The Sveconorwegian orogeny

Bingen, Bernard; Viola, Giulio; Möller, Charlotte; Vander Auwera, Jacqueline; Laurent, Antonin; Yi, Keewok

doi:10.1016/j.gr.2020.10.014

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The Sveconorwegian orogeny

Bingen, Bernard; Viola, Giulio; Möller, Charlotte et al.

2021 • In Gondwana Research

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https://hdl.handle.net/2268/254682

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10.1016/j.gr.2020.10.014

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Keywords :

Sveconorwegian; Meoproterozoic; Rodinia

Disciplines :

Earth sciences & physical geography

Author, co-author :

Bingen, Bernard ; Université de Liège - ULiège > Département de géologie > Pétrologie, géochimie endogènes et pétrophysique

Viola, Giulio; University of Bologna

Möller, Charlotte; Lund University

Vander Auwera, Jacqueline ; Université de Liège - ULiège > Département de géologie > Pétrologie, géochimie endogènes et pétrophysique

Laurent, Antonin; Université de Lyon

Yi, Keewok; Korea Basic Science Institute

Language :

English

Title :

The Sveconorwegian orogeny

Publication date :

2021

Journal title :

Gondwana Research

ISSN :

1342-937X

eISSN :

1878-0571

Publisher :

International Association for Godwana Research, Japan

Peer reviewed :

