DOCSLIB.ORG

Caledonian Correlations: Britain and Scandinavia

Total Page:16

File Type:pdf, Size:1020Kb

Download full-text PDF Read full-text
Caledonian Correlations: Britain and Scandinavia Downloaded from http://sp.lyellcollection.org/ by guest on September 28, 2021 The Caledonides of the British Isles--reviewed. 1979. Geological Society of London. Caledonian correlations: Britain and Scandinavia Robin Nicholson SUMMARY: While there is widespread evidence of climactic late-Silurian thrusting in the southern Scandinavian Caledonides the scale of comparable early Ordovician (Grampian) movements is not yet established. Only in the lower, eastern, marginal nappes is there evidence of continuous sedimentation from late Precambrian up into lower Palaeozoic. In the metamorphic allochthon no fossils older than Tremodocian have been discovered. Barrovian metamorphism which seems to vary from nappe to nappe is widely developed: no genuine LT/HP metamorphism is recorded. The North Sea basin, largely founded on Old Red Sandstone (ORS) deposits of the terminal Caledonian stage, covers the junction between the two distinct Caledonian provinces of Britain and Scandinavia. The problem of what can be usefully meant by opposite to one another since Devonian times. the term Caledonian has been discussed at some There is faunal evidence, also, of the probable, length by Dewey (1974). Narrow definitions earlier, side-by-side co-existence of Anglo-Welsh work only for restricted parts of the grand and southern Norwegian-Swedish areas of lower assemblage; deformation belts evidently are Palaeozoic sedimentation (Rushton 1974). The diachronic structures. Thus the original definition presence of a mid-European arm of the of Suess (1906, If, 82) was that the Caledonian Caledonides, long speculated on (Bailey & Hol- mountains are 'Those pre-Devonian mountains tedahl 1938) and apparently confirmed by off- which proceed from Norway and form the whole shore evidence (Ziegler 1977)must complicate, of Scotland, together with the overthrust outer however, the simplest ideas of continuity bet- margin along the zone of Eriboll...'. For Scan- ween the two in the lower Palaeozoic. Of the rest dinavia, although not for Britain, an arbitrary of the Caledonides (cf. Dewey & Kidd 1974) it is upper age limit of the base of the Cambrian • more reasonable to suppose on evidence now would be easy to accept since there is little available that their present arrangement is not at evidence of the late Precambrian history of all like that which pertained during sedimenta- deformation so widespread in Britain. The lower tion. Not only is this so but there are so many pre-Devonian limit in turn is more difficult to differences between Britain and Scandinavia that accept in areas where the deformation of Devo- is is clear the North Sea basin developed along nian rocks is an obvious continuation of earlier the zone of union of two distinct Caledonian events and represents the end of Caledonian provinces. activity. As the Variscides are approached (Fig. 1) deformation of Devonian rocks, in contrast, An overview and speculations represents the beginning of a new cycle. The Scandinavian Caledonides is part of a The outer limit of the Caledonides in space major Siluro-Devonian collision belt--the Erian now may be placed at the line enclosing all Belt of Dewey & Kidd (1974). It is dominated by cleaved autochthonous Cambro-Silurian rocks thrust sheets and contrasts strongly with the (and in some parts Devonian) as well as the British Dalradian belt of fold nappes and related thrust nappes which usually reach beyond it so as thrusts with their early Ordovician metamorphic to superimpose the Caledonian allochthon on and tectonic climax. The Scandinavian belt, how- essentially underformed lower Palaeozoic rocks. ever, does contain elements at its northern The spatial limit is a deformation front (Fig. 1). extremity whose timing of deformation and metamorphism are similar to those of the Dalra- The present condition dian (Pringle 1971). Further, it has been argued Applying the spatial and