangas, Vintturi, litiumesiintymä, malminetsintä, 3D-mallinnus, mineraalivaranto Maantieteellinen alue (maa, lääni, kunta, kylä, esiintymä)
Suomi, Länsi-Suomen lääni, Kaustinen
Karttalehdet 2323 08
Arkistosarjan nimi M19 Arkistotunnus M 19/2323/2010/35
Kokonaissivumäärä 16 Kieli Englanti Hinta Julkisuus Ei julkinen
Yksikkö ja vastuualue
Etelä-Suomen yksikkö, kallioperä ja raaka-aineet Hanketunnus
2551007 Allekirjoitus/nimen selvennys
Esko Koistinen, tutkija, Tekn.lis, DI, EurGeol
Allekirjoitus/nimen selvennys
Timo Ahtola, geologi, FM
Mineral resource assessment and 3D modelling of the Leviäkangas lithium pegmatite deposit, Western Finland. CM19/2323/2010/35. E. Koistinen, H. Seppänen, T. Ahtola and J. Kuusela. ___________________________________________________________________________
Contents
Documentation pageDocumentation page Kuvailulehti Kuvailulehti
1 INTRODUCTION 1
2 STATISTICAL ANALYSIS AND COMPOSITING OF THE DATA 5 2.1 Statistical parameters and a histogram of Li2O 5 2.2 Compositing of the data 6
3 3D MODELLING AND MINERAL RESOURCE ASSESSMENT 7 3.1 Solid modelling 7 3.2 Block modelling 9
4 DISCUSSION 12
5 REFERENCES 13 LITERATURE
Mineral resource assessment and 3D modelling of the Leviäkangas lithium pegmatite deposit, Western Finland. CM19/2323/2010/35. E. Koistinen, H. Seppänen, T. Ahtola and J. Kuusela. 1 ___________________________________________________________________________
1 INTRODUCTION The Leviäkangas 1 claim area is situated in the municipality of Kaustinen in Western Finland (Fig. 1), about 55 km SE of the city of Kokkola. The KKJ base map sheet is 2323 08D and the KKJ Zone 2 coordinates are 7059594 (X) and 2486713 (Y), corresponding to the EUREF-FIN geographic coordinates of (Lat.) 63° 38.239' and (Long.) 23° 43.697'. The UTM map sheet is Q4113B. General information about the Leviäkangas 1 claim is given in Table 1.
Figure 1. Location of the Leviäkangas claim area.
Table 1. General information about the Leviäkangas 1 claim:
title Leviäkangas 1 mining register number 8390/1 area 90 ha registration date 19.11.2008 expiry date 19.11.2013
Mineral resource assessment and 3D modelling of the Leviäkangas lithium pegmatite deposit, Western Finland. CM19/2323/2010/35. E. Koistinen, H. Seppänen, T. Ahtola and J. Kuusela. 2 ___________________________________________________________________________
The terrain in the Leviäkangas claim area is characterized by mires, the quaternary deposits be-ing mainly peat and till. The forests are mainly young Scots pine. According to the drillings in the Leviäkangas, the thickness of the quaternary deposits varies from 3.2 meters to 10.0 meters. There are no lakes or ponds. The Köyhäjoki River in the south gathers the waters from mire ditches. According to till studies in the area, the level of the groundwater is at a depth of three meters.
There are no conservation areas in the Leviäkangas claim area. The closest conservation is the Vionneva protected area (FI1000019), about 6.5 km to the east. Vionneva belongs to EU’s Natura 2000 network of protected areas. A road passes from south to north through the claim area. There is no settlement.
The Leviäkangas lithium pegmatite deposit is situated at the Pohjanmaa Schist Belt, which forms a 350 km long and 70 km wide arc-shaped belt between the Central Finland Granitoid Complex in the east and the Vasa Migmatite Complex in the west (Alviola et al. 2001). Several spodu-mene rich pegmatite boulders SE from Leviäkangas form a boulder fan which previously had led to the discovery of the Leviäkangas spodumene pegmatite in the 1960s (Säynäjärvi 1973). Drill-ing programs performed by Suomen Mineraali Oy, and later by Oy Partek Ab (table 2), resulted in the discoveries of spodumene bearing pegmatite dikes in Leviäkangas (called Vintturi at that time).
GTK’s investigations at Leviäkangas began in early 2004. After reviewing the older data, GTK decided to further investigate the Leviäkangas pegmatites with the objective of outlining their dimensions and lithium potential. The investigations during 2005-2007 included re-logging and analysing drill cores from earlier drilling programs during the period 1965-1980. During early spring 2008 the GTK carried out a 60 samples RC-drilling program. The objective was to locate the pegmatite dike at the surface and to direct diamond drilling. Further research activities in-cluded two drilling programs.
In total, GTK drilled 22 drill holes (2032 m) in the Leviäkangas prospect area in 2006-2008. The drill holes are listed in Table 2. Locations of the drill holes are shown on the geological map in Figure 2 and in Appendix 2. Locations of the RC drillings are shown in Figure 2. The diamond drill core size was 46 mm (T56 bit). We measured the locations of the drill holes afterwards with an accurate (<1 m) GPS device.
The drill cores were logged and photographed (Ahtola 2010, appendix CD) at GTK’s drill core depot in Loppi. We split the cores with a guillotine and sampled half of the core for the assay. The average sample length was two meters. Core logging reports are included in the data CD by Ahtola 2010. We systematically analysed the drill cores of the pegmatite rocks at Labtium Oy in Espoo using the X-ray fluorescence (XRF) method (method code 175X). Determinations are made from pressed powder pellets. We determined the amount of lithium and other REE ele-ments using the ICP-MS method 307P/M ( HF-HClO4 digestion). During 2005–2008, we ana-lysed 128 samples; of these, 101 of the samples were from spodumene pegmatites. The results of the chemical analyses are listed and the analysis methods explained in the appendix CD by Ah-tola 2010. We conducted mineralogical studies on six polished thin sections from the Leviäkan-gas spodumene pegmatites. After identifying the main minerals with a polarizing microscope, we determined their chemical composition using a Cameca SX100 microanalyser.