Peer Reviewed verified by ORBi

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since 04 January 2021

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Bibliography

Åhäll, K.I., Connelly, J.N., Intermittent 1.53-1.13 Ga magmatism in western Baltica; age constraints and correlations within a postulated supercontinent. Precambrian Res. 92 (1998), 1–20.
Åhäll, K.I., Connelly, J.N., Long-term convergence along SW Fennoscandia: 330 m.y. of Proterozoic crustal growth. Precambrian Res. 161 (2008), 452–474.
Åhäll, K.I., Daly, J.S., Age, tectonic setting and provenance of Östfold-Marstrand Belt supracrustals: westward crustal growth of the Baltic Shield at 1760 Ma. Precambrian Res. 45 (1989), 45–61.
Åhäll, K.I., Gower, C.F., The Gothian and Labradorian orogens: variations in accretionary tectonism along a late Paleoproterozoic Laurentia–Baltica margin. GFF 119 (1997), 181–191.
Åhäll, K.I., Larson, Å., Growth-related 1.85-1.55 Ga magmatism in the Baltic Shield; a review addressing the tectonic characteristics of Svecofennian, TIB 1 -related, and Gothian events. GFF 122 (2000), 193–206.
Åhäll, K.I., Samuelsson, L., Persson, P.O., Geochronology and stuctural setting of the 1.38 Ga Torpa granite; implications for charnockite formation in SW Sweden. Geol. Fören. Stockh. Förh. 119 (1997), 37–43.
Åhäll, K.I., Cornell, D.H., Armstrong, R., Ion probe zircon dating of metasedimentary units across the Skagerrak: new constraints for early Mesoproterozoic growth of the Baltic Shield. Precambrian Res. 87 (1998), 117–134.
Ahlin, S., Austin Hegardt, E., Cornell, D., Nature and stratigraphic position of the 1614 Ma Delsjön augen granite-gneiss in the Median Segment of south-west Sweden. GFF 128 (2006), 21–32.
Andersen, T., Radiogenic isotope systematics of the Herefoss granite, South Norway: an indicator of Sveconorwegian (Grenvillian) crustal evolution in the Baltic shield. Chem. Geol. 135 (1997), 139–158.
Andersen, T., Laajoki, K., Provenance characteristics of Mesoproterozoic metasedimentary rocks from Telemark, South Norway: a Nd-isotope mass-balance model. Precambrian Res. 126 (2003), 95–122.
Andersen, T., Munz, I.A., Radiogenic whole-rock lead in Precambrian metasedimentary gneisses from South Norway: evidence of Sveconorwegian LILE mobility. Nor. Geol. Tidsskr. 75 (1995), 156–168.
Andersen, T., Hagelia, P., Whitehouse, M.J., Precambrian multi-stage crustal evolution in the Bamble sector of south Norway: Pb isotopic evidence from a Sveconorwegian deep-seated intrusion. Chem. Geol. (Isotope Geosci. Sec.) 116 (1994), 327–343.
Andersen, T., Andresen, A., Sylvester, A.G., Nature and distribution of deep crustal reservoirs in the southwestern part of the Baltic Shield: evidence from Nd, Sr and Pb isotope data on late Sveconorwegian granites. J. Geol. Soc. Lond. 158 (2001), 253–267.
Andersen, T., Andresen, A., Sylvester, A.G., Timing of late- to post-tectonic Sveconorwegian granitic magmatism in South Norway. Norges Geol. Unders. Bull. 440 (2002), 5–18.
Andersen, T., Griffin, W.L., Pearson, N.J., Crustal evolution in the SW part of the Baltic Shield: the Hf isotope evidence. J. Petrol. 43 (2002), 1725–1747.
Andersen, T., Griffin, W.L., Jackson, S.E., Knudsen, T.L., Pearson, N.J., Mid-Proterozoic magmatic arc evolution at the southwest margin of the Baltic shield. Lithos 73 (2004), 289–318.
Andersen, T., Laajoki, K., Saeed, A., Age, provenance and tectonostratigraphic status of the Mesoproterozoic Blefjell quartzite, Telemark sector, southern Norway. Precambrian Res. 135 (2004), 217–244.
Andersen, T., Griffin, W.L., Sylvester, A.G., Sveconorwegian crustal underplating in southwestern Fennoscandia: LAM-ICPMS U-Pb and Lu-Hf isotope evidence from granites and gneisses in Telemark, southern Norway. Lithos 93 (2007), 273–287.
Andersen, T., Andersson, U.B., Graham, S., Åberg, G., Simonsen, S.L., Granitic magmatism by melting of juvenile continental crust: new constraints on the source of Palaeoproterozoic granitoids in Fennoscandia from Hf isotopes in zircon. J. Geol. Soc. Lond. 166 (2009), 233–247.
Andersson, M., Lie, J.E., Husebye, E.S., Tectonic setting of post-orogenic granites within SW Fennoscandia based on deep seismic and gravity data. Terra Nova 8 (1996), 558–566.
Andersson, J., Söderlund, U., Cornell, D., Johansson, L., Möller, C., Sveconorwegian (-Grenvillian) deformation, metamorphism and leucosome formation in SW Sweden, SW Baltic Shield: constraints from a Mesoproterozoic granite intrusion. Precambrian Res. 98 (1999), 151–171.
Andersson, J., Möller, C., Johansson, L., Zircon chronology of migmatite gneisses along the Mylonite Zone (S Sweden): a major Sveconorwegian terrane boundary in the Baltic Shield. Precambrian Res. 114 (2002), 121–147.
Andersson, U.B., Neymark, L.A., Billström, K., Petrogenesis of Mesoproterozoic (Subjotnian) rapakivi complexes of central Sweden: implications for U-Pb zircon ages, Nd, Sr and Pb isotopes. Trans. R. Soc. Edinb. Earth Sci. 92 (2002), 201–228.
Andréasson, P.G., Dallmeyer, R.D., Tectonothermal evolution of high-alumina rocks within the Protogine Zone, southern Sweden. J. Metamorph. Geol. 13 (1995), 461–474.
Andréasson, P.G., Rodhe, A., Ductile and brittle deformation within the Protogine Zone, southern Sweden: a discussion. Geol. Fören. Stockh. Förh. 116 (1994), 115–117.
Appelquist, K., Cornell, D., Brander, L., Age, tectonic setting and petrogenesis of the Habo Volcanic Suite: evidence for an active continental margin setting for the Transscandinavian Igneous Belt. GFF 130 (2008), 123–138.
Appelquist, K., Brander, L., Johansson, Å., Andersson, U.B., Cornell, D., Character and origin of variably deformed granitoids in central southern Sweden: implications from geochemistry and Nd isotopes. Geol. J. 46 (2011), 597–618.
Årebäck, H., Stigh, J., The nature and origin of an anorthosite associated ilmenite-rich leuconorite, Hakefjorden Complex, south-west Sweden. Lithos 21 (2000), 247–267.
Årebäck, H., Andersson, U.B., Petersson, J., Petrological evidence for crustal melting, unmixing, and undercooling in an alkali-calcic, high-level intrusion: the late Sveconorwegian Vinga intrusion, SW Sweden. Mineral. Petrol. 93 (2008), 1–46.
Ashwal, L.D., Anorthosites. 1993, Springer-Verlag, Berlin.
Augland, L.E., Andresen, A., Corfu, F., Agyei-Dwarko, N.Y., Larionov, A.N., The Bratten-Landegode gneiss complex: a fragment of Laurentian continental crust in the Uppermost Allochthon of the Scandinavian Caledonides. Corfu, F., Gasser, D., Chew, D.M., (eds.) New Perspectives on the Caledonides of Scandinavia and Related Areas, 2014, Geological Society, Special Publications, London, 633–654.
Austin Hegardt, E., Pressure, Temperature and Time Constraints on Tectonic Models for Southwestern Sweden. 2010, Ph.D. thesis, Department of Earth Science, University of Gothenburg, 1–91.
Austin Hegardt, E., Cornell, D.H., Claesson, L., Simakov, S., Stein, H.J., Hannah, J.L., Eclogites in the central part of the Sveconorwegian Eastern Segment of the Baltic Shield: support for an extensive eclogite terrane. GFF 127 (2005), 221–232.
Austin Hegardt, E., Cornell, D.H., Hellström, F.A., Lundqvist, I., Emplacement age of the mid-Proterozoic Kungsbacka Bimodal Suite, SW Sweden. GFF 129 (2007), 227–234.
Bao, X.W., Eaton, D.W., Guest, B., Plateau uplift in western Canada caused by lithospheric delamination along a craton edge. Nat. Geosci. 7 (2014), 830–833.
Barling, J., Weis, D., Demaiffe, D., A Sr-, Nd- and Pb-isotopic investigation of the transition between two megacyclic units of the Bjerkreim–Sokndal layered intrusion, south Norway. Chem. Geol. 165 (2000), 47–65.
Barnichon, J.D., Havenith, H., Hoffer, B., Charlier, R., Jongmans, D., Duchesne, J.C., The deformation of the Egersund-Ogna anorthosite massif, south Norway: finite-element modelling of diapirism. Tectonophysics 303 (1999), 109–130.
Bateman, P.C., Chappell, B.W., Crystallization, fractionation, and solidification of the Tuolumne Intrusive Series, Yosemite National Park, California. Geol. Soc. Am. Bull. 90 (1979), 465–482.
Beaumont, C., Nguyen, M.H., Jamieson, R.A., Ellis, S., Crustal flow modes in large hot orogens. Geol. Soc. Lond., Spec. Publ. 268 (2006), 91–145.
Beckman, V., Möller, C., Söderlund, U., Andersson, J., Zircon growth during progressive recrystallization of gabbro to garnet amphibolite, Eastern Segment, Sveconorwegian orogen. J. Petrol. 58 (2017), 167–187.
Bédard, J., Parental magmas of Grenville Province massif-type anorthosites, and conjectures about why massif anorthosites are restricted to the Proterozoic. Earth Environ. Sci. Trans. Roy. Soc. Edinburgh - Earth Sci. 100 (2010), 77–103.
Be'eri-Shlevin, Y., Gee, D.G., Claesson, S., Ladenberger, A., Majka, J., Kirkland, C.L., Robinson, P., Frei, D., Provenance of Neoproterozoic sediments in the Särv nappes (Middle Allochthon) of the Scandinavian Caledonides: LA-ICP-MS and SIMS U-Pb dating of detrital zircons. Precambrian Res. 187 (2011), 181–200.
Bergerat, F., Angelier, J., Andreasson, P.G., Evolution of paleostress fields and brittle deformation of the Tornquist Zone in Scania (Sweden) during Permo-Mesozoic and Cenozoic times. Tectonophysics 444 (2007), 93–110.
Bergman, S., Högdahl, K., Nironen, M., Ogenhall, E., Sjöström, H., Lundqvist, L., Lahtinen, R., Timing of Palaeoproterozoic intra-orogenic sedimentation in the central Fennoscandian Shield; evidence from detrital zircon in metasandstone. Precambrian Res. 161 (2008), 231–249.
Bergström, U., Stephens, M.B., Wahlgren, C.H., Chapter 16 - Polyphase (1.6–1.5 and 1.1–1.0 Ga) deformation and metamorphism of Proterozoic (1.7–1.1 Ga) continental crust, Idefjorden terrane, Sveconorwegian orogen. Geol. Soc. Lond. Mem. 50 (2020), 397–434.
Berthelsen, A., Towards a palinspastic tectonic analysis of the Baltic Shield. Cogne, J., Slansky, M., (eds.) Geology of Europe, from Precambrian to the post-Hercyninan sedimentary basins, 1980, Mémoires du B.R.G.M, Paris, 5–21.
Bingen, B., Geochemistry of Sveconorwegian augen gneisses from SW Norway at the amphibolite-granulite facies transition. Nor. Geol. Tidsskr. 69 (1989), 177–189.
Bingen, B., van Breemen, O., Tectonic regimes and terrane boundaries in the high-grade Sveconorwegian belt of SW Norway, inferred from U-Pb zircon geochronology and geochemical signature of augen gneiss suites. J. Geol. Soc. Lond. 155 (1998), 143–154.
Bingen, B., van Breemen, O., U-Pb monazite ages in amphibolite- to granulite-facies orthogneisses reflect hydrous mineral breakdown reactions: Sveconorwegian Province of SW Norway. Contrib. Mineral. Petrol. 132 (1998), 336–353.
Bingen, B., Viola, G., The early-Sveconorwegian orogeny in southern Norway: tectonic model involving delamination of the sub-continental lithospheric mantle. Precambrian Res. 313 (2018), 170–204.
Bingen, B., Demaiffe, D., Hertogen, J., Weis, D., Michot, J., K-rich calc-alkaline augen gneisses of Grenvillian age in SW Norway: mingling of mantle-derived and crustal components. J. Geol. 101 (1993), 763–778.
Bingen, B., Boven, A., Punzalan, L., Wijbrans, J., Demaiffe, D., Hornblende 40Ar/39Ar geochronology across terrane boundaries in the Sveconorwegian province of S Norway. Precambrian Res. 90 (1998), 159–185.
Bingen, B., Birkeland, A., Nordgulen, Ø., Sigmond, E.M.O., Correlation of supracrustal sequences and origin of terranes in the Sveconorwegian orogen of SW Scandinavia: SIMS data on zircon in clastic metasediments. Precambrian Res. 108 (2001), 293–318.
Bingen, B., Mansfeld, J., Sigmond, E.M.O., Stein, H.J., Baltica-Laurentia link during the Mesoproterozoic: 1.27 Ga development of continental basins in the Sveconorwegian Orogen, southern Norway. Can. J. Earth Sci. 39 (2002), 1425–1440.