temporal definition that such elements occur widely (e.g. Binns outlined above obviously places large areas of the 1978) so that the Scandinavian belt as a whole contiguous land areas of Britain and Scandinavia contains a western assemblage, resembling the together in the Caledonides, although there is no Dalradian at least in the timing of orogeny, but direct evidence of the course of the southeast combined during collision with tracts carrying the limit of the belt across the intervening North Sea. imprint of the Silurian tectonic climax. As Hol- It seems clear that they have been so placed tedahl (1939) has argued, the Moine thrust belt 3 Downloaded from http://sp.lyellcollection.org/ by guest on September 28, 2021 4 R. Nicholson of Scotland might be complementary to the east- Caledonides, between Britain and Scandinavia, erly directed Scandinavian thrusts of the collision apparently confluent with the Polish trough and belt (see also Dunning 1972). The Outer Isles perhaps resembling the slate belts of Britain, may thrust zone of the Outer Hebrides has provided be cut off and overlain at its northern end by the evidence of later Caledonian movement (Gibson, Scandinavian thrusts. However, the thrust front p.201, in discussion of Steel & Wilson 1975). may not be directly continuous across the North The southeast, or mid-European, arm of the Sea in this way, but may be replaced to the , ~.~. A ~ &vvvvvvv A A & ~ A Zvvvvvv v vvvvvvvvvvvvvvvvvvvvvvvv% ,A~. ^ ^ A ^ '~v vvvvvv ~p~ ........ N vvvvvv~, ~vvvvvv, vvvv v orway vvvvvvvvvvvvvvvvvvvvv\ vvvvvvvvvvvvvvvvvvvvv', vvvvvvvvvvvvvvvvvvvvvvvvvv\ Laurentian vvv vvvvv vvvvvvvvv\ v-, Shield., vvv Late vvV~,~ ' ...... tcy v Caledanid~ vvy,,,,~vvvvvv~ v ~ v vvvvvvvv,, ~v ............ ~w~v vv ...... .........vvvvvvvvvvvv W~vvvVV~Vv~Vvvvvvvvvvvv~ ...... v v v v v v v v v v~,~ v v v v vv v ~ v v v.~ vvvvv u ~o~o~ Central Trau h v v v ,~.Xo^o,.,o, ...............g v v v ,,#o~o^o~o,"v v v , Ivvvvvvvvvvvvvv O.RS ~vvvvvvvvvvvvvi vvvvvvvvvvvvv Ivvvvvvvvvvvvv G.GF vvvvvvv vvvvvvvv vvvvvvvv vvvvvvvvv vvvvvvvvv vvvvvvvvv vvvv v~i vv ~v ~vv vvvvvvvvvvvvvv vvvvvvvvvvvvvvv vvvvvvvvvvvvvvv H.BF Undeformed Early Caledanides __ Cale dan ides - ...... _-_--_-_-. C-Sil ors ;arboniferaus S.U.F Carboniferous ~ O.R. S England ~ Limit of Caledonian 2 ~ ~ / Deformation ~'~ Variscan Fare Deep J ....... Fro. 1. An outline tectonic map of the British and southern Scandinavian Caledonides (after Ziegler 1977, fig. 1). HBF Highland Boundary fault C-Sil Cambro-Silurian MT Moine thrust zone ORS Old Red Sandstone SUF Southern Uplands fault Downloaded from http://sp.lyellcollection.org/ by guest on September 28, 2021 Britain and Scandinavia--correlations 5 southeast by a zone of transform motion (Phillips the Vendian tillite of the Dalradian of Scotland et al. 1976). and Ireland (Table 1). They comprise the Hede- mark Group of Bj6rlykke et al. (1976) (the A brief tectonic-stratigraphic survey of the so-called sparagmite of earlier authors, a term southern Scandinavian Caledonides not used here) topped by a thin lower Palaeozoic Only in the Oslo graben do there occur thick cover. These authors, in part following earlier deposits of deformed and autochthonous accounts, explained the accumulation of this Cambro-Silurian rocks. Even here, the most non-marine Precambrian sequence by having it northerly and most strongly deformed rocks may form in a rift-bounded depression or aulacogen, be parautochthonous; deformation is greatest thus attempting to allow for the sporadic where the thrust nappes impinge on them and development, along the thrust front, of nappes dies out southwards. Elsewhere, the autochthon- containing this and comparably thick sequences. ous sequences of the Scandinavian Caledonides It is their view also that the Hedemark Group of are only thinly developed under thrust nappes. the southern Caledonides is parautochthonous, The only other lower Palaeozoic sequences of its lower Palaeozoic rocks being linked with those comparable thickness and stratigraphical range of the nearby Oslo graben where the Hedemark to those