Mineral resource assessment and 3D modelling of the Leviäkangas lithium pegmatite deposit, Western Finland. CM19/2323/2010/35. E. Koistinen, H. Seppänen, T. Ahtola and J. Kuusela. 3 ___________________________________________________________________________
Table 2. Diamond drilling in the Leviäkangas during the period 1965-2008: Hole -ID Year Company X Y Z Azimuth Dip Length
K232365R1 1965 Suomen Mineraali Oy 7058926 2486592 70 322 -45 60.6K232365R2 1965 Suomen Mineraali Oy 7058942 2486574 70 0 -90 32.45K232365R3 1965 Suomen Mineraali Oy 7058929 2486526 70 92 -45 69.7K232365R4 1965 Suomen Mineraali Oy 7058994 2486543 70 112 -45 75.2K232366R1 1966 Suomen Mineraali Oy 7059094 2486972 65 333 -45 56.62K232366R2 1966 Suomen Mineraali Oy 7059182 2486927 70 153 -45 102.92K232366R3 1966 Suomen Mineraali Oy 7059277 2487152 71 150 -47 79.4K232366R4 1966 Suomen Mineraali Oy 7059263 2487159 71 330 -45 103K232366R5 1966 Suomen Mineraali Oy 7059283 2487195 68 330 -45 22.67K232366R6 1966 Suomen Mineraali Oy 7059248 2487215 70 330 -45 127.17K232366R7 1966 Suomen Mineraali Oy 7059206 2487027 70 331 -45 120.47K232366R8 1966 Suomen Mineraali Oy 7059204 2486974 70 127 -45 36.82K232380R1 1980 Oy Partek Ab 7059033 2486992 67.386 45 -45 199K232380R2 1980 Oy Partek Ab 7059033 2486992 67.386 225 -45 202.2K232380R3 1980 Oy Partek Ab 7059103.726 2486922.768 70.915 45 -45 201.2K232380R4 1980 Oy Partek Ab 7059103.726 2486922.768 70.915 225 -45 200.25K232380R5 1980 Oy Partek Ab 7059177.61 2486857.399 71.927 45 -45 200K232380R6 1980 Oy Partek Ab 7059177.61 2486857.399 71.927 225 -45 200.3K232380R7 1980 Oy Partek Ab 7059257.228 2486783.809 70.672 45 -45 200K232380R8 1980 Oy Partek Ab 7059257.228 2486783.809 70.672 225 -45 199.7K232380R9 1980 Oy Partek Ab 7059332.734 2486717.424 71.916 45 -45 200K232380R10 1980 Oy Partek Ab 7059332.734 2486717.424 71.916 225 -45 200K232380R11 1980 Oy Partek Ab 7059403.012 2486655.003 70.601 45 -45 200K232380R12 1980 Oy Partek Ab 7059403.012 2486655.003 70.601 225 -45 200
M232306R448 2006 GTK 7059421.36 2486846.92 73.39 270 -43 120.1M232306R449 2006 GTK 7059421.95 2486825.83 72.24 90 -46 131.05M232306R450 2006 GTK 7059517.72 2486778.61 72.56 90 -46 117.8M232306R451 2006 GTK 7059516.73 2486808.66 75.23 90 -44 60.15M232306R452 2006 GTK 7059516.82 2486806.79 75.13 270 -45 92.45M232306R453 2006 GTK 7059321.80 2486803.17 69.90 90 -46 147.85M232306R454 2006 GTK 7059319.90 2486853.80 70.93 90 -45 74.7M232306R455 2006 GTK 7059333.53 2486792.04 69.97 45 -60 133M232306R456 2006 GTK 7059260.30 2486868.35 70.04 45 -45 65M232306R457 2006 GTK 7059228.65 2486901.89 70.12 90 -45 41.3M232307R468 2007 GTK 7058595.43 2487288.93 74.87 290 -45 98.95M232307R469 2007 GTK 7058612.63 2487241.47 72.92 290 -44 100.6M232307R470 2007 GTK 7058687.04 2487197.20 72.01 290 -45 54.1M232307R471 2007 GTK 7058715.73 2487239.32 72.34 290 -45 90.9M232307R472 2007 GTK 7058847.60 2487198.59 71.60 290 -45 97.9M232307R473 2007 GTK 7059517.00 2486730.00 70.87 90 -44 125M232307R474 2007 GTK 7059620.19 2486754.11 74.26 90 -46 56.8M232308R475 2008 GTK 7059619.84 2486724.30 72.19 90 -45 101.3M232308R476 2008 GTK 7059620.66 2486781.23 75.53 90 -45 60.7M232308R477 2008 GTK 7059620.14 2486682.11 72.07 90 -45 142.6M232308R478 2008 GTK 7059422.87 2486861.23 73.68 90 -45 60.1M232308R479 2008 GTK 7059319.83 2486882.72 72.25 90 -45 59.7
total 5321.72
Mineral resource assessment and 3D modelling of the Leviäkangas lithium pegmatite deposit, Western Finland. CM19/2323/2010/35. E. Koistinen, H. Seppänen, T. Ahtola and J. Kuusela. 4 ___________________________________________________________________________
There are no outcrops in the Leviäkangas prospect area. The general geological outlines are based on information obtained by diamond drilling and ground geophysical surveys. The spodu-mene pegmatite is intruded mainly into mica schist that has some greywacke parts. The main minerals in the spodumene pegmatites are spodumene, albite, quartz, K-feldspar and muscovite. The spodumene grains are unevenly distributed in the dike and, in some cases, completely trans-formed into white mica. In most cases, the spodumene content increases from the wall rock con-tact toward the core section of the dike.
Figure 2. A geological map of the Leviäkangas lithium pegmatite deposit (Ahtola et al. 2010). Plan pro-jection of drill cores and locations of spodumene pegmatite boulders.
Mineral resource assessment and 3D modelling of the Leviäkangas lithium pegmatite deposit, Western Finland. CM19/2323/2010/35. E. Koistinen, H. Seppänen, T. Ahtola and J. Kuusela. 5 ___________________________________________________________________________
Ahtola et al. (2010) describes the geography and general property, environmental statement, the exploration history, exploration data and the geology and mineralogy of the prospect in detail.
This report describes 3D modelling and a mineral resource assessment of the Leviäkangas de-posit based on the diamond drill core assay data presented in Appendix 1. Locations of the dia-mond drill holes and vertical sections are presented in Appendix 2. Lithologies, lithium assay histograms and lithium composites are presented in the vertical sections in Appendix 3.
2 STATISTICAL ANALYSIS AND COMPOSITING OF THE DATA
2.1 Statistical parameters and a histogram of Li2O
We analysed 128 drill core samples, of which 101 were spodumene pegmatites (Appendix 1). The total length of the drill cores and the total length of the spodumene pegmatites in the drill cores are presented in table 3. We did not analyse RC drilling samples or include them in this study. The statistical parameters of Li2O, BeO, and Nb2O5 and the Ta2O5 contents in the ana-lysed spodumene pegmatite samples are presented in Table 4. A histogram of the lithium (Li2O) content in the spodumene pegmatite samples is presented in Figure 3.