Bingen, B., Nordgulen, Ø., Sigmond, E.M.O., Tucker, R.D., Mansfeld, J., Högdahl, K., Relations between 1.19-1.13 Ga continental magmatism, sedimentation and metamorphism, Sveconorwegian province, S Norway. Precambrian Res. 124 (2003), 215–241.
Bingen, B., Skår, Ø., Marker, M., Sigmond, E.M.O., Nordgulen, Ø., Ragnhildstveit, J., Mansfeld, J., Tucker, R.D., Liégeois, J.P., Timing of continental building in the Sveconorwegian orogen, SW Scandinavia. Nor. J. Geol. 85 (2005), 87–116.
Bingen, B., Andersson, J., Söderlund, U., Möller, C., The Mesoproterozoic in the Nordic countries. Episodes 31 (2008), 29–34.
Bingen, B., Davis, W.J., Hamilton, M.A., Engvik, A., Stein, H.J., Skår, Ø., Nordgulen, Ø., Geochronology of high-grade metamorphism in the Sveconorwegian belt, S Norway: U-Pb, Th-Pb and Re-Os data. Nor. J. Geol. 88 (2008), 13–42.
Bingen, B., Nordgulen, Ø., Viola, G., A four-phase model for the Sveconorwegian orogeny, SW Scandinavia. Nor. J. Geol. 88 (2008), 43–72.
Bingen, B., Belousova, E.A., Griffin, W.L., Neoproterozoic recycling of the Sveconorwegian orogenic belt: detrital-zircon data from the Sparagmite basins in the Scandinavian Caledonides. Precambrian Res. 189 (2011), 347–367.
Bingen, B., Corfu, F., Stein, H.J., Whitehouse, M.J., U-Pb geochronology of the syn-orogenic Knaben molybdenum deposits, Sveconorwegian orogen, Norway. Geol. Mag. 152 (2015), 537–556.
Bird, P., Continental delamination and the Colorado Plateau. J. Geophys. Res. Solid Earth 84 (1979), 7561–7571.
Blereau, E., Johnson, T.E., Clark, C., Taylor, R.J.M., Kinny, P.D., Hand, M., Reappraising the P–T evolution of the Rogaland–Vest Agder Sector, southwestern Norway. Geosci. Front. 8 (2017), 1–14.
Bogaerts, M., Scaillet, B., Liégeois, J.P., Vander Auwera, J., Petrology and geochemistry of the Lyngdal granodiorite (Southern Norway) and the role of fractional crystallization in the genesis of Proterozoic ferro-potassic A-type granites. Precambrian Res. 124 (2003), 149–184.
Bogaerts, M., Scaillet, B., Vander Auwera, J., Phase equilibria of the Lyngdal granodiorite (Norway): implications for the origin of metaluminous ferroan granitoids. J. Petrol. 47 (2006), 2405–2431.
Bogdanova, S., Bingen, B., Gorbatschev, R., Kheraskova, T., Kozlov, V., Puchkov, V., Volozh, Y., The East European Craton (Baltica) before and during the assembly of Rodinia. Precambrian Res. 160 (2008), 23–45.
Boger, S.D., Raetz, M., Giles, D., Etchart, E., Fanning, C.M., U–Pb age data from the Sunsas region of Eastern Bolivia, evidence for the allochthonous origin of the Paragua Block. Precambrian Res. 139 (2005), 121–146.
Bolle, O., Duchesne, J.C., The Apophysis of the Bjerkreim-Sokndal layered intrusion (Rogaland anorthosite province, SW Norway): a composite pluton build up by tectonically-driven emplacement of magmas along the margin of an AMC igneous complex. Lithos 98 (2007), 292–312.
Bolle, O., Diot, H., Duchesne, J.C., Magnetic fabric and deformation in charnockitic igneous rocks of the Bjerkreim–Sokndal layered intrusion (Rogaland, Southwest Norway). J. Struct. Geol. 22 (2000), 647–667.
Bolle, O., Trindade, R.I.F., Bouchez, J.L., Duchesne, J.C., Imaging downward granitic magma transport in the Rogaland Igneous Complex, SW Norway. Terra Nova 14 (2002), 87–92.
Bolle, O., Demaiffe, D., Duchesne, J.C., Petrogenesis of jotunitic and acidic members of an AMC suite (Rogaland anorthosite province, SW Norway): a Sr and Nd isotopic assessment. Precambrian Res. 124 (2003), 185–214.
Bolle, O., Diot, H., Trindade, R.I.F., Magnetic fabrics in the Holum granite (Vest-Agder, southernmost Norway): implications for the late evolution of the Sveconorwegian (Grenvillian) orogen of SW Scandinavia. Precambrian Res. 121 (2003), 221–249.
Bolle, O., Diot, H., Liégeois, J.P., Vander Auwera, J., The Farsund intrusion (SW Norway): a marker of late-Sveconorwegian (Grenvillian) tectonism emplaced along a newly defined major shear zone. J. Struct. Geol. 32 (2010), 1500–1518.
Bolle, O., Diot, H., Vander Auwera, J., Dembele, A., Schittekat, J., Spassov, S., Ovtcharova, M., Schaltegger, U., Pluton construction and deformation in the Sveconorwegian crust of SW Norway: magnetic fabric and U-Pb geochronology of the Kleivan and Sjelset granitic complexes. Precambrian Res. 305 (2018), 247–267.
Bouvier, A., Vervoort, J.D., Patchett, P.J., The Lu-Hf and Sm-Nd isotopic composition of CHUR: constraints from unequilibrated chondrites and implications for the bulk composition of terrestrial planets. Earth Planet. Sci. Lett. 273 (2008), 48–57.
Brander, L., Söderlund, U., Mesoproterozoic (1.47-1.44 Ga) orogenic magmatism in Fennoscandia; baddeleyite U-Pb dating of a suite of massif-type anorthosite in S Sweden. Int. J. Earth Sci. 98 (2009), 499–516.
Brander, L., Söderlund, U., Bingen, B., Tracing the 1271-1246 Ma Central Scandinavian Dolerite Group mafic magmatism in Fennoscandia: U-Pb baddeleyite and Hf isotope data on the Moslätt and Børgefjell dolerites. Geol. Mag. 148 (2011), 632–643.
Brander, L., Appelquist, K., Cornell, D., Andersson, U.B., Igneous and metamorphic geochronologic evolution of granitoids in the central Eastern Segment, southern Sweden. Int. Geol. Rev. 54 (2012), 509–546.
Brewer, T.S., Menuge, J.F., Metamorphic overprinting of Sm-Nd isotopic systems in volcanic rocks: the Telemark Supergroup, southern Norway. Chem. Geol. 145 (1998), 1–16.
Brewer, T.S., Daly, J.S., Åhäll, K.I., Contrasting magmatic arcs in the Palaeoproterozoic of the south-western Baltic Shield. Precambrian Res. 92 (1998), 297–315.
Brewer, T.S., Åhäll, K.I., Darbyshire, D.P.F., Menuge, J.F., Geochemistry of late Mesoproterozoic volcanism in southwestern Scandinavia: implications for Sveconorwegian/Grenvillian plate tectonic models. J. Geol. Soc. Lond. 159 (2002), 129–144.
Brewer, T.S., Åhäll, K.I., Menuge, J.F., Storey, C.D., Parrish, R.R., Mesoproterozoic bimodal volcanism in SW Norway, evidence for recurring pre-Sveconorwegian continental margin tectonism. Precambrian Res. 134 (2004), 249–273.
Broekmans, M.A., Nijland, T.G., Jansen, J.B.H., Are stable isotopic trends in amphibolite to granulite facies transitions metamorphic of diagenetic? - An answer for the Arendal area (Bamble sector, S.E. Norway) from mid-Proterozoic carbon bearing rocks. Am. J. Sci. 294 (1994), 1135–1165.
Brown, M., Duality of thermal regimes is the distinctive characteristic of plate tectonics since the Neoarchean. Geology 34 (2006), 961–964.
Brown, M., Granite: from genesis to emplacement. Geol. Soc. Am. Bull. 125 (2013), 1079–1113.
Bruand, E., Storey, C., Fowler, M., Accessory mineral chemistry of high Ba–Sr granites from northern Scotland: constraints on petrogenesis and records of whole-rock signature. J. Petrol. 55 (2014), 1619–1651.
Brueckner, H.K., Subduction of continental crust, the origin of post-orogenic granitoids (and anorthosites?) and the evolution of Fennoscandia. J. Geol. Soc. Lond. 166 (2009), 753–762.
Buchan, K.L., Mertanen, S., Park, R.G., Pesonen, L.J., Elming, S.-Å., Abrahamsen, N., Bylund, G., Comparing the drift of Laurentia and Baltica in the Proterozoic: the importance of key palaeomagnetic poles. Tectonophysics 319 (2000), 167–198.
Bybee, G.M., Ashwal, L.D., Shirey, S.B., Horan, M., Mock, T., Andersen, T.B., Pyroxene megacrysts in Proterozoic anorthosites: Implications for tectonic setting, magma source and magmatic processes at the Moho. Earth Planet. Sci. Lett. 389 (2014), 74–85.
Cagnard, F., Barbey, P., Gapais, D., Transition between “Archaean-type” and “modern-type” tectonics: Insights from the Finnish Lapland Granulite Belt. Precambrian Res. 187 (2011), 127–142.
Cameron, K.L., Lopez, R., Ortega-Gutiérrez, F., Solari, Luigi A., Keppie, J. Duncan, Schulze, Carlos, U-Pb geochronology and Pb isotopic compositions of leached feldspars: constraints on the origin and evolution of Grenville rocks from eastern and southern Mexico. Geol. Soc. Am. Mem. 197 (2004), 755–769.
Campbell, I.H., Allen, C.M., Formation of supercontinents linked to increases in atmospheric oxygen. Nat. Geosci. 1 (2008), 554–558.
Cardona, A., Chew, D., Valencia, V.A., Bayona, G., Miskovic, A., Ibañez-Mejía, M., Grenvillian remnants in the Northern Andes: Rodinian and Phanerozoic paleogeographic perspectives. J. S. Am. Earth Sci. 29 (2010), 92–104.
Carr, S.D., Easton, R.M., Jamieson, R.A., Culshaw, N.G., Geologic transect across the Grenville orogen of Ontario and New York. Can. J. Earth Sci. 37 (2000), 193–216.
Cawood, P.A., Pisarevsky, S.A., Laurentia-Baltica-Amazonia relations during Rodinia assembly. Precambrian Res. 292 (2017), 386–397.
Cawood, P.A., Strachan, R., Cutts, K., Kinny, P.D., Hand, M., Pisarevsky, S., Neoproterozoic orogeny along the margin of Rodinia: Valhalla orogen, North Atlantic. Geology 38 (2010), 99–102.
Cawood, P.A., Strachan, R.A., Merle, R.E., Millar, I.L., Loewy, S.L., Dalziel, I.W.D., Kinny, P.D., Jourdan, F., Nemchin, A.A., Connelly, J.N., Neoproterozoic to early Paleozoic extensional and compressional history of East Laurentian margin sequences: the Moine Supergroup, Scottish Caledonides. Geol. Soc. Am. Bull. 127 (2015), 349–371.
Cecys, A., Benn, K., Emplacement and deformation of the ca. 1.45 Ga Karlshamn granitoid pluton, southeastern Sweden, during ENE-WSW Danopolonian shortening. Int. J. Earth Sci. 96 (2007), 397–414.
Cecys, A., Bogdanova, S., Janson, C., Bibikova, E., Kornfält, K.A., The Stenshuvud and Tåghusa granitoids: new representative of Mesoproterozoic magmatism in southern Sweden. GFF 124 (2002), 149–162.
Chardon, D., Gapais, D., Cagnard, F., Flow of ultra-hot orogens: a view from the Precambrian, clues for the Phanerozoic. Tectonophysics 477 (2009), 105–118.
Charlier, B., Duchesne, J.C., Vander Auwera, J., Magma chamber processes in the Tellnes ilmenite deposit (Rogaland Anorthosite Province, SW Norway) and the formation of Fe-Ti ores in massif-type anorthosites. Chem. Geol. 234 (2006), 264–290.
Charlier, B., Duchesne, J.C., Vander Auwera, J., Storme, J.Y., Maquil, R., Longhi, J., Polybaric fractional crystallization of high-alumina basalt parental magmas in the Egersund-Ogna massif-type anorthosite (Rogaland, SW Norway) constrained by plagioclase and high-alumina orthopyroxene megacrysts. J. Petrol. 51 (2010), 2515–2546.
Chen, M., Niu, F., Tromp, J., Lenardic, A., Lee, C.T.A., Cao, W., Ribeiro, J., Lithospheric foundering and underthrusting imaged beneath Tibet. Nat. Commun., 8, 2017, 15659.
Chiarenzelli, J., Lupulescu, M., Cousens, B., Thern, E., Coffin, L., Regan, S., Enriched Grenvillian lithospheric mantle as a consequence of long-lived subduction beneath Laurentia. Geology 38 (2010), 151–154.
Christoffel, C.A., Connelly, J.N., Åhäll, K.I., Timing and characterization of recurrent pre-Sveconorwegian metamorphism and deformation in the Varberg-Halmstad region of SW Sweden. Precambrian Res. 98 (1999), 173–195.
Clemens, J.D., Darbyshire, D.P.F., Flinders, J., Sources of post-orogenic calcalkaline magmas: The Arrochar and Garabal Hill–Glen Fyne complexes, Scotland. Lithos 112 (2009), 524–542.
Clough, P.W., Field, D., Chemical variation in metabasites from a Proterozoic amphibolite-granulite transition zone, S Norway. Contrib. Mineral. Petrol. 73 (1980), 277–286.
Coint, N., Slagstad, T., Roberts, N.M.W., Marker, M., Røhr, T., Sørensen, B.E., The Late Mesoproterozoic Sirdal Magmatic Belt, SW Norway:Relationships between magmatism and metamorphism and implications for Sveconorwegian orogenesis. Precambrian Res. 265 (2015), 57–77.
Collins, W.J., Hot orogens, tectonic switching, and creation of continental crust. Geology 30 (2002), 535–538.
Connelly, J.N., Åhäll, K.I., The Mesoproterozoic cratonization of Baltica – new age constraints from SW Sweden. Brewer, T.S., (eds.) Precambrian crustal evolution in the North Atlantic Region, 1996, Geological Society, Special Publications, London, 261–273.