of Oslo occur in the lowermost nappes of Group itself is absent. Hossack (1978), however, Jamtland, west of Ostersund in Sweden (Fig. 2). interprets it as having been transported at least The allochthon is divisible (Fig. 2) into a number 100 km during thrusting. The Valdres nappe of units distinguished by both lithology-stratig- above, containing similar sequences, he regards raphy and deformation-metamorphism (Nichol- as being derived from still further west (Fig. 2). son 1974). The south Caledonides, however, has The late Precambrian sequence of this higher an especially complex tectonic pattern and, even Valdres nappe lies unconformably on igneous within it, tectonic correlations are controversial. rocks, often regarded as at one time continuous The lowermost tectonic-stratigraphical units of with the rocks of the overlying Jotun nappe, and the southern Scandinavian Caledonides are providing a link between the two structures. notable for a thick sequence of late Precambrian However, this view is not without its opponents sediments containing a tillite comparable with (Battey & McRitchie 1973). The granulite-facies rocks of the Jotun nappe now mainly lie in the so-called Central Trough or Faltungsgraben, run- TABLE l(a): The stratigraphy of selected areas in ning between the Trondheim depression to the the frontal nappes of the southern northeast and the curving trough of the Bergen Scandinavian Caledonides arcs. It has been suggested, following Vemdal Nappe Valdres Nappe Vemda Nappe Autochthon Goldschmidt (1912), that the displacement evi- Fleinsendin Bitihorn Mj6sa Oslo dent at the edges of the Jotun nappe, as it is Down Lud Ringerike S described here, is of secondary importance and Wen Sh L Sh that it roots in the trough itself. A discussion of Llan S this view is available in Hossack (1978). Sh Ash S Car L Sh TAaLE l(b): Key to abbreviations employed in Lland Sh Tables 1, 2 and 3 L Llan S A Andesite Ar Arkose Aren Beitostolen L B Black Ba Basalt(ic) Trem Ph Mellsenn QS C Conglomerate Ca Calcareous U. Cam Fleinsendin F Felspathic M, Cam Q Alum Shale G Greywacke Gn Gneiss Gs Greenschist or Greenstone L.
Load more

Recommended publications
  • Geological Observations in the Opdal-Sunndal- Troll­ L N
    GEOLOGICAL OBSERVATIONS IN THE OPDAL-SUNNDAL-TROLLHEIMEN DISTRICT By OLAF HOLTEDAHL With 20 figures in the text. Abst rac t. Based on observations made during an excursion together with Prof. T. Barth in the Opdai-Sunndai district in the north-western part of Southern Norway in 1936, the conciusion has been arrived at that rock masses of the said district, hitherto generally regarded as beionging to the Archæan, must represent younger rocks, Iargeiy Eocambrian feidspathic sandstone (sparagmite) in highiy metamorphic facies. The present contribution gives the results of more comprehensive fieid investigations undertaken in 1937 with the object of settling more de finiteiy the question of the age, and aiso of the structurai conditions, of the rock-compiexes. In a following paper, Prof. Barth deais with the petroiogical and chemical character of rocks from the area. Contents. P age In troduction . .. .. .. .. .. 29 Å The Road Sections lbu-Gjøra .. .. ............ ......... .... ...... 34 The Mountain District between Driva River and Gjevii Vann .... ........... 41 Å The District North-East and South-East of ibu . .. ............. ...... ... 45 General Remarks on the Structure of the Districts deait with above ... .. ... 46 The District North of Gjevil Vann . .. .... ........ ... ....... .... .... 48 Remarks on Structural Correiations .......... .. .. .... ... ........ .... 51 Summary of Resuits . .. 52 Introduction. During a short sta y in the Overhalla district of Namdalen (somewhat north of the Trondheimsfjord) in June 1935 I took the opportunity of making a couple of small excursions to the Grong district somewhat further east in Namdalen, where on geological maps of Norway the boundary line between the (Cambro-Silurian) Trond- 30 OLAF HOLTEDAHL heim schists, to the east, and the supposed Archæan 1 to the west, is drawn, in a N.