Table 3. Total lengths of drill cores and drill core assays of each exploration organisation:
Exploration organisation Length of drilling (m)
Length of analysed spodumene pegmatite samples (m)
Suomen Mineraali Oy and Paraisten Kalkki Oy (K)
3290 82
GTK (M) 2032 106
Total K+M 5322 188
GTK RC 529 -
Table 4. Statistical parameters of Li2O, BeO, Nb2O5 and Ta2O5 contents in the spodumene samples:
Oxide Minimum Maximum Average Number of samples
Li2O % 0.02 2.13 0.74 101
BeO ppm 77 494 173 96
Nb2O5 ppm 12 312 81 94
Ta2O5 ppm 9 337 67 94
Length of sample (m) 0.40 2.55 1.86 101
The 101 spodumenen pegmatite assays of the Leviäkangas prospect have an average grade of 0.74% Li2O, 173 ppm BeO, 81 ppm Nb2O5 and 67 ppm Ta2O5. The distribution of lithium is nearly normal (Fig. 3). According to the histogram, there are no distinct populations in the data,
Mineral resource assessment and 3D modelling of the Leviäkangas lithium pegmatite deposit, Western Finland. CM19/2323/2010/35. E. Koistinen, H. Seppänen, T. Ahtola and J. Kuusela. 6 ___________________________________________________________________________
except for the peak at very low values, which comes from results below the detection limits of the chemical analysis method used.
Figure 3. Histogram of lithium (Li2O) in the spodumene pegmatite samples.
2.2 Compositing of the data
We composited the 101 spodumene pegmatite assays of the Leviäkangas prospect along the length of the diamond drill holes. We weighted the grades by sample lengths and the maximum length of an accepted sample with a Li2O less than 0.02%, was 2 metres.
Table 5. Statistics of the composited assays:
Oxide Minimum Maximum Average Number of composites
Lithium Li2O % 0.03 1.07 0.66 27 BeO2 ppm 0 333 175 27 Nb2O5 ppm 31 110 81 27 Ta2O5 ppm 17 115 67 27 Composite length m 1.2 19 7.13 27
For a cut-off value of 0.02% Li2O, there are 27 composites with a total length of 192.51 m and an average grade 0.66% Li2O, 175 ppm BeO, 81 ppm Nb2O5 and 67 ppm Ta2O5 (table 5). The average length of the composites is 7.13 m.
Mineral resource assessment and 3D modelling of the Leviäkangas lithium pegmatite deposit, Western Finland. CM19/2323/2010/35. E. Koistinen, H. Seppänen, T. Ahtola and J. Kuusela. 7 ___________________________________________________________________________
3 3D MODELLING AND MINERAL RESOURCE ASSESSMENT We did 3D modelling and a preliminary mineral resource assessment for the Leviäkangas deposit in two ways: first, by solid modelling using conventional sectional geological outlining of the mineralized bodies as polygons, and second, by block modelling. We limited the modelling to the most uniform part of the deposit at sections PR VIIII – PR XIII.
We modelled topographic and bedrock surfaces using diamond-drill-hole survey data and a Laplace interpolation method (Gemcom GEMS). Estimations of the surfaces are less reliable far-ther from the positions of the drill collars.
Based on two spodumene pegmatite boulder sample measurements, we used a density of 2.75 g/cm3 for tonnage calculations.
We applied the recommendations of the Finnish Association of Mining and Metallurgical Engi-neers to the methods and classifications used and the assessments are consistent with JORC and EFG standards.
3.1 Solid modelling
To solid model the mineralisation, we first studied the intersections of the ore at various sections by compositing the assays. Next, we interpreted the outlines of the mineral deposit at various sections and, finally, connected the interpretations to form the 3D solids.
We calculated the average grades for intersections (compositing in GEMCOM) as follows:
− we weighted the grades by sample lengths
− we used a cut-off grade of 0.02% Li2O in selecting samples for the calculations
− the maximum length of an accepted sample with a Li2O less than 0.02% was 2 metre.
The statistical parameters of the oxide values in the spodumene samples of the modelled dikes are presented in Table 6 and statistics for the composited values in Table 7.
We conducted geological outlining (polygons) of the mineral deposit on vertical sections with the aim of determining the indicated resources as realistically as possible. The outlining followed precisely the composited assays and extended downwards to z = -100 at section PR_XI and to z = -50 at the other sections (Figure 4). Where composites could not be connected from one drill hole to another at a particular section, we extended the outlining to the midway point of the drill holes. So, we set the range of influence at these sections conservatively to 50 meters, at section PR_VIII to 85 m and at section PR_XII to 80 m. There are 2-4 drill-hole intersections at the modelled sections. To combine 3D solid model of the deposit, we connected outlines of mineral-ized zones from section to section in the horizontal direction. If the outlines could not be con-nected from section to section, we extended the solid to the midpoint of the sections.
Modelling produced a major dike of a length of 500 m extending from section PR_VIIII to sec-tion PR_XIII, and 5 minor dikes (figure 5) in the vicinity of the main dike. The strike of the de-posit is from NNW to SSE (165 degrees) with a dip of 45 degrees to the SWW on average. The solid model shows a total mineral resource of 2.1 Mt with a density of 2.75 g/cm3. The average grades of the composites in Table 7 also represent the average grades of the solid model.
Mineral resource assessment and 3D modelling of the Leviäkangas lithium pegmatite deposit, Western Finland. CM19/2323/2010/35. E. Koistinen, H. Seppänen, T. Ahtola and J. Kuusela. 8 ___________________________________________________________________________
Table 6. Statistical parameters of the oxide values in spodumene pegmatite samples in the main ore:
Oxide Minimum Maximum Average Number of samples
Li2O % 0.02 2.13 0.77 83
BeO ppm 77 494 166 83
Nb2O5 ppm 12 312 77 83
Ta2O5 ppm 9 337 64 83
Length of sample (m) 0.40 2.55 1.87 83
Table 7. Statistics for the composited assays in the modelled dikes:
Oxide Minimum Maximum Average Number of composites
Lithium Li2O % 0.09 1.07 0.70 22 BeO2 ppm 0 245 157 22 Nb2O5 ppm 0 173 64 22 Ta2O5 ppm 0 102 53 22 Composite length m 1.2 19 7.2 22
Figure 4. Geological outlining of the Leviäkangas deposit at the section PR X.