Connelly, J.N., Berglund, J., Larson, S.Å., Thermotectonic evolution of the Eastern Segment of southwestern Sweden: tectonic constraints from U-Pb geochronology. Brewer, T.S., (eds.) Precambrian crustal evolution in the North Atlantic Region, 1996, Geological Society, Special Publications, London, 297–313.
Cooper, D.C., Field, D., The chemistry and origins of Proterozoic low-potash, high-iron, charnockitic gneisses from Tromøy, South Norway. Earth Planet. Sci. Lett. 35 (1977), 105–115.
Cordani, U.G., Cardona, A., Jimenez, D.M., Liu, D., Nutman, A.P., Geochronology of Proterozoic basement inliers in the Colombian Andes: Tectonic history of remnants of a fragmented Grenville belt. Geol. Soc. Lond., Spec. Publ. 246 (2005), 329–346.
Corfu, F., The Sognefjell volcanic-subvolcanic complex – A late Sveconorwegian arc imbricated in the central Norwegian Caledonides. Precambrian Res., 331, 2019, 105353.
Corfu, F., Easton, R.M., U-Pb geochronology of the Mazinaw terrane, an imbricate segment of the Central Metasedimentary Belt, Grenville Province, Ontario. Can. J. Earth Sci. 32 (1995), 959–976.
Corfu, F., Laajoki, K., An uncommon episode of mafic magmatism at 1347 Ma in the Mesoproterozoic Telemark supracrustals, Sveconorwegian orogen - Implications for stratigraphy and tectonic evolution. Precambrian Res. 160 (2008), 299–307.
Cornell, D., Årebäck, H., Scherstén, A., Ion microprobe discovery of Archaean and Early Proterozoic zircon xenocrysts in southwest Sweden. GFF 122 (2000), 377–383.
Corriveau, L., van Breemen, O., Docking of the Central Metasedimentary Belt to Laurentia in geon 12: evidence from the 1.17–1.16 Chevreuil intrusive suite and host gneisses, Quebec. Can. J. Earth Sci. 37 (2000), 253–269.
Cosca, M.A., O'Nions, R.K., A re-examination of the influence of composition on argon retentivity in metamorphic calcic amphiboles. Chem. Geol. 112 (1994), 39–56.
Cosca, M.A., Mezger, K., Essene, E.J., The Baltica-Laurentia connection: Sveconorwegian (Grenvillian) metamorphism, cooling, and unroofing in the Bamble Sector, Norway. J. Geol. 106 (1998), 539–552.
Couzinié, S., Laurent, O., Moyen, J.F., Zeh, A., Bouilhol, P., Villaros, A., Post-collisional magmatism: crustal growth not identified by zircon Hf-O isotopes. Earth Planet. Sci. Lett. 456 (2016), 182–195.
Cutts, K.A., Hand, M., Kelsey, D.E., Wade, B., Strachan, R.A., Clark, C., Netting, A., Evidence for 930 Ma metamorphism in the Shetland Islands, Scottish Caledonides: implications for Neoproterozoic tectonics in the Laurentia-Baltica sector of Rodinia. J. Geol. Soc. Lond. 166 (2009), 1033–1047.
Dahlgren, S., Bogoch, R., Magaritz, M., Michard, A., Hydrothermal dolomite marbles associated with charnockitic magmatism in the Proterozoic Bamble Shear Belt, south Norway. Contrib. Mineral. Petrol. 113 (1993), 394–409.
Daly, J.S., McLelland, J.M., Juvenile Middle Proterozoic crust in the Adirondack Highlands, Grenville province, northeastern North America. Geology 19 (1991), 119–122.
Dalziel, I.W.D., Neoproterozoic-Paleozoic geography and tectonics: reviews, hypothesis, environmental speculations. Geol. Soc. Am. Bull. 109 (1997), 16–42.
Debon, F., Le Fort, P., A chemical-mineralogical classification of common plutonic rocks and associations. Trans. R. Soc. Edinb. Earth Sci. 73 (1983), 135–149.
deHaas, G.J.L.M., Andersen, T., Vestin, J., Detrital zircon geochronology: new evidence for an old model for accretion of the SW Baltic Shield. J. Geol. 107 (1999), 569–586.
deHaas, G.J.L.M., Nijland, T.G., Andersen, T., Corfu, F., New constraints on the timing of deposition and metamorphism in the Bamble sector, south Norway: zircon and titanite U-Pb data from the Nelaug area. GFF 124 (2002), 73–78.
deHaas, G.J.L.M., Nijland, T.G., Valbracht, P.J., Maijer, C., Verschure, R., Andersen, T., Magmatic versus metamorphic origin of olivine-plagioclase coronas. Contrib. Mineral. Petrol. 143 (2002), 537–550.
Demaiffe, D., Michot, J., Isotope geochronology of the Proterozoic crustal segment of southern Norway: a review. Tobi, A.C., Touret, J.L., (eds.) The Deep Proterozoic Crust in the North Atlantic provinces, 1985, Reidel, Dordrecht, 411–433.
Demaiffe, D., Weis, D., Michot, J., Duchesne, J.C., Isotopic constraints on the genesis of the Rogaland anorthositic suite (SW Norway). Chem. Geol. 57 (1986), 167–179.
Demaiffe, D., Bingen, B., Wertz, P., Hertogen, J., Geochemistry of the Lyngdal hyperites (SW Norway): comparison with the monzonorites associated with the Rogaland anorthosite complex. Lithos 24 (1990), 237–250.
Dewey, J.F., Extensional collapse of orogens. Tectonics 7 (1988), 1123–1139.
DeWolf, C.P., Mezger, K., Lead isotope analyses of leached feldspars: constraints on the early crustal history of the Grenville Orogen. Geochim. Cosmochim. Acta 58 (1994), 5537–5550.
Dhuime, B., Hawkesworth, C., Cawood, P., When continents formed. Science 331 (2011), 154–155.
Dickin, A.P., Crustal formation in the Grenville Province: Nd-isotope evidence. Can. J. Earth Sci. 37 (2000), 165–181.
Dickin, A.P., Higgins, M.D., Sm/Nd evidence for a major 1.5 Ga crust-forming event in the Central Grenville Province. Geology 20 (1992), 137–140.
Dickin, A.P., McNutt, R.H., The Central Metasedimentary Belt (Grenville Province) as a failed backarc rift zone: Nd isotope evidence. Earth Planet. Sci. Lett. 259 (2007), 97–106.
Dickin, A.P., McNutt, R.H., Martin, C., Guo, A., The extent of juvenile crust in the Grenville Province: Nd isotope evidence. Geol. Soc. Am. Bull. 122 (2010), 870–883.
Dons, J.A., The stratigraphy of Supracrustal Rocks, Granitization and Tectonics in the Precambrian Telemark area, Southern Norway. 212h, 1960, Norges Geologiske Undersøkelse, 1–30.
Dons, J.A., Jorde, K., Geologisk kart over Norge, berggrunnskart Skien, 1:250000. 1978, Norges Geologiske Undersøkelse.
Drüppel, K., Elsässer, L., Brandt, S., Gerdes, A., Sveconorwegian mid-crustal ultrahigh-temperature metamorphism in Rogaland, Norway: U-Pb LA-ICP-MS geochronology and pseudosections of sapphirine granulites and associated paragneisses. J. Petrol. 54 (2013), 305–350.
Duchesne, J.C., Iron-titanium oxide minerals in the Bjerkrem-Sogndal massif, south-western Norway. J. Petrol. 13 (1972), 57–81.
Duchesne, J.C., Charlier, B., Geochemistry of cumulates from the Bjerkreim-Sokndal layered intrusion (S. Norway). Part I: constraints from major elements on the mechanism of cumulate formation and on the jotunite liquid line of descent. Lithos 83 (2005), 229–254.
Duchesne, J.C., Wilmart, E., Igneous charnockites and related rocks from the Bjerkreim-Sokndal layered intrusion (SW Norway): a jotunite (hypersthene monzodiorite)-derived A-type granitoid suite. J. Petrol. 38 (1997), 337–369.
Duchesne, J.C., Maquil, R., Demaiffe, D., The Rogaland anorthosites: facts and speculations. Tobi, A.C., Touret, J.L., (eds.) The Deep Proterozoic Crust in the North Atlantic provinces, 1985, Reidel, Dordrecht, 449–476.
Duchesne, J.C., Wilmart, E., Demaiffe, D., Hertogen, J., Monzonorites from Rogaland (southwest Norway): a series of rocks coeval but not comagmatic with massif-type anorthosites. Precambrian Res. 45 (1989), 111–128.
Duchesne, J.C., Berza, T., Liégeois, J.P., Vander Auwera, J., Shoshonitic liquid line of descent from diorite to granite: the Late Precambrian post-collisional Tismana pluton (South Carpathians, Romania). Lithos 45 (1998), 281–303.
Duchesne, J.C., Liégeois, J.P., Vander Auwera, J., Longhi, J., The crustal tongue melting model and the origin of massive anorthosites. Terra Nova 11 (1999), 100–105.
Eliasson, T., Schöberg, H., U-Pb dating of the post-kinematic Sveconorwegian (Grenvillian) Bohus granite, SW Sweden: evidence of restitic zircon. Precambrian Res. 51 (1991), 337–350.
Eliasson, T., Ahlin, S., Petersson, J., Emplacement mechanism and thermobarometry of the Sveconorwegian Bohus granite, SW Sweden. GFF 125 (2003), 113–130.
Elminen, T., Zwingmann, H., Kaakinen, A., Constraining the timing of brittle deformation and sedimentation in southern Finland: Implications for Neoproterozoic evolution of the eastern Fennoscandian shield. Precambrian Res. 304 (2018), 110–124.
Emslie, R.F., Proterozoic anorthosite massifs. Tobi, A.C., Touret, J.L., (eds.) The deep Proterozoic crust in the north Atlantic provinces, 1985, Reidel, Dordrecht, 39–60.
Engvik, A.K., Mezger, K., Wortelkamp, S., Bast, R., Corfu, F., Korneliussen, A., Ihlen, P.M., Bingen, B., Austrheim, H., Metasomatism of gabbro - mineral replacement and element mobilization during the Sveconorwegian metamorphic event. J. Metamorph. Geol. 29 (2011), 399–423.
Engvik, A.K., Ihlen, P.M., Austrheim, H., Characterisation of Na-metasomatism in the Sveconorwegian Bamble Sector of South Norway. Geosci. Front. 5 (2014), 659–672.
Engvik, A.K., Bingen, B., Solli, A., Localized occurrences of granulite: P-T modeling, U-Pb geochronology and distribution of early-Sveconorwegian high-grade metamorphism in Bamble, South Norway. Lithos 240-243 (2016), 84–103.
Engvik, A.K., Corfu, F., Solli, A., Austrheim, H., Sequence and timing of mineral replacement reactions during albitisation in the high-grade Bamble lithotectonic domain, S-Norway. Precambrian Res. 291 (2017), 1–16.
Erlström, M., Chapter 24 - Carboniferous–Neogene tectonic evolution of the Fennoscandian transition zone, southern Sweden. Geol. Soc. Lond. Mem. 50 (2020), 603–620.
EUGENO-S-working-group, Crustal structure and tectonic evolution of the transition between the Baltic Shield and the North German Caledonides (the EUGENO-S Project). Tectonophysics 150 (1988), 253–348.
Evans, D.A.D., Mitchell, R.N., Assembly and breakup of the core of Paleoproterozoic-Mesoproterozoic supercontinent Nuna. Geology 39 (2011), 443–446.
Falkum, T., Geotectonic evolution of southern Scandinavia in light of a late-Proterozoic plate-collision. Tobi, A.C., Touret, J.L., (eds.) The Deep Proterozoic Crust in the North Atlantic proVinces, 1985, Reidel, Dordrecht, 309–322.
Falkum, T., Petersen, J.S., The Sveconorwegian orogenic belt, a case of late-Proterozoic plate collision. Geol. Rundsch. 69 (1980), 622–647.
Field, D., Drury, S.A., Cooper, D.C., Rare-earth and LIL element fractionation in high-grade charnockitic gneisses, south Norway. Lithos 13 (1980), 281–289.
Field, D., Smalley, P.C., Lamb, R.C., Råheim, A., Geochemical evolution of the 1.6-1.5 Ga-old amphibolite- granulite facies terrain, Bamble sector, Norway: dispelling the myth of grenvillian high-grade reworking. Tobi, A.C., Touret, J.L., (eds.) The Deep Proterozoic Crust in the North Atlantic Provinces, 1985, Reidel, Dordrecht, 567–578.
Fram, M.S., Longhi, J., Phase equilibria of dikes associated with Proterozoic anorthosite complexes. Am. Mineral. 77 (1992), 605–616.
Frost, B.R., Barnes, C.G., Collins, W.J., Arculus, R.J., Ellis, W.J., Frost, D.J., A geochemical classification for granitic rocks. J. Petrol. 42 (2001), 2033–2048.
Gabrielsen, R.H., Nystuen, J.P., Jarsve, E.M., Lundmark, A.M., The Sub-Cambrian Peneplain in southern Norway: its geological significance and its implications for post-Caledonian faulting, uplift and denudation. J. Geol. Soc. Lond. 172 (2015), 777–791.
Gammon, J.B., Fahlbands in the Precambrian of southern Norway. Econ. Geol. 61 (1966), 174–188.
Gee, D.G., Andréasson, P.G., Lorenz, H., Frei, D., Majka, J., Detrital zircon signatures of the Baltoscandian margin along the Arctic Circle Caledonides in Sweden: the Sveconorwegian connection. Precambrian Res. 265 (2015), 40–56.
Geraldes, M.C., Van Schmus, W.R., Condie, K.C., Bell, S., Teixeira, W., Babinski, M., Proterozoic geologic evolution of the SW part of the Amazonian Craton in Mato Grosso state, Brazil. Precambrian Res. 111 (2001), 91–128.