    [Show full text]
  • Litt Om Trollheimen Under Siste Istid 169
    �ORSK GEOLOGISK TIDSSKRIFT 32 LITT OM TROLLHEIMEN UNDER SISTE ISTID AV ARNE GRØNLIE. Det har i de siste åra vært ført en livlig diskusjon i Naturen om det var isfri områder i Trollheimen under siste istid. Diskusjonen ble reist av NILS A. SøRENSEN som i mars 1949 hadde en artikkel med tittel: <<Gjevilvasskammene- nunatakker i Trollheimens midte?>>. SøRENSEN peker her på at det på Hemre Gjelvilvasskam i ei høgd på ca. 1400 m o.h. er 3 steinfri jordlag som han meiner er fra siste interglasialtid. På toppen av Midtre Gjevilvasskam (1640 m o.h.) er et liknende jordlag. Vi skal ha å gjøre med dannelser av noenlunde samme slag som ROLF NORDHAGEN har påvist bl.a. på Sørøya (NORD­ HAGE� 1945 og seinere).l Han konkluderer med at dersom forvit­ ringsjordrestene i Gjevilvasskammene er interglasiale, kunne siste istids kåpebre i disse områda ikke ha nådd høgre opp enn til et nivå som i dag ligger ca. 1350 m o.h. Dette meiner han ikke står i strid med resultata av den kvartærologiske forsking på Møre og i Sør­ Trøndelag. For å vise dette finner SøRENSEN gradienten for breen fra Gjevilvasskammene til Ørlandsstadiet og til UNDAs' Rundestadium. 2 Dersom han forutsetter at Ørlandsstadiet representerer yttergrensa for siste istids ismasser, får han en gradient som varierer mellom 1! 70 og 1!100. (Han rekner da gradienten langs de naturlige passa­ sjer og daler som isen måtte følge). Dette meiner han er for store verdier. Der::.om Rundestadiet representerer den ytre grensa, får han en gradient som varierer mellom 1/120 og 1/160 .
    [Show full text]
  • Development of Minor Late-Glacial Ice Domes East of Oppdal, Central Norway
    NGUBull441_INNMAT 21.04.05 14:58 Side 39 BJØRN A.FOLLESTAD NGU-BULL 441, 2003 - PAGE 39 Development of minor late-glacial ice domes east of Oppdal, Central Norway BJØRN A. FOLLESTAD Follestad, B. A. 2003: Development of minor late-glacial ice domes east of Oppdal, Central Norway. Norges geologiske undersøkelse Bulletin 441, 39–49. Glacial striations and ice-marginal forms such as lateral moraines and meltwater channels show that a major north- westerly-directed ice flow invaded the Oppdal area prior to the Younger Dryas (YD) Chronozone.Through the main valley from Oppdal to Fagerhaug and Berkåk, a northerly ice flow followed the major northwesterly-directed flow and is correlated with the early YD marginal deposits in the Storås area. A marked, younger, westerly-directed ice flow from a late-glacial dome east of the Oppdal area is thought to correspond with the Hoklingen ice-marginal deposits dated to the late YD Chronozone in the Trondheimsfjord district. In the main Oppdal-Fagerhaug-Berkåk valley, this younger ice flow turned to the southwest and can be traced southwards to the Oppdal area where it joined the remnants of a glacier in the Drivdalen valley. Along the western side of the mountain Allmannberget, a prominent set of lateral, glacial meltwater channels indicates a drainage which turned westward as it met and coa- lesced with the N-S orientated glacier in Drivdalen. The mountain ridge linking Allmannberget (1342 m a.s.l.) and Sissihøa (1621 m a.s.l.) was a nunatak standing up above these two merging valley glaciers. The surface of the inland ice represented by the Knutshø moraine systems at c.