Mineral resource assessment and 3D modelling of the Leviäkangas lithium pegmatite deposit, Western Finland. CM19/2323/2010/35. E. Koistinen, H. Seppänen, T. Ahtola and J. Kuusela. 9 ___________________________________________________________________________
Figure 5. A solid model of the Leviäkangas lithium deposit seen downwards along the dip (45 degrees to SWW). Distances between neighbouring sections are 100 m.
Interpretations of outlines of the mineral deposit (polygons) are given along the vertical sections in Appendix 3.
3.2 Block modelling
For a more detailed mineral resource assessment using the block modelling method, we divided the deposit and its surroundings into 2x2x2 m blocks. We interpolated the average grades for each block using the inverse distance method. We weighted the drill core assays using the in-verse of the square of a distance (ID2). The trend of the mineralization is roughly NNW-SSE (165 degrees) with a dip of 45 to the SSW. The ranges of influences were 100 m in the direction of the trend, 100 m in the direction of the dip (45 degrees SWW) and 10 m perpendicular to the modelled plane of the dikes.
The distribution of the average grade of Li2O in blocks is presented as a projection on a planview in Figure 6. Resource blocks inside the main dike are presented as a 3D view in Figure 7.
Mineral resource assessment and 3D modelling of the Leviäkangas lithium pegmatite deposit, Western Finland. CM19/2323/2010/35. E. Koistinen, H. Seppänen, T. Ahtola and J. Kuusela. 10 ___________________________________________________________________________
Figure 6. The distribution of Li2O % in blocks projected as a planview.
Figure 7. Resource blocks inside the main dike coloured by Li2O grades (colours: see fig 5).
The total tonnage of the blocks having a Li2O content over 0% is 2.1 Mt with a Li2O content of 0.83 %, a BeO content of 171 ppm, a Nb2O5 content of 84 ppm and a Ta2O5 content of 69 ppm. A summary of the mineral resource assessment by block modelling is presented in Table 8. Ton-nage and grade curves are presented as a function of the cut-off grade in Figure 8.
Mineral resource assessment and 3D modelling of the Leviäkangas lithium pegmatite deposit, Western Finland. CM19/2323/2010/35. E. Koistinen, H. Seppänen, T. Ahtola and J. Kuusela. 11 ___________________________________________________________________________
Figure 8. Mineral resource curves by block modelling as a function of the cut-off grade.
Mineral resource assessment and 3D modelling of the Leviäkangas lithium pegmatite deposit, Western Finland. CM19/2323/2010/35. E. Koistinen, H. Seppänen, T. Ahtola and J. Kuusela. 12 ___________________________________________________________________________
Table 8. A summary of the resource estimates by block modelling:
Cut off Li2O wt%
Tonnage Mt Li2O wt % BeO ppm Nb2O5 Ta2O5
0.0 2.1 0.85 170 85 71
0.2 2.0 0.85 170 85 71
0.4 1.8 0.90 170 86 72
0.6 1.7 0.92 170 88 76
0.8 1.3 0.98 164 92 77
1.0 0.5 1.09 142 100 92
1.2 0.1 1.27 138 138 132
4 DISCUSSION Drilling has confirmed a fairly continuous 500 m long zone of spodumene pegmatite dikes strik-ing NNW-SSE in the Leviäkangas area. 3D modelling and mineral resource assessment of the Leviäkangas deposit was done in two steps: first, by solid modelling and, next, by block model-ling inside the solids. The solids represent a 3D interpretation of the lithium mineralisation. We studied the resources in detail by block modelling to produce the resource curves.
Solid modelling produced a 500 m long and 2-20 m wide major dike extending from section PR_VIIII to section PR_XIII and 5 minor dikes in the vicinity of the main dike. The strike of the deposit is from NNW to SSE (165 degrees) with a dip of 45 degrees on average to the SWW.
On the basis of solid modelling, the Leviäkangas deposit contains a 2.1Mt indicated mineral re-source with 0.70 wt% Li2O. On the basis of block modelling, it contains a 2.1 Mt indicated min-eral resource with 0.85 wt% Li2O with a cut off for Li2O at 0.0 wt%, or a 0.5 Mt indicated min-eral resource with 1.09 wt% Li2O with a cut off for Li2O at 1.0 wt%. Because of the poor sam-ple grid, only 30% of the indicated resources might be classified as a measured resource. Block modelling with the inverse distance method tends to give higher grades compared to the assay composites which present average values for the solid model. The difference is due to different methods of calculation.
The reliability of the modelling and assessment can be evaluated by observing the drill profiles where the original assays and the interpretation of mineral occurrence is presented (App. 2). Distances of 100 m from section to section are fairly long. There are 2-4 drill-hole intersections at the modelled sections. We could not take the effects of faulting and other geological con-straints into consideration in the resource calculations provided here. Although the mineralisa-tion seems to have a fairly good continuity, more drill core samples are needed for a more reli-able resource assessment and 3D modelling.
We applied the recommendations of the Finnish Association of Mining and Metallurgical Engi-neers to the classifications used. The assessments and related investigations are consistent with JORC and EFG standards. The occurrence is open to the NNW, to the SSE and downwards, and, hence, it is possible that the present resource assessment will prove to be conservative with re-spect to tonnage.
Mineral resource assessment and 3D modelling of the Leviäkangas lithium pegmatite deposit, Western Finland. CM19/2323/2010/35. E. Koistinen, H. Seppänen, T. Ahtola and J. Kuusela. 13 ___________________________________________________________________________
5 REFERENCES Ahtola, T., Kuusela, J., Koistinen, E., Seppänen, H., Lohva, J. 2007, Hatakka, T. Report of
investigations in Leviäkangas lithium pegmatite deposit in Kaustinen, Western Finland. Geological Survey of Finland. Mineral deposit report M19/2010/32.
Alviola R., Mänttäri I., Mäkitie H., Vaasjoki M., 2001. Svecofennian rare-element granitic
pegmatites of the Ostrobothnia region, Western Finland; their metamorphic environment and time of intrusion. Geological Survey of Finland, Special paper 30:9-29.
Säynäjärvi., 1973 Leviäkangas 1. 1943/1. Valtausraportti Kaivosrekisterinumero 1943/1
Ministry of Trade and industry (claim report). Vuorimiesyhdistys (Finnish Association of Mining and Metallurgical Engineers) 1991.
