|
|
English version | ||||
| MALMDATABASEN | |||||
| Forekomstområde 1805 - 041 | |||||
| (Sist oppdatert 05.feb.2025) | |||||
Navn på deposit area : Gautelis |
| (Objekt Id : 1805,041,00,00) |
| Lokalisering |
| Fylke : | Nordland (18) | Kommune : | Narvik (1805) |
| Kart 1:50000: | Skjomdalen (1431-3) | Kart 1:250000: | Narvik |
| Markeringspunkt: | Lengdegrad: | 17.7191280 | Breddegrad: | 68.0552140 |
| EU89-UTM Zone 33 | (Coordinates IS confirmed) |
| X-koord: | 613371 m. | Y-koord: | 7551516 m. |
|
|
| Materialtype |
| Hovedtype: | Edelmetaller (Au, Ag, PGE) | Subtype: | Gull | |
| Element(s): | Au As Cu |
| Production |
| Activity: | Prøvedrift | Reserves: | ||
| Prod. method: | Dag- og underjordsdrift | Production: | ||
| Prod. status: | Nedlagt | Volume of dump: |
| Betydning |
| Offentlig: | Not Assessed (reg. 27.03.2017) |
| Economical: | Lite viktig , (Confirmed 02.jun.2015 by Are Korneliussen) |
Mineralization |
| Era: | Paleozoic | Period: | Devonian | |
| Dating: | Method: | |||
| Genesis: | Skjærsone-mineralisering | Form: | Plate | |
| Main texture: | Sprekkefylling | Min. distribution: | Disseminert |
| Main grain size: | Middelskornet (1-3 mm) | Main alteration: |
| Strike/Dip: | Direction: | |||
| Plunge: |
| Stratigraphic classification of host rock |
| Era: | Proterozoic | Period: |
| Province: | Caledonian Basement Province | |
| Geotec.unit: | Rombak Complex | |
| Tectonic complex: | ||
| Igneous complex: |
| Group: | Formation: |
Mineralogy |
| Relationship | Mineral | Amount | |
| Gangue mineral | Quartz | Major mineral (>10%) | |
| Gangue mineral | Calcite | Major mineral (>10%) | |
| Gangue mineral | Dolomite | Major mineral (>10%) | |
| Gangue mineral | Chlorite | Subordinate mineral (1-10%) | |
| Gangue mineral | Barite | Accessory mineral (<1%) | |
| Ore mineral | Arsenopyrite | Major mineral (>10%) | |
| Ore mineral | Chalcopyrite | Major mineral (>10%) | |
| Ore mineral | Pyrite | Subordinate mineral (1-10%) | |
| Ore mineral | Pyrrhotite | Subordinate mineral (1-10%) | |
| Ore mineral | Magnetite | Subordinate mineral (1-10%) | |
| Ore mineral | Hessite | Accessory mineral (<1%) | |
| Ore mineral | Argentite | Accessory mineral (<1%) | |
| Ore mineral | Bismuth | Accessory mineral (<1%) | |
| Ore mineral | Galena | Accessory mineral (<1%) | |
| Ore mineral | Uraninite | Accessory mineral (<1%) | |
| Ore mineral | Gold | Accessory mineral (<1%) | |
| Ore mineral | Scheelite | Accessory mineral (<1%) | |
| Ore mineral | Molybdenite | Accessory mineral (<1%) | |
| Ore mineral | Sphalerite | Accessory mineral (<1%) | |
| Ore mineral | Thorite | Accessory mineral (<1%) |
| Bilde(r) fra forekomstområdet: |
|
Bibliography: |
| From NGU's Reference Archive: |
| Bugge, Carl; Foslie, Steinar , 1922 |
| Norsk arsenmalm og arsenikfremstilling |
| ;Norges geologiske undersøkelse;TIDSSKRIFTARTIKKEL;NGU; No.106;33 pages |
| Abstract: | |