    [Show full text]
  • Experiment in Trollheimen Rystet På Hodet Før Han Tok Seg Av Neste Kunde
    med en grei eske, en litt langstrakt margarineske. Det forekom meg at han virket litt irritert. Esken ble helt full, og så var det å betale og si takk og adjø og gå sin vei. Med en kraftanstrengelse fikk jeg. plasert esken under armen og forlot butikken anstrengt uanfektet. Bestyreren måpte og Experiment in Trollheimen rystet på hodet før han tok seg av neste kunde. Det ble en stri tørn gjennom byen, og jeg måtte «skifte arm» Experiment in International Living ofte og sette fra meg esken her og der på trapper og hydranter, for JOHN VROOM, U.S.A. å få de nødvendige kvilepauser. Men selv om jeg slet hardt og snart var varm av svette, var det å gå med en slik margarineske likevel en mer nøytral akt, sosialt sett — og det var ingen som sjikanerte We were a group of ten Americans who came to Norway, through min tungt belessede person. the Experiment In International Living, in order to learn something En halv time omtrent gikk det før jeg var tilbake på «gjemme- about the Norwegian way of life. Part of our seven week program stedet», og nå var det såpass jevn trafikk her, at jeg måtte få med involved a ten day hiking trip through Trollheimen with two expert meg esken borti buskene og foreta «omlastingen» der i skjul. Det guides, Kristen Mo and Berit Skirstad. Little did we realize what gikk forresten greit. Jeg la hermetikk, flasker og margarin nederst an adventure it would be for us. Most of us expected a rather i sekken, og egg og brød øverst, slik det skal gjøres.
    [Show full text]
  • Quaternary Glaciations and Their Variations in Norway and on the Norwegian Continental Shelf
    Quaternary glaciations and their variations in Norway and on the Norwegian continental shelf Lars Olsen1, Harald Sveian1, Bjørn Bergstrøm1, Dag Ottesen1,2 and Leif Rise1 1Geological Survey of Norway, Postboks 6315 Sluppen, 7491 Trondheim, Norway. 2Present address: Exploro AS, Stiklestadveien 1a, 7041 Trondheim, Norway. E-mail address (corresponding author): [email protected] In this paper our present knowledge of the glacial history of Norway is briefly reviewed. Ice sheets have grown in Scandinavia tens of times during the Quaternary, and each time starting from glaciers forming initial ice-growth centres in or not far from the Scandes (the Norwegian and Swedish mountains). During phases of maximum ice extension, the main ice centres and ice divides were located a few hundred kilometres east and southeast of the Caledonian mountain chain, and the ice margins terminated at the edge of the Norwegian continental shelf in the west, well off the coast, and into the Barents Sea in the north, east of Arkhangelsk in Northwest Russia in the east, and reached to the middle and southern parts of Germany and Poland in the south. Interglacials and interstadials with moderate to minimum glacier extensions are also briefly mentioned due to their importance as sources for dateable organic as well as inorganic material, and as biological and other climatic indicators. Engabreen, an outlet glacier from Svartisen (Nordland, North Norway), which is the second largest of the c. 2500 modern ice caps in Norway. Present-day glaciers cover to- gether c. 0.7 % of Norway, and this is less (ice cover) than during >90–95 % of the Quater nary Period in Norway.
    [Show full text]
  • Extension of Trollheimen Tectono-Stratigraphic Sequence in Deep Synclines Near Molde and Brattvåg, Western Gneiss Region, Southern Norway
    Extension of Trollheimen tectono-stratigraphic sequence in deep synclines near Molde and Brattvåg, Western Gneiss Region, southern Norway PETER ROBINSON Robinson, P.: Extension of Trollheimen tectono-stratigraphic sequence in deep synclines near Molde and Brattvåg, Western Gneiss Region, southern Norway. Norsk Geologisk Tidsskrift, Vol. 75, pp. 181-198. Oslo 1995. ISSN 0029-196X. A 70 km-long belt along Moldefjord contains a well-defined sequence of Caledonide thrust nappes infolded into Baltica basement, corresponding exactly to the sequence in the Surnadal syncline and Trollheimen, from base to top, the Risberget, Sætra, Blåhø-Surna, and Støren Nappes. Quartzites in areas of basement rnay correspond to Åmotsdal Quartzite tectonically sandwiched with basement in Trollheimen. The metamorphic discontinuity, previously described in the Surnadal area, between high amphibolite facies Surna Nappe and low amphibolite facies Støren Nappe, persists through the area, and newly discovered zoisite-phengite eclogite boudins in the Sætra Nappe and locally in the Risberget suggest discontinuities at lower levels. All levels are pervaded by subhorizontal lineation parallel to fo ld axes. Lineation is related to sinistral shear features including porphyroclast tails, S-C fabrics, shear bands, tilted boudins, mylonite, ultramylonite, and sheath and tubular fo lds superimposed on earlier structural features and indicating a phase of late Scandian sinistral shear under low amphibolite conditions parallel to the length of the orogen. Peter Robinson, Department of Geology and Geography, Box 35820, University of Massachusetts, Amherst, MA 01003-5820, U.S.A. Introduction have been retrograded by shearing and still contain relics of high grade minerals. The status of medium- to low-grade supracrustal rocks Present investigations began in 1990 along the south­ exposed in the Western Gneiss Region of southern Nor­ western trend from the Surnadal syncline near Molde way (Fig.