Malmiarvion laatiminen. Raportti A97. JORC. http://www.jorc.org/ Gemcom GEMS. http://www.gemcomsoftware.com/ APPENDICES
Appendix 1. Assays and composites of the drill hole samples. Appendix 2. Drill-hole collar positions and vertical section locations. Appendix 3. Vertical sections
Appendix 1.1.1.
Drill core assays of the Leviäkangas deposit: HOLE-ID FROM TO LI2O % BEO ppm NB2O5 ppm TA2O5 ppm SPODUM % LENGTH mK232365R2 9.9 11.9 0.02 494 191.69 271.07 0.22 2K232365R2 11.9 13.9 0.02 197.88 67.66 74.24 0.28 2K232365R2 13.9 15.9 0.85 201.21 105.57 99.03 11.37 2K232365R2 15.9 17.9 0.08 146.54 41.49 19.66 1.01 2K232365R2 17.9 20 0.36 280.31 141.05 108.8 4.78 2.1K232365R3 42.7 44.7 0.16 207.04 80.97 88.4 2.12 2K232365R3 44.7 46.7 0.68 313.61 82.26 70.45 9.02 2K232365R3 46.7 48.7 0.95 187.61 87.41 63.86 12.6 2K232365R3 48.7 49.8 0.57 174.01 175.96 164.84 7.56 1.1K232366R3 57.15 58.8 0.03 333.04 95.27 58.73 0.43 1.65K232366R4 55.2 57.2 0.9 142.65 83.4 41.52 11.94 2K232366R4 57.2 59.1 1.49 145.7 163.08 101.47 19.79 1.9K232366R4 59.1 61 1.27 169.02 87.98 74.36 16.92 1.9K232366R4 61 62.7 0.69 119.34 68.95 39.68 9.19 1.7K232366R4 62.7 64.1 0.25 213.14 94.7 47.99 3.38 1.4K232380R5 77 79 0.24 0 136.47 190.48 3.15 2K232380R5 79 81 0.88 0 56.79 50.8 11.71 2K232380R5 81 83 1.36 0 58.79 53.48 18.12 2K232380R5 83 85.3 1.5 0 59.37 44.57 19.9 2.3K232380R5 85.65 86.23 1.06 0 311.86 337.01 14.14 0.58K232380R7 112.35 114.35 0.55 108.51 70.38 31.26 7.33 2K232380R7 114.35 116.35 0.81 149.87 98.28 35.04 10.71 2K232380R7 116.35 118.35 0.16 305.28 74.67 38.71 2.16 2K232380R7 118.35 120.35 1.65 238.12 89.98 33.46 21.93 2K232380R7 120.35 122.35 0.94 308.06 98.85 40.05 12.48 2K232380R7 122.35 124.35 0.88 223.41 92.13 42.25 11.74 2K232380R7 124.35 126.9 0.84 352.46 102 63.49 11.2 2.55K232380R7 139.1 141.1 0.2 258.66 94.7 52.63 2.65 2K232380R7 141.1 142.3 1.07 216.2 43.06 26.86 14.23 1.2K232380R7 147.65 149.75 0.87 192.33 30.9 16.61 11.51 2.1K232380R9 170.5 172.5 1.32 107.68 103.43 66.79 17.61 2K232380R9 172.5 174.5 1.12 193.44 141.05 106.96 14.95 2K232380R9 174.5 176.5 0.89 172.9 139.05 144.08 11.83 2K232380R9 176.5 178.5 1.15 140.99 86.26 51.89 15.26 2K232380R9 178.5 180.5 1.83 77.99 35.76 34.68 24.34 2K232380R9 180.5 182.5 0.55 191.22 12.4 8.46 7.3 2K232380R9 182.5 184.5 0.58 248.39 111.58 150.19 7.7 2K232380R9 184.5 186.5 0.63 330.26 144.48 119.66 8.42 2K232380R9 186.5 188.5 0.8 271.42 105.43 98.54 10.68 2K232380R9 188.5 189.5 0.15 248.94 64.52 44.69 1.96 1K232380R9 192.15 194.15 0.17 87.7 53.93 36.27 2.32 2K232380R9 194.15 196.15 0.79 120.73 35.48 21.61 10.45 2K232380R9 196.15 198.65 1.1 133.49 39.34 25.76 14.57 2.5
Appendix 1.1.2. Drill core assays of the Leviäkangas deposit: HOLE-ID FROM TO LI2O % BEO ppm NB2O5 ppm TA2O5 ppm SPODUM % LENGTH mM232306R449 57.25 59.25 0.06 223.41 134.04 147.75 0.75 2M232306R449 59.25 61.1 0.12 159.02 68.95 49.09 1.58 1.85M232306R450 62.1 64.1 0.79 219.25 85.4 44.2 10.48 2M232306R450 64.1 66.35 0.96 264.49 105.14 109.53 12.77 2.25M232306R453 90.9 92.9 0.81 258.66 90.27 55.56 10.82 2M232306R453 92.9 94 0.21 211.76 84.69 81.44 2.77 1.1M232306R454 39.1 41.1 0.33 250.61 111.58 134.32 4.44 2M232306R454 41.1 43.1 0.96 129.05 28.32 20.76 12.74 2M232306R454 43.1 45.1 0.15 140.43 56.08 36.27 2.01 2M232306R454 45.1 47.1 0.37 132.1 43.49 28.82 4.87 2M232306R454 47.1 48.6 0.13 141.82 33.9 20.64 1.73 1.5M232306R455 99.8 101.8 0.82 145.7 83.54 74.85 10.94 2M232306R455 101.8 103.3 1.48 220.36 91.27 71.43 19.67 1.5M232306R455 104.7 106.7 0.98 159.3 101.57 81.57 13.03 2M232306R455 106.7 108.7 1.11 134.32 66.38 57.63 14.75 2M232306R455 108.7 110.7 0.67 186.78 63.66 54.34 8.88 2M232306R455 110.7 112.7 0.82 162.63 90.27 87.67 10.94 2M232306R455 112.7 113.8 0.97 202.87 142.34 101.1 12.88 1.1M232306R456 41.45 43.45 0.08 263.93 86.4 91.58 1.08 2M232306R456 43.45 45.45 1.63 244.78 42.49 35.9 21.73 2M232306R456 45.45 47.45 0.68 189.28 45.06 36.88 9.02 2M232306R456 47.45 49.45 0.99 180.12 41.06 