| The present paper is published by NGU as a report from "Statens Raastofkomite" on the emergency production of arsenic during the war when the supplies, ordinarily imported, were cut off. The paper also contains a synopsis of the geology of the arsenic deposits of Norway. Pages 4-7 contain a description of the old smalt works of Modum in Southern Norway, where, many years ago, cobalt ore was mined for smalt, arsenic being obtained as a bi.product. The ore forms "fahlbands" and is too poor to be mined with profit at present. On pages 7-10 the Listøli arsenic mine in Telemark in Southern Norway is described. The ore occurs in a dike which is from 0,15 to 1 m wide. Besides arsenopyrite some tetrahedrite and molybdenite also occur. The total production from this mine amounts to about 400 tons of arsenic ore with an average content of 25-30 pct. As. On pages 10-20 the arsenic ores of Northern Norway are described. Arseno- pyrite is the only arsenic ore known from this part of the country. |
| Korneliussen, Are; Tollefsrud, Jan Inge; Flood, Boye; Sawyer, Edward , 1986 |
| Precambrian volcano-sedimentary sequences and related ore deposits, with special reference to the Gautelisfjell carbonate-hosted gold deposit, Rombaken basement window, Northern Norway |
| ;Norges geologiske undersøkelse;FAGRAPPORT;NGU-rapport; No.86.193 |
| Abstract: | |
| Frie emneord: zink. Sammendrag på norsk: Suprakrustalene i Rombakvinduet består av en kompleks serie med vulkanske bergarter, pelittiske sedimenter, gråvakker, med mindre innslag av karbonater og kvartsitter. De intruderes av mafiske ganger, mafiske-intermediære plutoner og granitoide batolitter (1700-1800 mill. år). Området har gjennomgått nedre amfibolittfacies metamorfose etterfulgt av retrogradering til grønnskiferfacies langs et N-S-gående lineament. Skjær- soner langs dette lineamentet har virket som kanaler for H2O-CO2 førende løsninger. Forskjellige typer av malmforekomster opptrer i karakteristiske geologiske miljøer: (1) disseminert gull i karbonater innenfor en vulkanitt-sediment serie (Gautelisfjell forekomst), (2) disseminerte til massive Zn-Pb minerali- seringer innenfor kalk-silikat horisonter i tuffitt/gråvakke-sekvenser og assosiert med skjærsoner, og (3) disseminerte til massive Cu-Fe minerali- seringer assosiert med mafiske vulkanitter. Interessante måleområder for gull er: (1) karbonat +/- sulfid-anrikede horisonter av mulig exhalative-hydrotermal opprinnelse i sure vulkanitter og (2) skjærsoner som har virket som kanaler for hydrotermale løsninger. |
| Skyseth, T.; Reitan, P. , 1995 |
| Geology and genesis of Gautelisfjell gold deposit, Rombak window, northern Norway: a link between retrograde caledonian metamorphism and saline fluids. |
| ;Grønlands geologiske undersøgelse;ARTIKKEL;Open file series; Gold mineralization in the Nordic countries and Greenland. Extended; abstracts; No.95/10;94-98 pages |
| Romer, R.L.; Kjøsnes, B.; Korneliussen, A.; Lindahl, I.; Skyseth, T.; Stendalo, M.; Sundvoll, B. , 1992 |
| The Archaean-Proterozoic boundary beneath the Caledonides of northern Norway and Sweden: U-Pb, Rb-Sr, and isotope data from the Rombak-Tysfjord |
| ;Norges geologiske undersøkelse;FAGRAPPORT;NGU-rapport; No.91.225;67 pages |
| Abstract: | |