    [Show full text]
  • Trollheimen Sijte
    Trollheimen Sijte Distriktsplan driftsåret 2014 – 2015 1 Innhold: 1. Beskrivelse av distriktet side 3. 1.2. Beitebruk side 4. 1.2.1 Vinterbeiter 1.2.2 Senvinter/vårbeiter side 6. 1.2.3 Kalvingsland og vårbeiter side 7. 1.2.4 Sommerbeiter side 8. 1.2.5 Brunstområder side 9. 1.2.6 Høst/tidlig vinterbeite 1.2.7 Flytt og trekkmønster side 10. 1.3 Reintall og produksjon side 11. 1.4 Gjerder og anlegg side 14. 1.4.1 Gjerdeanlegg Skrikhøa side 15. 1.4.2 Gjerdeanlegg Telmyra 1.4.3 Gjerdeanlegg Nerskogen side 16. 1.5 Gjeterhytter side 17. 2. Inngrep og forstyrrelser side 18. 2.1 Hytter og fritidsboliger 2.2 Turistforeningene i Trollheimen 3. Rovvilt side 20. 4. Motorferdsel side 22. 5. Verneområder side 22. 2 1.Beskrivelse av distriktet Med Trollheimen menes her fjellområdene innen følgende geografiske avgrensning: Mot nord Surnadalsføret fra Skei til Rindalsskogen og Storås, mot øst Orkladalføret til Berkåk, og videre dalføret til Oppdal, mot sør Sunndalen og mot vest riksvei 16 til Ålvund og derfra riksvei 670 tilbake til Skei. Området ligger i sin helhet innen Sør-Trøndelag og Møre og Romsdal fylker i deler av kommunene Meldal, Oppdal, Rennebu, Rindal, Sunndal og Surnadal. Landskapsmessig er området svært variert med store høydeforskjeller og lange dalganger. Mot øst er topografien forholdsvis avrunda, mot vest sterkt opprevet. Trollheimen har store geologiske variasjoner, og fjellgrunnen domineres av grunnfjell, sparagmitt og kambrosilur. Videre opptrer Trollheimen som grense mellom innlandsklima og kystklima. Reindrifta i Trollheimen er sikret gjennom særloven for Trollheimen, og reguleres gjennom leieavtalen av 1985, ekspropiasjonsvedtaket i 1987 og konsesjonsbehandlingen i 2002.
    [Show full text]
  • Sport&EU 2017 Conference Molde, Norway (29Th-30Th of June)
    Sport&EU 2017 conference Molde, Norway (29th-30th of June) Conference venue: Molde University College – Specialized University in Logistics Molde University College Founded in 1994, Molde University College - Specialized University in Logistics is among the leading institutions in Scandinavia within the field of logistics. It offer education on bachelor's, master's and PhD-level in logistics, as well as bachelor's and master's programs in economics and business administration, management, sports management, social sciences and health sciences. Our mission is provide knowledge to the local, regional and national society, through research and development and education based on our research. Out of a student body of 2700, about 250 are international students representing about 65 nationalities. The Sport & EU 2017 Conference The Sport & EU 2017 Conference Scientific Committee Organizing Committee Dr Oskar Solenes, Molde University College Birnir Egilsson, Molde University College Dr Christos Anagnostopoulos, Molde Berit Svendsvik, Molde University College University College Geir Arne Svenning, Molde University Odd Anders Bøyum-Folkeseth, Molde College University College Recommended accommodation, Scandic Seilet Hotel Scandic Seilet Hotel is a high rise building in Molde centrum. The building is a 16-story hotel that opened on 11 October 2002. The sail-shaped building has become a major landmark in Molde. The hotel contains 224 rooms, 15 meeting rooms, two bars and a restaurant. Next door to the hotel, with entrance through its lobby, is the cultural center Bjørnsonhuset. Large parts of the hotel stands on stilts in the sea. Kjell Kosberg in KOSBERG Arkitektkontor AS is the architect. August 5, 2001, Princess Märtha Louise laid the foundation stone for the hotel and the associated Bjørnsonhuset.