42.13 13.14 2M232306R456 49.45 50.95 0.93 214.81 48.92 29.18 12.31 1.5M232306R457 31.05 33.5 0.42 180.39 22.89 12.33 5.58 2.45M232306R457 34.85 36.3 0.93 175.68 87.12 93.29 12.4 1.45M232306R457 36.3 37.75 0.82 0 94.99 90.36 10.94 1.45M232307R473 73.2 74.65 0.6 0 0 0 7.96 1.45M232307R473 78.05 80.05 0.15 99.36 0 0 1.99 2M232307R473 80.05 82.05 0.54 139.04 0 0 7.22 2M232307R473 82.05 84.35 0.05 310.83 0 0 0.73 2.3M232307R473 97.4 99.4 0.81 134.32 0 0 10.77 2M232307R473 99.4 101.1 1.37 142.37 0 0 18.24 1.7M232307R473 106.8 109.1 0.85 112.68 0 0 11.37 2.3M232307R474 48.25 50.25 0.33 99.36 126.74 147.75 4.32 2M232307R474 50.25 52.25 0.62 130.16 71.96 88.04 8.3 2M232307R474 52.25 53.05 1.57 137.93 110.29 78.27 20.82 0.8M232307R474 54.2 55.4 0.43 160.13 95.7 69.11 5.67 1.2M232308R475 65.2 67.2 0.71 148.48 170.23 87.18 9.48 2M232308R475 67.2 69.2 0.39 252.27 93.7 65.08 5.18 2M232308R475 69.2 71.2 1.24 225.35 118.02 89.26 16.55 2M232308R475 71.2 73.2 1.27 101.58 54.36 45.42 16.92 2M232308R475 73.2 74.2 0.69 99.08 54.93 40.54 9.13 1M232308R476 18.65 20.65 0.42 138.77 76.68 90.48 5.55 2M232308R476 20.65 22 0.53 154.31 87.12 93.41 6.99 1.35M232308R476 25.2 26.4 0.65 135.16 89.27 90.24 8.59 1.2M232308R478 22.3 24.3 0.91 109.07 68.81 37.97 12.17 2M232308R478 24.3 26.3 0.94 142.37 105.86 77.54 12.48 2M232308R478 26.3 28.3 0.85 162.91 49.35 36.39 11.37 2M232308R478 28.3 30.3 0.86 117.12 86.55 75.58 11.45 2M232308R478 30.3 32.3 0.95 82.98 77.39 56.17 12.6 2M232308R478 32.3 34.3 1.13 135.71 55.5 49.82 15 2M232308R478 34.3 36.3 2.13 120.17 84.26 59.71 28.32 2M232308R478 36.3 38.3 0.76 212.59 87.69 65.33 10.16 2M232308R479 12.1 14.4 1.11 101.58 64.23 43.35 14.72 2.3M232308R479 14.6 16.6 0.05 127.39 89.69 83.89 0.66 2M232308R479 16.6 18.6 0.65 76.6 85.12 95 8.7 2M232308R479 18.6 20.6 0.48 121 48.07 23.44 6.39 2M232308R479 20.6 21 0.03 407.97 135.04 129.43 0.41 0.4
Appendix 1.2. Composites of the Leviäkangas deposit: HOLE-ID FROM TO LI2O % BEO2 ppm NB2O5 ppm TA2O5 ppm LENGTH mK232365R2 9.9 20 0.27 264.15 109.8 114.5 10.1K232365R3 42.7 49.8 0.59 226.47 97.86 88.28 7.1K232366R3 57.15 58.8 0.03 333.04 95.27 58.73 1.65K232366R4 55.2 64.1 0.96 155.57 100.41 62 8.9K232380R5 77 86.23 0.98 0 89.01 96.15 9.23K232380R7 112.35 126.9 0.83 245.04 89.94 41.47 14.55K232380R7 139.1 142.3 0.53 242.74 75.33 42.97 3.2K232380R7 147.65 149.75 0.87 192.33 30.9 16.61 2.1K232380R9 170.5 189.5 0.94 195.66 95.97 84.59 19K232380R9 192.15 198.65 0.72 115.47 42.64 27.72 6.5M232306R449 57.25 61.1 0.09 192.47 102.76 100.34 3.85M232306R450 62.1 66.35 0.88 243.2 95.85 78.79 4.25M232306R453 90.9 94 0.6 242.02 88.29 64.74 3.1M232306R454 39.1 48.6 0.4 159.7 55.77 49.61 9.5M232306R455 99.8 113.8 0.86 152.23 78.88 66.46 14M232306R456 41.45 50.95 0.86 218.78 52.99 48.08 9.5M232306R457 31.05 37.75 0.53 103.98 47.78 44.25 6.7M232307R473 73.2 74.65 0.6 0 0 0 1.45M232307R473 78.05 84.35 0.24 189.16 0 0 6.3M232307R473 97.4 101.1 1.07 138.02 0 0 3.7M232307R473 106.8 109.1 0.85 112.68 0 0 2.3M232307R474 48.25 55.4 0.51 106.51 83.98 86.31 7.15M232308R475 65.2 74.2 0.88 172.72 103.06 68.27 9M232308R476 18.65 22 0.46 145.03 80.89 91.66 3.35M232308R476 25.2 26.4 0.65 135.16 89.27 90.24 1.2M232308R478 22.3 38.3 1.07 135.37 76.93 57.31 16M232308R479 12.1 21 0.55 117.62 72.75 62.49 8.9
PR XIII
PR XII
PR XI
PR X
PR VIIII
PR VIII
PR I
PR II
PR III
PR IV
PR V
PR VI
PR VII
PR A
PR B
PR C
66R1
66R5
06R4 53
06R455
65R
3 65R2
66R8
66R7
80R2
80R7
65R1
80R5
80R9
80R8
66R6
80R6 66R2
65R
4
80R480R3
80R1
80R10
80R1180R12
06R456
06R4 57
07R4 73
06R4 54
66R466R3
07R
472
07R
470
08R4 77
08R4 75
06R4 49
08R4 79
07R
471
06R4 50
07R
469
07R4 74
07R
468
06R4 52
06R4 51
08R4 76
06R4 48
08R4 78
-200 0 200
Scale 1:5000
2486
500.
00 E
W
2487
000.
00 E
W
2487
500.
00 E
W
2488
000.
00 E
W
7058500.00 NS
7059000.00 NS
7059500.00 NS
Leviäkangas
EK 18.6.2010
Kaustinen
Drill hole locations
Appendix 2.
K232380R2
K2323
80R1
-50 0 50
Scale 1:1000
200.
00 X
300.
00 X
400.
00 X
500.