| The Baltic Shield includes an Archaean craton in northeastern Finland. Early Proterozoic accretions to this Archaean craton comprise of (1) the Svecofen- nian domain, which consists of island arc volcanic and sedimentary rocks that formed at 1.94 - 1.85 Ga and that between 1.83 and 1.78 Ga became inten- sely intruded by post-orogenic granites and (2) the Transscandinavian Granite Porphyry Belt (TGPB), which represents a 1.80 - 1.70 Ga magmatic arc at the western and southwestern margin of the Svecofennian domain. The TGPB granites extend across the boundary between the Archaean and Svecofennian crustal blocks. This boundary is in Finland a dextral strike-slip fault zone (Raahe- Ladoga zone) that to the west (Sweden and Norway) widens to a ca. 250 km wide heterogeneous zone. |
| References not to be found in NGU's Reference Archive.: |
| Angvik, T.L., Bagas, L. & Korneliussen, A. 2014: Geochemical evidence for arc-related setting of Paleoproterozoic (1790 Ma) volcano-sedimentary and plutonic rocks of the Rombak Tectonic Window. In Angvik, T.L. Ph.D. thesis, University of Tromsø. |
| Angvik, T.L., Henderson, I. & Bergh, S. 2014: Swecofennian shear zone network of the Rombak Tectonic Window, North Norway: Structural architecture and egional correlation with the Fennoscandian shield. In Angvik, T.L. Ph.D. thesis, University of Tromsø. |
| Angvik, T.L. & Sandstad, J.S. 2014: The timing of sulfide mineralisation in the Rombak Tectonic Window and their spatial relation to the Rombak-Skjomen Shear Zone, northern Norway, In Angvik, T.L. Ph.D. thesis, University of Tromsø. |
Fieldsamples |
| Sample No. | Sample type | Miscellanrous | ||||
| LPN 08.13 | Bedrock |
|
||||
| LPN 08.14 | Bedrock |
|
| NB! All analyse values are shown at the end of the printout.: |
Analyse Results |
| from |
| Forekomstområde 1805 - 041 Gautelis |
Element analyses |
( *=parts pr. million, #=parts pr.billion, Negative values means below detection limit value.) |
| Sample No. | Sample Type | Cu* | Zn* | Pb* | Co* | Ni* | Ag* | Au# |
| LPN 08.13 | Bedrock | 1240 | 55 | 46 | 93 | 74 | 1.6 | 3390.0 |
| LPN 08.14 | Bedrock | 95 | 17 | 29 | 61 | 32 | .9 | 3870.0 |
| ------------------ |
| Sample No. | Pt# | Pd# | As* | Cd* | Ba* | Mo* | Sn* | Sb* | Bi* |
| LPN 08.13 | -5.0 | 10.0 | ###### | .3 | 20 | 2.45 | 0 | 56 | 23 |
| LPN 08.14 | -5.0 | 3.0 | ###### | .5 | 40 | 2.42 | 1 | 103 | 30 |
| ------------------ |
| Sample No. | Se* | Ga* | Ge* | In* | S% | V* | Cr* | Mn* | Fe% |
| LPN 08.13 | 33.40 | 1.38 | 0.45 | 0.31 | 9.20 | 8 | 7 | 13 | 23.60 |
| LPN 08.14 | 25.90 | 2.33 | 1.39 | 0.36 | 10.00 | 9 | 2 | 109 | 23.50 |
| ------------------ |
| Sample No. | Th* | U* | W* | Rb* | Sr* | Y* | Zr* | Nb* | Cs* |
| LPN 08.13 | 4.50 | 2.23 | -0 | 3.2 | 15.7 | 1.4 | 8 | 0.76 | 0.07 |
| LPN 08.14 | 2.60 | 1.44 | 4 | 4.3 | 29.9 | 1.6 | 8 | 0.53 | 0.14 |
| ------------------ |
| Sample No. | La* | Ce* | Li* | Be* | P* | Sc* | Te* | Hf* | Re* |
| LPN 08.13 | 9.80 | 17.75 | 1 | 0 | 240 | 1.60 | 145.50 | 0.23 | 0 |
| LPN 08.14 | 6.10 | 11.40 | 4 | 2 | 140 | 2.60 | 45.00 | 0.13 | 0 |
| ------------------ |
| Sample No. | Hg* | Tl* | |||||||
| LPN 08.13 | 0 | 0 | |||||||
| LPN 08.14 | 6 | 2 |
| Faktaarket ble generert 13.06.2026 |
| Spørsmål eller kommentarer vedrørende faktaarket kan mailes til: ressursdatabaser@ngu.no |
| Copyright © 2026 Norges geologiske undersøkelse |