    [Show full text]
  • References Arthaud, F., and M
    References Arthaud, F., and M. Mattauer: Presentation d'un nouveau mode de description tectonique: la notion de sous-facies tectonique. C. R. Acad. Sci. Paris 268, 1019- 1022 (1969). Balk, R.: Structure of Grand Saline salt dome, Van Zandt County, Texas. Bull. Am. Assoc. Petrol. Geologists, 33, 1791-1829 (1949). - Salt structure of Jefferson Island salt dome, Iberia and Vermilion parishes, Louisiana. Bull. Am. Assoc. Petrol. Geologists, 37, 2455-2474 (1953). Barth, T. F. W.: Progressive metamorphism of sparagmite ro<ks of southern Norway. Norsk Geol. Tidsskr., 18, 54-65 (1938). Billings, M. P.: Structural geology. 2nd ed., 514 pp., New York: Prentice-Hall (1954). Bloss, F. D.: Anisotropy of fracture in quartz. Am. J. Sci., 255, 214-225 (1957). Carey, S. W.: The Rheid concept in geotectonics. J. Geol. Soc. Australia, 1, 67- 117 (1954). - Folding, J. Alberta Soc. Petrol. Geologists, 10, 95-144 (1962). Carstens, H.: Stratigraphy and volcanism of the Trondheimsfjord area. Norg. Geol. Unders0kelse No. 212b, 23 pp. (1960). Carter, N. L., and M. Friedman: Dynamic analysis of deformed quartz and calcite from the Dry Creek Ridge anticline, Montana. Am. J. Sci., 263, 747- 785 (1965). Clark, R. H.: A study of calcite twinning in the Strathavon marble, Banffshire. Geol. Mag., 91, 121-128 (1954). - , and D. B. McIntyre: The use of the terms pitch and plunge. Am. J. Sci., 249, 591-599 (1951). Dahlstrom, C. D. A.: Statistical analysis of cylindrical folds. Trans. Can. Inst. Mining Met., 57, 140-145 (1954). Davies, O. L.: Statistical methods in researm and production. 396 pp. New York: Hafner (1957).