00 X
-100.00 Z
0.00 Z
100.00 Z
Leviäkangas
EK 18.6.2010
Kaustinen
Section PR I
0.00 0.200.20 0.600.60 1.001.00 100.00
LI2O: %
Andalusite mica schistSkarn
Mica schistQuarz veinOverburgenPegmatite
Spodumene pegmatiteGraphite schist
Black schist
ROCKTYPE
Appendix 3.1
K232366R2
K232366R8K232380R4
K2323
80R3
K232366R7
K232366R1
-50 0 50
Scale 1:1000
200.
00 X
300.
00 X
400.
00 X
500.
00 X
-100.00 Z
0.00 Z
100.00 Z
Leviäkangas
EK 18.6.2010
Kaustinen
Section PR II
0.00 0.200.20 0.600.60 1.001.00 100.00
LI2O: %
Andalusite mica schistSkarn
Mica schistQuarz veinOverburgenPegmatite
Spodumene pegmatiteGraphite schist
Black schist
ROCKTYPE
Appendix 3.2
M232306R457
0.98
K2323
80R5
0.53
-50 0 50
Scale 1:1000
200.
00 X
300.
00 X
400.
00 X
500.
00 X
-100.00 Z
0.00 Z
100.00 Z
Leviäkangas
EK 18.6.2010
Kaustinen
Section PR III
0.00 0.200.20 0.600.60 1.001.00 100.00
LI2O: %
Andalusite mica schistSkarn
Mica schistQuarz veinOverburgenPegmatite
Spodumene pegmatiteGraphite schist
Black schist
ROCKTYPE
Appendix 3.3
M232306R454
M232308R479
M232306R453
0.86
M2323
06R45
6
-50 0 50
Scale 1:1000
400.
00 X
500.
00 X
600.
00 X
700.
00 X
-100.00 Z
0.00 Z
100.00 Z
Leviäkangas
EK 18.6.2010
Kaustinen
Section PR IV
0.00 0.200.20 0.600.60 1.001.00 100.00
LI2O: %
Andalusite mica schistSkarn
Mica schistQuarz veinOverburgenPegmatite
Spodumene pegmatiteGraphite schist
Black schist
ROCKTYPE
Appendix 3.4
M232306R453
0.53
0.83
0.87
K232380R8
K2323
80R7
M232306R454
0.60
-50 0 50
Scale 1:1000
200.
00 X
300.
00 X
400.
00 X
500.
00 X
-100.00 Z
0.00 Z
100.00 Z
Leviäkangas
EK 18.6.2010
Kaustinen
Section PR V
0.00 0.200.20 0.600.60 1.001.00 100.00
LI2O: %
Andalusite mica schistSkarn
Mica schistQuarz veinOverburgenPegmatite
Spodumene pegmatiteGraphite schist
Black schist
ROCKTYPE
Appendix 3.5
M232306R449
M232308R478
0.09
0.86
M232306R455
1.07
M232306R453
-50 0 50
Scale 1:1000
400.
00 X
500.
00 X
600.
00 X
700.
00 X
-100.00 Z
0.00 Z
100.00 Z
Leviäkangas
EK 18.6.2010
Kaustinen
Section PR VI
0.00 0.200.20 0.600.60 1.001.00 100.00
LI2O: %
Andalusite mica schistSkarn
Mica schistQuarz veinOverburgenPegmatite
Spodumene pegmatiteGraphite schist
Black schist
ROCKTYPE
Appendix 3.6
0.72
K232380R10
K2323
80R9
0.94
M232306R449
M232306R448
-50 0 50
Scale 1:1000
200.
00 X
300.
00 X
400.
00 X
500.
00 X
-100.00 Z
0.00 Z
100.00 Z
Leviäkangas
EK 18.6.2010
Kaustinen
Section PR VII
0.00 0.200.20 0.600.60 1.001.00 100.00
LI2O: %
Andalusite mica schistSkarn
Mica schistQuarz veinOverburgenPegmatite
Spodumene pegmatiteGraphite schist
Black schist
ROCKTYPE
Appendix 3.7
M232307R473K232380R12
K2323
80R11
M232306R450
0.60
0.24
M232306R452
-50 0 50
Scale 1:1000
200.
00 X
300.
00 X
400.
00 X
500.
00 X
-100.00 Z
0.00 Z
100.00 Z
Leviäkangas
EK 18.6.2010
Kaustinen
Section PR VIII
0.00 0.200.20 0.600.60 1.001.00 100.00
LI2O: %
Andalusite mica schistSkarn
Mica schistQuarz veinOverburgenPegmatite
Spodumene pegmatiteGraphite schist
Black schist
ROCKTYPE
Appendix 3.8
M232306R456
K232380R8
K232380R7
0.53
M2323
06R45
7
0.98
K232366R7
K232366R8
K232366R2
K232380R5
K232380R6
K232380R3
-50 0 50
Scale 1:1000
200.
00 X
300.
00 X
400.
00 X
500.
00 X
-100.00 Z
0.00 Z
100.00 Z
Leviäkangas
EK 18.6.2010
Kaustinen
Section PR VIIII
0.00 0.200.20 0.600.60 1.001.00 100.00
LI2O: %
Andalusite mica schistSkarn
Mica schistQuarz veinOverburgenPegmatite
Spodumene pegmatiteGraphite schist
Black schist
ROCKTYPE
Appendix 3.9
M232306R455
K232380R9
K232380R10
0.870.53
0.60
M2323
06R45
3
0.55
M2323
06R45
4
0.40
M2323
08R47
9
0.83
0.86
K232366R7
M232306R456
K232380R7
K232380R5
-50 0 50
Scale 1:1000
100.
00 X
200.
00 X
300.
00 X
400.
00 X
500.
00 X
-100.00 Z
0.00 Z
100.00 Z
Leviäkangas
EK 18.6.2010
Kaustinen
Section PR X
0.00 0.200.20 0.600.60 1.001.00 100.00
LI2O: %
Andalusite mica schistSkarn
Mica schistQuarz veinOverburgenPegmatite
Spodumene pegmatiteGraphite schist
Black schist
ROCKTYPE
Appendix 3.10
0.72
1.07
M2323
08R47
8
0.94
0.09
M2323
06R44
9
M232306R448
K232380R11
K232380R12
M232306R455
K232380R9
-50 0 50
Scale 1:1000
100.
00 X
200.
00 X
300.
00 X
400.