Gerya, T., Precambrian geodynamics: concepts and models. Gondwana Res. 25 (2014), 442–463.
Ghani, A.A., Atherton, M.P., The chemical character of the Late Caledonian Donegal granites, Ireland, with comments on their genesis. Trans. Roy. Soci. Edinburgh-Earth Sci. 97 (2006), 437–454.
Godin, L., Grujic, D., Law, R.D., Searle, M.P., Channel flow, ductile extrusion and exhumation in continental collision zones: an introduction. Geol. Soc. Lond., Spec. Publ. 268 (2006), 1–23.
Gong, Z., Evans, D.A.D., Elming, S.Å., Söderlund, U., Salminen, J.M., Paleomagnetism, magnetic anisotropy and U-Pb baddeleyite geochronology of the early Neoproterozoic Blekinge-Dalarna dolerite dykes, Sweden. Precambrian Res. 317 (2018), 14–32.
Gorbatschev, R., Bogdanova, S., Aspects of the Proterozoic boundary between SE and SW Sweden. 2006, Report, Department of Geology, Lund University, Sweden, 1–50.
Gower, C.F., Correlations between the Grenville Province and Sveconorwegian orogenic belt - implications for Proterozoic evolution of the southern margins of the Canadian and Baltic Shields. Tobi, A.C., Touret, J.L., (eds.) The Deep Proterozoic Crust in the North Atlantic Provinces, 1985, Reidel, Dordrecht, 247–258.
Gower, C.F., Kamo, S., Krogh, T.E., Indentor tectonism in the eastern Grenville Province. Precambrian Res. 167 (2008), 201–212.
Granseth, A., Slagstad, T., Coint, N., Roberts, N.M.W., Røhr, T.S., Sørensen, B.E., Tectonomagmatic evolution of the Sveconorwegian orogen recorded in the chemical and isotopic compositions of 1070–920 Ma granitoids. Precambrian Res., 340, 2020, 105527.
Graversen, O., Pedersen, S., Timing of Gothian structural evolution in SE Norway: a Rb-Sr whole-rock age study. Nor. Geol. Tidsskr. 79 (1999), 47–56.
Griffin, W.L., Pearson, N.J., Belousova, E.A., Jackson, S.E., van Achterbergh, E., O'Reilly, S.Y., Shee, S.R., The Hf isotope composition of cratonic mantle: LAM-MC-ICPMS analysis of zircon megacrysts in kimberlites. Geochim. Cosmochim. Acta 64 (2000), 133–147.
Griffin, W.L., O'Reilly, S.Y., Afonso, J.C., Begg, G.C., The composition and evolution of lithospheric mantle: a re-evaluation and its tectonic implications. J. Petrol. 50 (2009), 1185–1204.
Groulier, P.A., Indares, A., Dunning, G., Moukhsil, A., Jenner, G., Syn-orogenic magmatism over 100 m.y. in high crustal levels of the central Grenville Province: Characteristics, age and tectonic significance. Lithos 312-313 (2018), 128–152.
Groulier, P.A., Indares, A., Dunning, G., Moukhsil, A., Wälle, M., Peri-Laurentian, Pinwarian-age oceanic arc crust preserved in the Grenville Province: Insights from the Escoumins supracrustal belt. Precambrian Res. 311 (2018), 37–64.
Grove, T.L., Chatterjee, N., Parman, S.W., Médard, E., The influence of H2O on mantle wedge melting. Earth Planet. Sci. Lett. 249 (2006), 74–89.
Guenthner, W.R., Reiners, P.W., Drake, H., Tillberg, M., Zircon, titanite, and apatite (U-Th)/He ages and age-eU correlations from the Fennoscandian Shield, southern Sweden. Tectonics 36 (2017), 1254–1274.
Hanmer, S., Corrigan, D., Pehrsson, S., Nadeau, L., SW Grenville Province, Canada: the case against post-1.4 Ga accretionary tectonics. Tectonophysics 319 (2000), 33–51.
Hansen, E., Johansson, L., Andersson, J., LaBarge, L., Harlov, D., Möller, C., Vincent, S., Partial melting in amphibolites in a deep section of the Sveconorwegian Orogen, SW Sweden. Lithos 236–237 (2015), 27–45.
Harley, S.L., Refining the P–T records of UHT crustal metamorphism. J. Metamorph. Geol. 26 (2008), 125–154.
Harley, S., Kelly, N.M., Möller, A., Zircon behaviour and the thermal histories of mountain chains. Elements 3 (2007), 25–30.
Harlov, D.E., Pressure-temperature estimation in orthopyroxene-garnet bearing granulite facies rocks, Bamble Sector, Norway. Mineral. Petrol. 69 (2000), 11–33.
Harlov, D.E., Van Den Kerkhof, A., Johansson, L., The Varberg-Torpa charnockite-granite association, SW Sweden: Mineralogy, petrology, and fluid inclusion chemistry. J. Petrol. 54 (2013), 3–40.
Hartz, E.H., Torsvik, T.H., Baltica upside down: a new plate tectonic model for Rodinia and the Iapetus Ocean. Geology 30 (2002), 255–258.
Haschke, M.R., Scheuber, E., Günther, A., Reutter, K.J., Evolutionary cycles during the Andean orogeny: repeated slab breakoff and flat subduction. Terra Nova 14 (2002), 49–55.
Hawkesworth, C., Cawood, P., Kemp, T., Storey, C., Dhuime, B., A Matter of preservation. Science 232 (2009), 49–50.
He, Z.Y., Klemd, R., Yan, L.L., Zhang, Z.M., The origin and crustal evolution of microcontinents in the Beishan orogen of the southern Central Asian Orogenic Belt. Earth Sci. Rev. 185 (2018), 1–14.
Heaman, L.M., Smalley, P.C., A U–Pb study of the Morkheia Complex and associated gneisses, south Norway: implications for disturbed Rb–Sr systems and for the temporal evolution of Mesoproterozoic magmatism in Laurentia. Geochim. Cosmochim. Acta 58 (1994), 1899–1911.
Hellström, F.A., Johansson, Å., Larson, S.Å., Age emplacement of late Sveconorwegian monzogabbroic dykes, SW Sweden. Precambrian Res. 128 (2004), 39–55.
Henderson, I.H.C., Ihlen, P.M., Emplacement of polygeneration pegmatites in relation to Sveconorwegian contractional tectonics: examples from southern Norway. Precambrian Res. 133 (2004), 207–222.
Hervé, F., Pankhurst, R.J., Fanning, C.M., Calderon, M., Yaxley, G.M., The South Patagonian batholith: 150 my of granite magmatism on a plate margin. Lithos 97 (2007), 373–394.
Herzberg, C., Condie, K., Korenaga, J., Thermal history of the Earth and its petrological expression. Earth Planet. Sci. Lett. 292 (2010), 79–88.
Hetherington, C.J., Harlov, D.E., Metasomatic thorite and uraninite inclusions in xenotime and monazite from granitic pegmatites, Hidra anorthosite massif, southwestern Norway: mechanics and fluid chemistry. Am. Mineral. 93 (2008), 806–820.
Hoffman, P.F., Did the breakout of Laurentia turn Gondwanaland inside-out?. Science 252 (1991), 1409–1412.
Högdahl, K., Andersson, U.B., Eklund, O., The Transcandinavian Igneous Belt (TIB) in Sweden: A Review of Its Character and Evolution. 2004, Geological Survey of Finland, 1–123 Special Paper 37.
Holland, T.J., Babu, E.V., Waters, D.J., Phase relations of osumilite and dehydration melting in pelitic rocks: a simple thermodynamic model for the KFMASH system. Contrib. Mineral. Petrol. 124 (1996), 383–394.
INSPIRE_Directive, INSPIRE Knowledge Base, Infrastructure for Spatial Information in Europe, Registry. 2007, European Commission http://inspire.ec.europa.eu/registry.
Hynes, A., Rivers, T., Protracted continental collision - evidence from the Grenville Orogen. Can. J. Earth Sci. 47 (2010), 591–620.
Ibanez-Mejia, M., Ruiz, J., Valencia, V.A., Cardona, A., Gehrels, G.E., Mora, A.R., The Putumayo Orogen of Amazonia and its implications for Rodinia reconstructions: new U-Pb geochronological insights into the Proterozoic tectonic evolution of northwestern South America. Precambrian Res. 191 (2011), 58–77.
Ibanez-Mejia, M., Pullen, A., Arenstein, J., Gehrels, G.E., Valley, J., Ducea, M.N., Mora, A.R., Pecha, M., Ruiz, J., Unraveling crustal growth and reworking processes in complex zircons from orogenic lower-crust: the Proterozoic Putumayo Orogen of Amazonia. Precambrian Res. 267 (2015), 285–310.
Indares, A., Deciphering the metamorphic architecture and magmatic patterns of large hot orogens: Insights from the central Grenville Province. Gondwana Res. 80 (2020), 385–409.
Jagoutz, O., Schmidt, M.W., The composition of the foundered complement to the continental crust and a re-evaluation of fluxes in arcs. Earth Planet. Sci. Lett. 371-372 (2013), 177–190.
Jamieson, R.A., Beaumont, C., On the origin of orogens. Geol. Soc. Am. Bull. 125 (2013), 1671–1702.
Janoušek, V., Konopásek, J., Ulrich, S., Erban, V., Tajčmanová, L., Jeřábek, P., Geochemical character and petrogenesis of Pan-African Amspoort suite of the Boundary Igneous Complex in the Kaoko Belt (NW Namibia). Gondwana Res. 18 (2010), 688–707.
Jensen, E., Corfu, F., The U–Pb age of the Finse batholith, a composite bimodal Sveconorwegian intrusion. Nor. J. Geol. 96 (2016), 171–178.
Jiménez-Mejía, D.M., Juliani, C., Cordani, U.G., P–T–t conditions of high-grade metamorphic rocks of the Garzon Massif, Andean basement, SE Colombia. J. S. Am. Earth Sci. 21 (2006), 322–336.
Johansson, Å., Baltica, Amazonia and the SAMBA connection - 1000 million years of neighbourhood during the Proterozoic?. Precambrian Res. 175 (2009), 221–234.
Johansson, Å, From Rodinia to Gondwana with the ‘SAMBA’ model—A distant view from Baltica towards Amazonia and beyond. Precambrian Res. 244 (2014), 226–235.
Johansson, L., Lindh, A., Möller, C., Late Sveconorwegian (Grenville) high-pressure granulite facies metamorphism in southwest Sweden. J. Metamorph. Geol. 9 (1991), 283–292.
Johansson, L., Möller, C., Söderlund, U., Geochronology of eclogite facies metamorphism in the Sveconorwegian Province of SW Sweden. Precambrian Res. 106 (2001), 261–275.
Johansson, Å., Waight, T., Andersen, T., Simonsen, S.L., Geochemistry and petrogenesis of Mesoproterozoic A-type granitoids from the Danish island of Bornholm, southern Fennoscandia. Lithos 244 (2016), 94–108.
Johnson, T.E., Brown, M., Kaus, B.J.P., VanTongeren, J.A., Delamination and recycling of Archaean crust caused by gravitational instabilities. Nat. Geosci., 7, 2013, 47.
Kalsbeek, F., Thrane, K., Nutman, A.P., Jepsen, H., Late Mesoproterozoic to early Neoproterozoic history of the East Greenland Caledonides: evidence for Grenvillian orogenesis?. J. Geol. Soc. Lond. 157 (2000), 1215–1225.
Kelsey, D.E., Clark, C., Hand, M., Thermobarometric modelling of zircon and monazite growth in melt-bearing systems: examples using model metapelitic and metapsammitic granulites. J. Metamorph. Geol. 26 (2008), 199–212.
Keppie, J.D., Ortega-Gutiérrez, F., 1.3-0.9 Ga Oaxaquia (Mexico): Remnant of an arc/backarc on the northern margin of Amazonia. J. S. Am. Earth Sci. 29 (2010), 21–27.
Keppie, J.D., Dostal, J., Cameron, K.L., Solari, L.A., Ortega-Gutiérrez, F., Lopez, R., Geochronology and geochemistry of Grenvillian igneous suites in the northern Oaxacan Complex, southern Mexico: tectonic implications. Precambrian Res. 120 (2003), 365–389.
Kirkland, C.L., Daly, J.S., Whitehouse, M.J., Granitic magmatism of Grenvillian and late Neoproterozoic age in Finnmark, Arctic Norway – Constraining pre-Scandian deformation in the Kalak Nappe Complex. Precambrian Res. 145 (2006), 24–52.
Kirkland, C.L., Daly, J.S., Whitehouse, M.J., Provenance and terrane evolution of the Kalak Nappe Complex, Norwegian Caledonides: Implications for Neoproterozoic paleogeography and tectonics. J. Geol. 115 (2007), 21–41.
Kirkland, C.L., Daly, J.S., Whitehouse, M.J., Basement-cover relationships of the Kalak Nappe Complex, Arctic Norwegian Caledonides and constraints on Neoproterozoic terrane assembly in the North Atlantic region. Precambrian Res. 160 (2008), 245–276.
Kirkland, C.L., Strachan, R.A., Prave, A.R., Detrital zircon signature of the Moine Supergroup, Scotland: contrasts and comparisons with other Neoproterozoic successions within the circum-North Atlantic region. Precambrian Res. 163 (2008), 332–350.
Knudsen, T.L., Petrology and geothermobarometry of granulite facies metapelites from the Hisøy-Torungen area, south Norway: new data on the Sveconorwegian P-T-t path of the Bamble sector. J. Metamorph. Geol. 14 (1996), 267–287.
Knudsen, T.L., Andersen, T., Petrology and geochemistry of the Tromøy gneiss complex, South Norway, an alleged example of Proterozoic depleted lower continental crust. J. Petrol. 40 (1999), 909–933.