    [Show full text]
  • Geology of Norway
    Quaternary Geology of Norway QUATERNARY GEOLOGY OF NORWAY Geological Survey of Norway Special Publication , 13 Geological Survey of Norway Special Publication , 13 Special Publication Survey Geological of Norway Lars Olsen, Ola Fredin & Odleiv Olesen (eds.) Lars Olsen, Ola Fredin ISBN 978-82-7385-153-6 Olsen, Fredin & Olesen (eds.) 9 788273 851536 Geological Survey of Norway Special Publication , 13 The NGU Special Publication series comprises consecutively numbered volumes containing papers and proceedings from national and international symposia or meetings dealing with Norwegian and international geology, geophysics and geochemistry; excursion guides from such symposia; and in some cases papers of particular value to the international geosciences community, or collections of thematic articles. The language of the Special Publication series is English. Series Editor: Trond Slagstad ©2013 Norges geologiske undersøkelse Published by Norges geologiske undersøkelse (Geological Survey of Norway) NO–7491 Norway All Rights reserved ISSN: 0801–5961 ISBN: 978-82-7385-153-6 Design and print: Skipnes kommunikasjon 120552/0413 Cover illustration: Jostedalsbreen ASTER false colour satellite image Contents Introduction Lars Olsen, Ola Fredin and Odleiv Olesen ................................................................................................................................................... 3 Glacial landforms and Quaternary landscape development in Norway Ola Fredin, Bjørn Bergstrøm, Raymond Eilertsen, Louise Hansen, Oddvar Longva,
    [Show full text]
  • Destination Norway
    The government’s tourism strategy Destination Norway National strategy for the tourism industry 2 The government’s tourism strategy Destination Norway National strategy for the tourism industry 3 Foreword The tourism industry is one of the world’s fastest Increase the number of year-round jobs and develop growing business sectors, and Norway is well placed more robust companies, particularly in rural areas. to capture its share of this global growth. In view of the Increase the number of unique, good-quality experi- tourism industry’s potential for future value creation, ences that attract more guests with a high willingness the natural advantages that Norway has, and the indus- to pay. try’s considerable importance to the rural economy, the Norwegian government has chosen to give a high These objectives can be achieved through long-term priority to the sector. Consequently, the government and effective efforts to boost the tourism industry, intends to pursue a particularly vigorous policy for the promote sustainable development and increase col- promotion of tourism in Norway. laboration. Norway has the wherewithal to offer extremely The tourism industry is one of the business sectors attractive tourism products. The Norwegian land- that will contribute to Norway’s future economic suc- scape is unique, and forms the basis for a wealth of cess. The government’s tourism policy will contribute experiences. By exploiting our natural competitive to the development of a highly productive, knowledge- advantages and providing an exceptional, high-quality based industry. experience, Norwegian tourism companies will be able to justify the price level necessary to increase the The Royal Norwegian Ministry of Trade and Industry sector’s profitability.
    [Show full text]
  • Trollheimen Eventyrriket
    Arbok_2008_innhold_X.qxd 03-10-12 15:16 Side 80 TROLLHEIMEN EVENTYRRIKET Vessingsjødammen. Bilde fra TEVs jubileumsbok. “Trekanten” Kraftverkene Inngrep i naturen Kraftverkene ligger på rekke og rad nedover Nea-vassdraget er preget av vannkraft- hele Nea- Nidelvvassdraget, i alt 13 stk. utbygging. Sylsjø- og Nedals- og Finnkoisjø- Kraftverkene i Nea-vassdraget utgjør en utbyggingene og kraftlinja gjennom Sylan gir vesentlig andel av Sør-Trøndelags kraftfor- store tekniske inngrep inne i kjerneområdene syning. Totalt blir det i et middels år produsert i fjellnaturen. Ikke bare selve anleggene, men ca 2500 GWh som utgjør vel 2 % av Norges også vegene som ble bygget, har satt sitt preg Hytteguide totale vannkraftproduksjon. Mens magasin- på fjellet. områdene har demmet ned store fjellområder eller regulerer vannet i tidligere sjøer i fjellet, Gaula er vernet mot kraftutbygging, mens er det bare to av kraftverkene som ligger inne Rotla og Garbergelva nå er sikret mot kraft- i fjellturområdet Sylan. Det er Vessingfoss utbygging ved opprettelsen av Skarvan og kraftverk, ferdig 1971, som utnytter fallet Roltdalen nasjonalpark i 2004. Områdene mellom Nesjøen og Vessingsjøen, og mellom Nesjøen / Esandsjøen og svenske- Nedalfoss kraftverk, ferdig 1974, som utnytter grensa ble i 2008 vernet som Sylan land- fallet i Nea ved riksgrensa ovenfor Nesjøen. skapsvernområde og områder videre nordover mot grensa mot Nord-Trøndelag som Sankkjølen naturreservat. Barnas favoritter 80 Arbok_2008_innhold_X.qxd 03-10-12 15:16 Side 82 E39 Værnes Kristiansund lufthavn FjordrutaR65 Trondheim Tromsø Surnadal Trollheimen E6 Bodø deg også lavere priser på hyttene til våre søs- Molde/Ålesund R70 Oppdal terorganisasjoner i Sverige og Finland. Dovrefjell til Oslo I tillegg får du rabatter på turutstyr foreningen selger.
    [Show full text]