00 X
-100.00 Z
0.00 Z
100.00 Z
Leviäkangas
EK 18.6.2010
Kaustinen
Section PR XI
0.00 0.200.20 0.600.60 1.001.00 100.00
LI2O: %
Andalusite mica schistSkarn
Mica schistQuarz veinOverburgenPegmatite
Spodumene pegmatiteGraphite schist
Black schist
ROCKTYPE
Appendix 3.11
M2323
06R45
0
0.88
0.85
0.24
M232306R452
0.60
M2323
06R45
1
M2323
07R47
3
1.07
K232380R11
-50 0 50
Scale 1:1000
100.
00 X
200.
00 X
300.
00 X
400.
00 X
-100.00 Z
0.00 Z
100.00 Z
Leviäkangas
EK 18.6.2010
Kaustinen
Section PR XII
0.00 0.200.20 0.600.60 1.001.00 100.00
LI2O: %
Andalusite micaschistSkarn
MicaschistQuarzvein
OverburgenPegmatite
Spodumene pegmatiteGraphiteschist
Blackschist
ROCKTYPE
Appendix 3.12
0.650.4
6
M2323
08R47
6
M2323
07R47
4
M2323
08R47
7
0.51
0.88
M2323
08R47
5
-50 0 50
Scale 1:1000
100.
00 X
200.
00 X
300.
00 X
400.
00 X
-100.00 Z
0.00 Z
100.00 Z
Leviäkangas
EK 18.6.2010
Kaustinen
Section PR XIII
0.00 0.200.20 0.600.60 1.001.00 100.00
LI2O: %
Andalusite micaschistSkarn
MicaschistQuarzvein
OverburgenPegmatite
Spodumene pegmatiteGraphiteschist
Blackschist
ROCKTYPE
Appendix 3.13
K232366R2
K2323
66R1
-50 0 50
Scale 1:1000
0.00
X
100.
00 X
200.
00 X
300.
00 X
-100.00 Z
0.00 Z
100.00 Z
Leviäkangas
EK 18.6.2010
Kaustinen
Section 66R1-66R2
0.00 0.200.20 0.600.60 1.001.00 100.00
LI2O: %
Andalusite mica schistSkarn
Mica schistQuarz veinOverburgenPegmatite
Spodumene pegmatiteGraphite schist
Black schist
ROCKTYPE
Appendix 3.14
0.96
K232366R3K2323
66R4
0.03
-50 0 50
Scale 1:1000
100.
00 X
200.
00 X
300.
00 X
400.
00 X
0.00 Z
100.00 Z
Leviäkangas
EK 18.6.2010
Kaustinen
Section 66R3-66R4
0.00 0.200.20 0.600.60 1.001.00 100.00
LI2O: %
Andalusite mica schistSkarn
Mica schistQuarz veinOverburgenPegmatite
Spodumene pegmatiteGraphite schist
Black schist
ROCKTYPE
Appendix 3.15
K2323
66R5
K2323
66R6
-50 0 50
Scale 1:1000
100.
00 X
200.
00 X
300.
00 X
400.
00 X
0.00 Z
100.00 Z
Leviäkangas
EK 18.6.2010
Kaustinen
Section 66R5-66R6
0.00 0.200.20 0.600.60 1.001.00 100.00
LI2O: %
Andalusite mica schistSkarn
Mica schistQuarz veinOverburgenPegmatite
Spodumene pegmatiteGraphite schist
Black schist
ROCKTYPE
Appendix 3.16
K2323
66R7
-50 0 50
Scale 1:1000
100.
00 X
200.
00 X
300.
00 X
400.
00 X
-100.00 Z
0.00 Z
100.00 Z
Leviäkangas
EK 18.6.2010
Kaustinen
Section 66R7
0.00 0.200.20 0.600.60 1.001.00 100.00
LI2O: %
Andalusite mica schistSkarn
Mica schistQuarz veinOverburgenPegmatite
Spodumene pegmatiteGraphite schist
Black schist
ROCKTYPE
Appendix 3.17
K2323
65R4
0.27
K232365R2
K2323
65R3
0.59
K232365R1
-50 0 50
Scale 1:1000
-100
.00
X
0.00
X
100.
00 X
200.
00 X
-100.00 Z
0.00 Z
100.00 Z
Leviäkangas
EK 18.6.2010
Kaustinen
Section 65R1-65R4
0.00 0.200.20 0.600.60 1.001.00 100.00
LI2O: %
Andalusite mica schistSkarn
Mica schistQuarz veinOverburgenPegmatite
Spodumene pegmatiteGraphite schist
Black schist
ROCKTYPE
Appendix 3.18
M232307R469
M232307R468
-50 0 50
Scale 1:1000
200.
00 X
300.
00 X
400.
00 X
500.
00 X
0.00 Z
100.00 Z
Leviäkangas
EK 18.6.2010
Kaustinen
Section 07R468-07R469
0.00 0.200.20 0.600.60 1.001.00 100.00
LI2O: %
Andalusite mica schistSkarn
Mica schistQuarz veinOverburgenPegmatite
Spodumene pegmatiteGraphite schist
Black schist
ROCKTYPE
Appendix 3.19
M232307R470
-50 0 50
Scale 1:1000
100.
00 X
200.
00 X
300.
00 X
400.
00 X
-100.00 Z
0.00 Z
100.00 Z
Leviäkangas
EK 18.6.2010
Kaustinen
Section 07R470
0.00 0.200.20 0.600.60 1.001.00 100.00
LI2O: %
Andalusite mica schistSkarn
Mica schistQuarz veinOverburgenPegmatite
Spodumene pegmatiteGraphite schist
Black schist
ROCKTYPE
Appendix 3.20
M232307R471
-50 0 50
Scale 1:1000
100.
00 X
200.
00 X
300.
00 X
400.
00 X
-100.00 Z
0.00 Z
100.00 Z
Leviäkangas
EK 18.6.2010
Kaustinen
Section 07R471
0.00 0.200.20 0.600.60 1.001.00 100.00
LI2O: %
Andalusite mica schistSkarn
Mica schistQuarz veinOverburgenPegmatite
Spodumene pegmatiteGraphite schist
Black schist
ROCKTYPE
Appendix 3.21
M232307R472
-50 0 50
Scale 1:1000
0.00
X
100.
00 X
200.
00 X
300.
00 X
-100.00 Z
0.00 Z
100.00 Z
Leviäkangas
EK 18.6.2010
Kaustinen
Section 07R472
0.00 0.200.20 0.600.60 1.001.00 100.00
LI2O: %
Andalusite mica schistSkarn
Mica schistQuarz veinOverburgenPegmatite
Spodumene pegmatiteGraphite schist
Black schist
ROCKTYPE
Appendix 3.22