Knudsen, T.L., Andersen, T., Whitehouse, M.J., Vestin, J., Detrital zircon ages from southern Norway - implications for the Proterozoic evolution of the southwestern Baltic Shield. Contrib. Mineral. Petrol. 130 (1997), 47–58.
Koistinen, T., Stephens, M.B., Bogatchev, V., Nordgulen, Ø., Wennerström, M., Korhonen, J., Geological Map of the Fennoscandian Shield, Scale 1:2000000. 2001, Geological Surveys of Finland Norway and Sweden and the North-West Department of Natural Resources of Russia.
Korenaga, J., Urey ratio and the structure and evolution of Earth's mantle. Rev. Geophys., 46, 2008, RG2007.
Korja, A., Lahtinen, R., Nironen, M., The Svecofennian orogen: a collage of microcontinents and island arcs. Gee, D.G., Stephenson, R.A., (eds.) European Lithosphere Dynamics, 2006, Geological Society, London, Memoirs, 561–578.
Köykkä, J., The sedimentation and paleohydrology of the Mesoproterozoic stream deposits in a strike-slip basin (Svinsaga Formation), Telemark, southern Norway. Sediment. Geol. 236 (2011), 239–255.
Köykkä, J., Laajoki, K., Mesoproterozoic frost action at the base of the Svinsaga Formation, central Telemark, South Norway. Nor. J. Geol. 89 (2009), 291–303.
Köykkä, J., Lamminen, J., Tidally influenced clastic epeiric sea at a Mesoproterozoic continental margin, Rjukan Rift Basin, southern Norway. Precambrian Res. 185 (2011), 164–182.
Krystopowicz, N.J., Currie, C.A., Crustal eclogitization and lithosphere delamination in orogens. Earth Planet. Sci. Lett. 361 (2013), 195–207.
Laajoki, K., The Mesoproterozoic sub-Heddal unconformity, Sauland, central Telemark, Norway. Nor. J. Geol. 82 (2002), 139–152.
Laajoki, K., Corfu, F., Lithostratigraphy of the Mesoproterozoic Vemork formation, central Telemark, Norway. Bull. Geol. Soc. Finl. 79 (2007), 41–67.
Laajoki, K., Corfu, F., Andersen, T., Lithostratigraphy and U-Pb geochronology of the Telemark supracrustals in the Bandak-Sauland area, Telemark, South Norway. Nor. J. Geol. 82 (2002), 119–138.
Lahtinen, R., Korja, A., Nironen, M., Heikkinen, P., Palaeoproterozoic accretionary processes in Fennoscandia. Geol. Soc. Lond., Spec. Publ. 318 (2009), 237–256.
Lamminen, J., Provenance and correlation of sediments in Telemark, South Norway: status of the Lifjell Group and implications for early Sveconorwegian fault tectonics. Nor. J. Geol. 91 (2011), 57–75.
Lamminen, J., Köykkä, J., The provenance and evolution of the Rjukan Rift Basin, Telemark, south Norway: The shift from a rift basin to an epicontinental sea along a Mesoproterozoic supercontinent. Precambrian Res. 181 (2010), 129–149.
Lamminen, J., Andersen, T., Nystuen, J.P., Zircon U-Pb ages and Lu-Hf isotopes from basement rocks associated with Neoproterozoic sedimentary successions in the Sparagmite Region and adjacent areas, South Norway: the crustal architecture of western Baltica. Nor. J. Geol. 91 (2011), 35–55.
Lamminen, J., Andersen, T., Nystuen, J.P., Provenance and rift basin architecture of the Neoproterozoic Hedmark Basin, South Norway inferred from U-Pb ages and Lu-Hf isotopes of conglomerate clasts and detrital zircons. Geol. Mag. 152 (2015), 80–105.
Larsen, B.T., Olaussen, S., Sundvoll, B., Heeremans, M., The Permo-Carboniferous Olso Rift through six stages and 65 million years. Episodes 31 (2008), 52–58.
Larsson, D., Söderlund, U., Lu-Hf apatite geochronology of mafic cumulates: an example from a Fe-Ti mineralization at Smålands Taberg, southern Sweden. Chem. Geol. 224 (2005), 201–211.
Lassen, A., Thybo, H., Neoproterozoic and Palaeozoic evolution of SW Scandinavia based on integrated seismic interpretation. Precambrian Res. 204 (2012), 75–104.
Laurent, A., Janoušek, V., Magna, T., Schulmann, K., Míková, J., Petrogenesis and geochronology of a post-orogenic calc-alkaline magmatic association: the Žulová Pluton, Bohemian Massif. J. Geosci. 59 (2014), 415–440.
Laurent, A.T., Seydoux-Guillaume, A.M., Duchene, S., Bingen, B., Bosse, V., Datas, L., Sulphate incorporation in monazite lattice and dating the cycle of sulphur in metamorphic belts. Contrib. Mineral. Petrol. 171 (2016), 1–19.
Laurent, O., Couzinié, S., Zeh, A., Vanderhaeghe, O., Moyen, J.F., Villaros, A., Gardien, V., Chelle-Michou, C., Protracted, coeval crust and mantle melting during Variscan late-orogenic evolution: U–Pb dating in the eastern French Massif Central. Intern. J. Earth Sci. 106 (2017), 421–451.
Laurent, A.T., Bingen, B., Duchene, S., Whitehouse, M.J., Seydoux-Guillaume, A.M., Bosse, V., Decoding protracted zircon geochronological record in ultra-high temperature granulite, and persistence of partial melting in the crust, Rogaland, Norway. Contrib. Mineral. Petrol., 173, 2018, 29.
Laurent, A.T., Duchene, S., Bingen, B., Bosse, V., Seydoux-Guillaume, A.M., Two successive phases of ultrahigh temperature metamorphism in Rogaland, S. Norway: evidence from Y-in-monazite thermometry. J. Metamorp. Geol. 36 (2018), 1009–1037.
Lawlor, P.J., Ortega-Gutiérrez, F., Cameron, K.L., Ochoa-Camarillo, H., Lopez, R., Sampson, D.E., U-Pb geochronology, geochemistry, and provenance of the Grenvillian Huiznopala Gneiss of Eastern Mexico. Precambrian Res. 94 (1999), 73–99.
Levander, A., Schmandt, B., Miller, M.S., Liu, K., Karlstrom, K.E., Crow, R.S., Lee, C.T.A., Humphreys, E.D., Continuing Colorado plateau uplift by delamination-style convective lithospheric downwelling. Nature 472 (2011), 461–465.
Li, Z.X., Bogdanova, S.V., Collins, A.S., Davidson, A., De Waele, B., Ernst, R.E., Fitzsimons, I.C.W., Fuck, R.A., Gladkochub, D.P., Jacobs, J., Karlstrom, K.E., Lu, S., Natapov, L.M., Pease, V., Pisarevsky, S.A., Thrane, K., Vernikovsky, V., Assembly, configuration, and break-up history of Rodinia: a synthesis. Precambrian Res. 160 (2008), 179–210.
Li, Z.-H., Liu, M., Gerya, T., Lithosphere delamination in continental collisional orogens: A systematic numerical study. J. Geophys. Res. Solid Earth 121 (2016), 5186–5211.
Liégeois, J.P., Navez, J., Hertogen, J., Black, R., Contrasting origin of post-collisional high-K calc-alkaline and shoshonitic versus alkaline and peralkaline granitoids. The use of sliding normalization. Lithos 45 (1998), 1–28.
Lindh, A., Gorbatschev, R., Lundegårdh, P.H., Beskrivning till berggrundskartan över Värmlands Län; Västra Värmlands Berggrund. Sveriges Geologiska Undersökning Ser. Ba 45:2 (1998), 1–405.
Longhi, J., A mantle or mafic crustal source for Proterozoic anorthosites?. Lithos 83 (2005), 183–198.
Longhi, J., Vander Auwera, J., Fram, M.S., Duchesne, J.C., Some phase equilibrium constraints on the origin of Proterozoic (massif) anorthosites and related rocks. J. Petrol. 40 (1999), 339–362.
Lorenz, H., Gee, D.G., Larionov, A.N., Majka, J., The Grenville-Sveconorwegian orogen in the high Arctic. Geol. Mag. 149 (2012), 875–891.
Loron, C., Moczydłowska, M., Tonian (Neoproterozoic) eukaryotic and prokaryotic organic-walled microfossils from the upper Visingsö Group, Sweden. Palynology 42 (2018), 220–254.
Lundmark, A.M., Corfu, F., Late-orogenic Sveconorwegian massif anorthosite in the Jotun Nappe Complex, SW Norway, and causes of repeated AMCG magmatism along the Baltoscandian margin. Contrib. Mineral. Petrol. 155 (2008), 147–163.
Lundmark, A.M., Lamminen, J., The provenance and setting of the Mesoproterozoic Dala Sandstone, western Sweden, and paleogeographic implications for southwestern Fennoscandia. Precambrian Res. 275 (2016), 197–208.
Lundqvist, I., Skiöld, T., U-Pb zircon dating of volcanic rocks of the Åmål Group, western Sweden. Lundqvist, T., (eds.) Radiometric dating results, 1993, Sveriges Geologiska Undersökning, Research Papers, Uppsala, 24–30.
Maijer, C., Day 7 - The metamorphic envelope of the Rogaland intrusive complex. Maijer, C., Padget, P., (eds.) The geology of southernmost Norway: an excursion guide, 1987, Norges Geologiske Undersøkelse, 68–73 Special Publication No 1.
Maijer, C., Verschure, R.H., Petrology and isotope geology of the Hunnedalen monzonoritic dyke swarm, SW Norway: a possible late expression of Egersund anorthosite magmatism. Norges Geol. Unders. Bull. 434 (1998), 83–107.
Marcantonio, F., McNutt, R.H., Dickin, A.P., Heaman, L.M., Isotopic evidence for the crustal evolution of the Frontenac Arch in the Grenville Province of Ontario, Canada. Chem. Geol. 83 (1990), 297–314.
Mattila, J., Viola, G., New constraints on 1.7 Gyr of brittle tectonic evolution in southwestern Finland derived from a structural study at the site of a potential nuclear waste repository (Olkiluoto Island). Journal of Structural Geology 67:Part A (2014), 50–74.
McLelland, J.M., Daly, J.S., Chiarenzelli, J., Sm–Nd and U–Pb isotopic evidence of juvenile crust in the Adirondack Lowlands and implications for the evolution of the Adirondack Mts. J. Geol. 101 (1993), 97–105.
Menuge, J.F., Neodymium, isotope evidence for the age and origin of the Proterozoic of Telemark, south Norway. Tobi, A.C., Touret, J.L., (eds.) The deep Proterozoic crust in the north Atlantic provinces, 1985, Reidel, Dordrecht, 435–448.
Menuge, J.F., The petrogenesis of massif anorthosites: a Nd and Sr isotopic investigation of the Proterozoic of Rogaland-Vest Agder, SW Norway. Contrib. Mineral. Petrol. 98 (1988), 363–373.
Merdith, A.S., Collins, A.S., Williams, S.E., Pisarevsky, S., Foden, J.D., Archibald, D.B., Blades, M.L., Alessio, B.L., Armistead, S., Plavsa, D., Clark, C., Müller, R.D., A full-plate global reconstruction of the Neoproterozoic. Gondwana Res. 50 (2017), 84–134.
Milne, K.P., Starmer, I.C., Extreme differentiation in the Proterozoic Gjerstad-Morkeheia complex of South Norway. Contrib. Mineral. Petrol. 79 (1982), 381–393.
Moczydłowska, M., Pease, V., Willman, S., Wickström, L., Agic, H., A Tonian age for the Visingsö Group in Sweden constrained by detrital zircon dating and biochronology: implications for evolutionary events. Geol. Mag. 155 (2018), 1175–1189.
Möller, C., Decompressed eclogites in the Sveconorwegian (-Grenvillian) orogen of SW Sweden: petrology and tectonic implications. J. Metamorph. Geol. 16 (1998), 641–656.
Möller, C., Sapphirine in SW Sweden: a record of Sveconorwegian (-Grenvillian) late-orogenic tectonic exhumation. J. Metamorph. Geol. 17 (1999), 127–141.
Möller, C., Andersson, J., Metamorphic zoning and behaviour of an underthrusting continental plate. J. Metamorph. Geol. 36 (2018), 567–589.
Möller, C., Söderlund, U., Age constraints on the regional deformation within the Eastern Segment, S Sweden: late Sveconorwegian granite dyke intrusion and metamorphic deformational relations. GFF 119 (1997), 1–12.
Möller, A., O'Brien, P.J., Kennedy, A., Kröner, A., Polyphase zircon in ultrahigh-temperature granulites (Rogaland, SW Norway): constraints for Pb diffusion in zircon. J. Metamorph. Geol. 20 (2002), 727–740.
Möller, A., O'Brien, P.J., Kennedy, A., Kröner, A., Linking growth episodes of zircon and metamorphic textures to zircon chemistry: an example from the ultrahigh-temperature granulites of Rogaland (SW Norway). Vance, D., Müller, W., Villa, I.M., (eds.) Geochronology: linking the isotopic record with petrology and textures, 2003, London, Special Publications, Geological Society, 65–81.
Möller, C., Andersson, J., Lundqvist, I., Hellström, F.A., Linking deformation, migmatite formation and zircon U-Pb geochronology in polymetamorphic gneisses, Sveconorwegian province, Sweden. J. Metamorph. Geol. 25 (2007), 727–750.
Möller, C., Andersson, J., Dyck, B., Antal Lundin, I., Exhumation of an eclogite terrane as a hot migmatitic nappe, Sveconorwegian orogen. Lithos 226 (2015), 147–168.
Morton, R.D., Geological investigations in the Bamble sector of the Fennoscandian Shield, S. Norway. No II. Metasediments and metapyroclastics (?) within the Precambrian metamorphic suite of the S Norwegian Skaergaard. Nor. Geol. Tidsskr. 51 (1971), 63–83.
Moyen, J.F., Laurent, O., Chelle-Michou, C., Couzinié, S., Vanderhaeghe, O., Zeh, A., Villaros, A., Gardien, V., Collision vs. subduction-related magmatism: two contrasting ways of granite formation and implications for crustal growth. Lithos 277 (2017), 154–177.
Mulch, A., Cosca, M.A., Andresen, A., Fiebig, J., Time scales of deformation and exhumation in extensional detachment systems determined by high-spatial resolution in situ UV-laser 40Ar/39Ar dating. Earth Planet. Sci. Lett. 233 (2005), 375–390.
Müller, A., Ihlen, P.M., Snook, B., Larsen, R., Flem, B., Bingen, B., Williamson, B.J., The chemistry of quartz in granitic pegmatites of southern Norway: petrogenetic and economic implications. Econ. Geol. 110 (2015), 1737–1757.
Müller, A., Romer, R.L., Pedersen, R.B., The Sveconorwegian Pegmatite Province – Thousands of pegmatites without parental granite. Can. Mineral. 55 (2017), 283–315.
Munz, I.A., Whiteschists and orthoamphibole-cordierite rocks and the P-T-t path of the Modum Complex, South Norway. Lithos 24 (1990), 181–200.
Munz, I.A., Morvik, R., Metagabbros in the Modum Complex, southern Norway: an important heat source for Sveconorwegian metamorphism. Precambrian Res. 52 (1991), 97–113.
Munz, I.A., Wayne, D., Austrheim, H., Retrograde fluid infiltration in the high-grade Modum Complex, South Norway - Evidence for age, source and REE mobility. Contrib. Mineral. Petrol. 116 (1994), 32–46.
Neilson, J.C., Kokelaar, B.P., Crowley, Q.G., Timing, relations and cause of plutonic and volcanic activity of the Siluro-Devonian post-collision magmatic episode in the Grampian Terrane, Scotland. J. Geol. Soc. Lond. 166 (2009), 545–561.
Nielsen, F.M., Campbell, I.H., McCulloch, M., Wilson, J.R., A strontium isotopic investigation of the Bjerkreim-Sokndal layered intrusion, Southwest Norway. J. Petrol. 37 (1996), 171–193.
Nijland, T.G., Maijer, C., The regional amphibolite to granulite facies transition at Arendal, Norway: evidence for a thermal dome. Neues Jahrbuch für Mineralogie, Abhandlungen 165 (1993), 191–221.
Nijland, T.G., Maijer, C., Senior, A., Verschure, R.H., Primary sedimentary structures and compositions of the high-grade metamorphic Nidelva Quartzite Complex (Bamble, Norway), and the origin of nodular gneisses. Proceedings Koninklijke Nederlandse Akademie van Wetenschappen 96 (1993), 217–232.
Nijland, T.G., Touret, J.L.R., Visser, D., Anomalously low temperature orthopyroxene, spinel, and sapphirine occurrences in metasediments from the Bamble amphibolite-to-granulite facies transition zone (South Norway): possible evidence for localized action of saline fluids. J. Geol. 106 (1998), 575–590.
Nijland, T.G., deHaas, G.J.L.M., Andersen, T., Rifting-related (sub)alkaline magmatism in the Bamble sector (Norway) during the ‘Gothian’–Sveconorwegian interlude. GFF 122 (2000), 297–305.
Nijland, T.G., Harlov, D.E., Andersen, T., The Bamble Sector, South Norway: a review. Geosci. Front. 5 (2014), 635–658.
Nordgulen, Ø., Geologisk Kart Over Norge, Berggrunnskart Hamar, 1:250000. 1999, Norges Geologiske Undersøkelse.
Nystuen, J.P., Andresen, A., Kumpulainen, R.A., Siedlecka, A., Neoproterozoic basin evolution in Fennoscandia, East Greenland and Svalbard. Episodes 31 (2008), 35–43.
Olesen, O., Smethurst, M.A., Torsvik, T.H., Bidstrup, T., Sveconorwegian igneous complexes beneath the Norwegian-Danish Basin. Tectonophysics 387 (2004), 105–130.
Olivarius, M., Friis, H., Kokfelt, T.F., Wilson, J.R., Proterozoic basement and Palaeozoic sediments in the Ringkøbing–Fyn High characterized by zircon U–Pb ages and heavy minerals from Danish onshore wells. Bull. Geol. Soc. Den. 63 (2015), 29–43.
Page, L.M., Möller, C., Johansson, L., 40Ar/39Ar geochronology across the Mylonite Zone and the Southwestern Granulite Province in the Sveconorwegian Orogen of S Sweden. Precambrian Res. 79 (1996), 239–259.
Page, L.M., Stephens, M.B., Wahlgren, C.H., 40Ar/39Ar geochronological constraints on the tectonothermal evolution of the Eastern Segment of the Sveconorwegian Orogen, south-central Sweden. Brewer, T.S., (eds.) Precambrian crustal evolution in the North Atlantic Region, 1996, London, Special Publications, Geological Society, 315–330.
Paludan, J., Hansen, U.B., Olesen, N.O., Structural evolution of the Precambrian Bjerkreim–Sokndal intrusion, South Norway. Nor. Geol. Tidsskr. 74 (1994), 185–198.
Park, R.G., Åhäll, K.I., Boland, M.P., The Sveconorwegian shear-zone network of SW Sweden in relation to mid-Proterozoic plate movements. Precambrian Res. 49 (1991), 245–260.
Pasteels, P., Demaiffe, D., Michot, J., U-Pb and Rb-Sr geochronology of the eastern part of the south Rogaland igneous complex, southern Norway. Lithos 12 (1979), 199–208.
Pearce, J.A., Harris, N.B., Tindle, A.G., Trace element discrimination diagrams for the tectonic interpretation of granitic rocks. J. Petrol. 25 (1984), 956–983.
Peccerillo, A., Taylor, S.R., Geochemistry of eocene calc-alkaline volcanic rocks from the Kastamonu area, Northern Turkey. Contrib. Mineral. Petrol. 58 (1976), 63–81.
Pedersen, S., Rb-Sr age determinations on late Proterozoic granitoids from the Evje area, South Norway. Bull. Geol. Soc. Den. 29 (1981), 129–143.
Pedersen, S., Andersen, T., Konnerup-Madsen, J., Griffin, W.L., Recurrent Mesoproterozoic continental magmatism in South-Central Norway. Int. J. Earth Sci. 98 (2009), 1151–1171.
Persson-Nilsson, K., Lundqvist, L., Abstract. The Gillberga synform - and upper-crustal orogenic lid?, 31st Nordic Geological Winter Meeting, 2014, Geologiska Föreningen, Lund, Sweden.
Petersson, A., Scherstén, A., Andersson, J., Möller, C., Zircon U-Pb and Hf isotopes from the eastern part of the Sveconorwegian Orogen, SW Sweden: Implications for the growth of Fennoscandia. Roberts, N.M.W., van Kranendonk, M., Parman, S., Shirey, S., Clift, P.D., (eds.) Continent Formation Through Time, 2015, Geological Society, Special Publications, London, 281–303.
Petersson, A., Scherstén, A., Bingen, B., Gerdes, A., Whitehouse, M.J., Mesoproterozoic continental growth: U-Pb-Hf-O zircon record in the Idefjorden Terrane, Sveconorwegian Orogen. Precambrian Res. 261 (2015), 75–95.
Pettersson, C.H., Pease, V., Frei, D., U-Pb zircon provenance of metasedimentary basement of the Northwestern Terrane, Svalbard: implications for the Grenvillian-Sveconorwegian orogeny and development of Rodinia. Precambrian Res. 175 (2009), 206–220.
Piñán-Llamas, A., Andersson, J., Möller, C., Johansson, L., Hansen, E., Polyphasal foreland-vergent deformation in a deep section of the 1 Ga Sveconorwegian orogen. Precambrian Res. 265 (2015), 121–149.
Pisarevsky, S.A., Elming, S.Å., Pesonen, L.J., Li, Z.X., Mesoproterozoic paleogeography: Supercontinent and beyond. Precambrian Res. 244 (2014), 207–225.
Plank, T., Kelley, K.A., Zimmer, M.M., Hauri, E.H., Wallace, P.J., Why do mafic arc magmas contain c. 4 wt% water on average?. Earth Planet. Sci. Lett. 364 (2013), 168–179.
Poudjom Djomani, Y.H., O'Reilly, S.Y., Griffin, W.L., Morgan, P., The density structure of subcontinental lithosphere through time. Earth Planet. Sci. Lett. 184 (2001), 605–621.
Pulsipher, M.A., Dehler, C.M., U-Pb detrital zircon geochronology, petrography, and synthesis of the middle Neoproterozoic Visingsö Group, Southern Sweden. Precambrian Res. 320 (2019), 323–333.
Rämö, O.T., Petrogenesis of the Proterozoic rapakivi granites and related basic rocks of southeastern Fennoscandia: Nd and Pb isotopic and general geochemic constraints. Geol. Surv. Finl. Bull. 355 (1991), 1–161.
Rey, P.F., Houseman, G., Lithospheric scale gravitational flow: the impact of body forces on orogenic processes from Archaean to Phanerozoic. Geol. Soc. Lond., Spec. Publ. 253 (2006), 153–167.
Rey, P., Vanderhaeghe, O., Teyssier, C., Gravitational collapse of the continental crust: definition, regimes and modes. Tectonophysics 342 (2001), 435–449.
Ripa, M., Stephens, M.B., Chapter 9 - Continental magmatic arc and siliciclastic sedimentation in the far-field part of a 1.7 Ga accretionary orogen. Geol. Soc. Lond. Mem. 50 (2020), 253–268.
Ripa, M., Stephens, M.B., Chapter 10 - Magmatism (1.6–1.4 Ga) and Mesoproterozoic sedimentation related to intracratonic rifting coeval with distal accretionary orogenesis. Geol. Soc. Lond. Mem. 50 (2020), 269–288.
Ripa, M., Stephens, M.B., Chapter 12 - Dolerites (1.27–1.25 Ga) and alkaline ultrabasic dykes (c. 1.14 Ga) related to intracratonic rifting. Geol. Soc. Lond. Mem. 50 (2020), 315–323.
Ripa, M., Stephens, M.B., Chapter 13 - Siliciclastic sedimentation in a foreland basin to the Sveconorwegian orogen and dolerites (0.98–0.95 Ga) related to intracratonic rifting. Geol. Soc. Lond. Mem. 50 (2020), 325–333.
Rivers, T., Assembly and preservation of lower, mid, and upper orogenic crust in the Grenville Province-Implications for the evolution of large hot long-duration orogens. Precambrian Res. 167 (2008), 237–259.
Rivers, T., Upper-crustal orogenic lid and mid-crustal core complexes: signature of a collapsed orogenic plateau in the hinterland of the Grenville Province. Can. J. Earth Sci. 49 (2012), 1–42.
Roberts, N.M.W., The boring billion? – Lid tectonics, continental growth and environmental change associated with the Columbia supercontinent. Geosci. Front. 4 (2013), 681–691.
Roberts, N.M.W., Slagstad, T., Continental growth and reworking on the edge of the Columbia and Rodinia supercontinents; 1.86–0.9 Ga accretionary orogeny in southwest Fennoscandia. Int. Geol. Rev. 57 (2015), 1582–1606.
Roberts, N.M.W., Slagstad, T., Parrish, R.R., Norry, M.J., Marker, M., Horstwood, M.S.A., Sedimentary recycling in arc magmas: geochemical and U-Pb-Hf-O constraints on the Mesoproterozoic Suldal Arc, SW Norway. Contrib. Mineral. Petrol. 165 (2013), 507–523.
Robins, B., Tumyr, O., Tysseland, M., Garmann, L.B., The Bjerkreim-Sokndal layered intrusion, Rogaland, SW Norway: Evidence from marginal rocks for a jotunite parent magma. Lithos 39 (1997), 121–133.
Rodhe, A., Depositional environments and lithostratigraphy of the Middle Proterozoic Almesåkra group, southern Sweden. Sveriges Geologiska Undersökning Ca 69 (1987), 1–80.
Roffeis, C., Corfu, F., Caledonian nappes of southern Norway and their correlation with Sveconorwegian basement domains. Corfu, F., Gasser, D., Chew, D.M., (eds.) New perspectives on the Caledonides of Scandinavia and related areas, 2014, London, Special Publications, Geological Society, 193–221.
Rogers, J.J.W., Santosh, M., Configuration of Columbia, a Mesoproterozoic Supercontinent. Gondwana Res. 5 (2002), 5–22.
Røhr, T.S., Bingen, B., Robinson, P., Reddy, S.M., Geochronology of Paleoproterozoic augen gneisses in the Western Gneiss Region, Norway: evidence for Sveconorwegian zircon neocrystallization and Caledonian zircon deformation. J. Geol. 121 (2013), 105–128.
Romer, R.L., Smeds, S.A., U-Pb columbite ages of pegmatites from Sveconorwegian terranes in southwestern Sweden. Precambrian Res. 76 (1996), 15–30.
Royden, L.H., Burchfiel, B.C., van der Hilst, R.D., The geological evolution of the Tibetan Plateau. Science 321 (2008), 1054–1058.
Rubatto, D., Hermann, J., Berger, J., Engi, M., Protracted fluid-induced melting during Barrovian metamorphism in the Central Alps. Contrib. Mineral. Petrol. 158 (2009), 703–722.
Ruiz, J., Patchett, P.J., Ortega-Gutierrez, F., Proterozoic and Phanerozoicbasement terranes of Mexico from Nd isotopic studies. Geol. Soc. Am. Bull. 100 (1988), 274–281.
Saintot, A., Stephens, M.B., Viola, G., Nordgulen, Ø., Brittle tectonic evolution and paleostress field reconstruction in the southwestern part of the Fennoscandian Shield, Forsmark, Sweden. Tectonics, 30(4), 2011, 10.1029/2010tc002781.
Schärer, U., Wilmart, E., Duchesne, J.C., The short duration and anorogenic character of anorthosite magmatism: U-Pb dating of the Rogaland complex, Norway. Earth Planet. Sci. Lett. 139 (1996), 335–350.
Scheiber, T., Viola, G., Bingen, B., Peters, M., Solli, A., Multiple reactivation and strain localization along a Proterozoic orogen-scale deformation zone: the Kongsberg-Telemark boundary in southern Norway revisited. Precambrian Res. 265 (2015), 78–103.
Scherer, E., Munker, C., Mezger, K., Calibration of the lutetium-hafnium clock. Science 293 (2001), 683–687.
Scherstén, A., Årebäck, H., Cornell, D., Hoskin, P., Åberg, A., Armstrong, R., Dating mafic-ultramafic intrusions by ion-microprobing contact-melt zircon: examples from SW Sweden. Contrib. Mineral. Petrol. 139 (2000), 115–125.
Schiellerup, H., Lambert, D.D., Prestvik, T., Robins, B., McBride, J.S., Larsen, R.B., Re–Os isotopic evidence for a lower crustal origin of massif-type anorthosites. Nature 405 (2000), 781–784.
Seydoux-Guillaume, A.M., Montel, J.M., Bingen, B., Bosse, V., de Parseval, P., Paquette, J.L., Janots, E., Wirth, R., Low-temperature alteration of monazite: Fluid mediated coupled dissolution-precipitation, irradiation damage, and disturbance of the U-Pb and Th-Pb chronometers. Chem. Geol. 330-331 (2012), 140–158.
Sigmond, E.M.O., Geologisk kart over Norge, berggrunnskart Sauda, 1:250000. 1975, Norges geologiske undersøkelse, Trondheim.
Sigmond, E.M.O., Beskrivelse til det berggrunnsgeologiske kartbladet Sauda 1:250000. Norges Geol. Unders. Bull. 341 (1978), 1–94.
Sigmond, E.M.O., The Mandal–Ustaoset line, a newly discovered major fault zone in south Norway. Tobi, A.C., Touret, J.L., (eds.) The Deep Proterozoic Crust in the North Atlantic provinces, 1985, Reidel, Dordrecht, 323–331.
Sigmond, E.M.O., Geologisk kart over Norge, berggrunnskart Odda, 1:250000. 1998, Norges Geologiske Undersøkelse, Trondheim.
Sigmond, E.M.O., Ragnhildstveit, J., Berggrunnskart Kalhovd 1515 II, 1:50000. 2004, Norges Geologiske Undersøkelse, Trondheim.
Sizova, E., Gerya, T., Brown, M., Contrasting styles of Phanerozoic and Precambrian continental collision. Gondwana Res. 25 (2014), 522–545.
Slagstad, T., Roberts, N.M.W., Marker, M., Røhr, T.S., Schiellerup, H., A non-collisional, accretionary Sveconorwegian orogen. Terra Nova 25 (2013), 30–37.
Slagstad, T., Roberts, N.M.W., Kulakov, E., Linking orogenesis across a supercontinent; the Grenvillian and Sveconorwegian margins on Rodinia. Gondwana Res. 44 (2017), 109–115.
Slagstad, T., Roberts, N.M.W., Coint, N., Høy, I., Sauer, S., Kirkland, K.L., Marker, M., Røhr, T.S., Henderson, I.H.C., Stormoen, M.A., Skår, Ø., Sørensen, B.E., Bybee, G.M., Magma-driven, high-grade metamorphism in the Sveconorwegian Province, southwest Norway, during the terminal stages of Fennoscandian Shield evolution. Geosphere 14 (2018), 861–882.
Slagstad, T., Kulakov, E., Kirkland, C.L., Roberts, N.M.W., Ganerød, M., Breaking the Grenville–Sveconorwegian link in Rodinia reconstructions. Terra Nova 31 (2019), 430–437.
Slagstad, T., Marker, M., Roberts, N.M.W., Saalmann, K., Kirkland, C.L., Kulakov, E., Ganerød, M., Røhr, T.S., Møkkelgjerd, S.H.H., Granseth, A., Sørensen, B.E., The Sveconorwegian orogeny – Reamalgamation of the fragmented southwestern margin of Fennoscandia. Precambrian Res., 350, 2020, 105877.
Sláma, J., Walderhaug, O., Fonneland, H., Košler, J., Pedersen, R.B., Provenance of Neoproterozoic to Upper Cretaceous sedimentary rocks, eastern Greenland: Implications for recognizing the sources of sediments in the Norwegian Sea. Sediment. Geol. 238 (2011), 254–267.
Sobolev, A.V., Chaussidon, M., H2O concentrations in primary melts from supra-subduction zones and mid-ocean ridges: implications for H2O storage and recycling in the mantle. Earth Planet. Sci. Lett. 137 (1996), 45–55.
Söderlund, U., Ask, R., Evidence for two pulses (1215-1224 and ca. 1205 Ma) of bimodal magmatism along the Protogine Zone, S Sweden. GFF 128 (2006), 303–310.
Söderlund, U., Jarl, L.G., Persson, P.O., Stephens, M.B., Wahlgren, C.H., Protolith ages and timing of deformation in the eastern, marginal part of the Sveconorwegian orogen, southwestern Sweden. Precambrian Res. 94 (1999), 29–48.
Söderlund, U., Möller, C., Andersson, J., Johansson, L., Whitehouse, M.J., Zircon geochronology in polymetamorphic gneisses in the Sveconorwgian orogen, SW Sweden: ion microprobe evidence for 1.46-1.42 Ga and 0.98-0.96 Ga reworking. Precambrian Res. 113 (2002), 193–225.
Söderlund, P., Söderlund, U., Möller, C., Gorbatschev, R., Rodhe, A., Petrology and ion microprobe U-Pb chronology applied to a metabasic intrusion in southern Sweden: a study on zircon formation during metamorphism and deformation. Tectonics, 23(5), 2004, TC5005 https://doi.org/10.1029/2003TC001498.
Söderlund, U., Isachsen, C.E., Bylund, G., Heaman, L.M., Patchett, P.J., Vervoort, J.D., Andersson, U.B., U-Pb baddeleyite ages, and Hf, Nd isotope chemistry constraining repeated mafic magmatism in the Fennoscandian Shield from 1.6 to 0.9 Ga. Contrib. Mineral. Petrol. 150 (2005), 174–194.
Söderlund, U., Elming, S.Å., Ernst, R.E., Schissel, D., The Central Scandinavian Dolerite Group - Protracted hotspot activity or back-arc magmatism? Constraints from U-Pb baddeleyite geochronology and Hf isotopic data. Precambrian Res. 150 (2006), 136–152.
Söderlund, U., Hellström, F.A., Kamo, S.L., Geochronology of high-pressure mafic granulite dykes in SW Sweden; tracking the P-T-t path of metamorphism using Hf isotopes in zircon and baddeleyite. J. Metamorph. Geol. 26 (2008), 539–560.
Söderlund, U., Karlsson, C., Johansson, L., Larsson, K., The Kullaberg peninsula - a glimpse of the Proterozoic evolution of SW Fennoscandia. GFF 130 (2008), 1–10.
Solari, L.A., Ortega-Gutiérrez, F., Elías-Herrera, M., Ortega-Obregón, C., Macías-Romo, C., Reyes-Salas, M., Detrital provenance of the Grenvillian Oaxacan Complex, southern Mexico: a zircon perspective. Int. J. Earth Sci. 103 (2014), 1301–1315.
Spear, F.S., Metamorphic phase equilibria and pressure-temperature-time paths. 1993, Mineralogical Society of America, Monograph, Washington D.C.
Spencer, C.J., Kirkland, C.L., Prave, A.R., Strachan, R.A., Pease, V., Crustal reworking and orogenic styles inferred from zircon Hf isotopes: Proterozoic examples from the North Atlantic region. Geosci. Front. 10 (2019), 417–424.
Spencer, C.J., Roberts, N.M.W., Cawood, P.A., Hawkesworth, C.J., Prave, A.R., Antonini, A.S.M., Horstwood, M.S.A., Intermontane basins and bimodal volcanism at the onset of the Sveconorwegian Orogeny, southern Norway. Precambrian Res. 252 (2014), 107–118.
Stacey, J.S., Kramers, J.D., Approximation of terrestrial lead isotope evolution by a two-stage model. Earth Planet. Sci. Lett. 26 (1975), 207–221.
Starmer, I.C., The evolution of the south Norwegian Proterozoic as revealed by the major and mega-tectonics of the Kongsberg and Bamble sector. Tobi, A.C., Touret, J.L., (eds.) The Deep Proterozoic Crust in the North Altantic Provinces, 1985, Reidel, Dordrecht, 259–290.
Starmer, I.C., The Proterozoic evolution of the Bamble sector shear belt, southern Norway: correlations across southern Scandinavia and the Grenvillian controversy. Precambrian Res. 49 (1991), 107–139.
Stein, H.J., Bingen, B., 1.05-1.01 Ga Sveconorwegian metamorphism and deformation of the supracrustal sequence at Sæsvatn, South Norway: Re-Os dating of Cu-Mo mineral occurrences. Blundell, D., Neubauer, F., von Quadt, A., (eds.) The Timing and Location of Major ore Deposits in an Evolving Orogen, 2002, Geological Society, Special Publications, London, 319–335.
Stephens, M.B., Chapter 8 - Outboard-migrating accretionary orogeny at 1.9–1.8 Ga (Svecokarelian) along a margin to the continent Fennoscandia. Geol. Soc. Lond. Mem. 50 (2020), 237–250.
Stephens, M.B., Wahlgren, C.H., Chapter 15 - Polyphase (1.9–1.8, 1.5–1.4 and 1.0–0.9 Ga) deformation and metamorphism of Proterozoic (1.9–1.2 Ga) continental crust, Eastern Segment, Sveconorwegian orogen. Geol. Soc. Lond. Mem. 50 (2020), 351–396.
Stephens, M.B., Wahlgren, C.H., Chapter 17 - Accretionary orogens reworked in an overriding plate setting during protracted continent–continent collision, Sveconorwegian orogen, southwestern Sweden. Geol. Soc. Lond. Mem. 50 (2020), 435–448.
Stephens, M.B., Wahlgren, C.H., Weijermars, R., Cruden, A.R., Left lateral transpressive deformation and its tectonic implications, Sveconorwegian Orogen, Baltic Shield, Southwestern Sweden. Precambrian Res. 79 (1996), 261–279.
Stephens, M.B., Bergström, U., Wahlgren, C.H., Chapter 14 - Regional context and lithotectonic framework of the 1.1–0.9 Ga Sveconorwegian orogen, southwestern Sweden. Geol. Soc. Lond. Mem. 50 (2020), 337–349.
Strachan, R.A., Nutman, A.P., Friderichsen, J.D., SHRIMP U-Pb geochronology and metamorphic history of the Smallefjord sequence, NE Greenland Caledonides. J. Geol. Soc. Lond. 152 (1995), 779–784.
Strachan, R.A., Prave, A.R., Kirkland, C.L., Storey, C.D., U–Pb detrital zircon geochronology of the Dalradian Supergroup, Shetland Islands, Scotland: implications for regional correlations and Neoproterozoic–Palaeozoic basin development. J. Geol. Soc. Lond. 170 (2013), 905–916.
Thybo, H., Crustal structure along the EGT profile across the Tornquist Fan interpreted from seismic, gravity and magnetic data. Tectonophysics 334 (2001), 155–190.
Tobi, A.C., Hermans, G.A., Maijer, C., Jansen, J.B.H., Metamorphic zoning in the high-grade Proterozoic of Rogaland-Vest Agder, SW Norway. Tobi, A.C., Touret, J.L., (eds.) The Deep Proterozoic Crust in the North Atlantic provinces, 1985, Reidel, Dordrecht, 477–497.
Tohver, E., Bettencourt, J.S., Tosdal, R., Mezger, K., Leite, W.B., Payolla, B.L., Terrane transfer during the Grenville orogeny: tracing the Amazonian ancestry of southern Appalachian basement through Pb and Nd isotopes. Earth Planet. Sci. Lett. 228 (2004), 161–176.
Tohver, E., van der Pluijm, B.A., Mezger, K., Essene, E., Scandolara, J.E., Rizzotto, G., Significance of the Nova Bresilândia metasedimentary belt in western Brazil: redefining the Mesoproterozoic boundary of the Amazon craton. Tectonics, 2004, 23 TC6004 https://doi.org/10.1029/2003TC001563 001561-001520.
Tohver, E., van der Pluijm, B.A., Mezger, K., Scandolara, J.E., Essene, E., Two stage tectonic history of the SW Amazon craton in the late Mesoproterozoic: identifying a cryptic suture zone. Precambrian Res. 137 (2005), 35–59.
Tomkins, H.S., Williams, I.S., Ellis, D.J., In situ U-Pb dating of zircon formed from retrograde garnet breakdown during decompression in Rogaland, SW Norway. J. Metamorph. Geol. 23 (2005), 201–215.
Torgersen, E., Viola, G., Zwingmann, H., Henderson, I.H.C., Inclined K-Ar illite age spectra in brittle fault gouges: effects of fault reactivation and wall-rock contamination. Terra Nova 27 (2015), 106–113.
Torgersen, E., Henderson, I.H.C., Bingen, B., Svendby, K., Nasuti, A., Abstract. The Nisser Shear Zone – Discovery of a Sveconorwegian crustal-scale detachment zone in southern Norway 33rd Nordic Geological Winter Meeting. 2018, Geological Society of Denmark, Copenhagen, Denmark, 59.
Torsvik, T.H., The Rodinia jigsaw puzzle. Science 300 (2003), 1379–1381.
Torsvik, T.H., Smethurst, M.A., Meert, J.G., Van der Voo, R., Mc Kerrow, W.S., Brasier, M.D., Sturt, B.A., Walderhaug, H.J., Continental break up and collision in the Neoproterozoic and Paleozoic - A tale of Baltica and Laurentia. Earth Sci. Rev. 40 (1996), 229–258.
Touret, J.L., Le facies granulite en Norvège méridionale. 1. Les associations minéralogiques. Lithos 4 (1971), 239–249.
Touret, J.L., Le facies granulite en Norvège méridionale. 2. Les inclusions fluides. Lithos 4 (1971), 423–436.
Touret, J.L., Day 2 - The high-grade metamorphic Bamble sector. Maijer, C., Padget, P., (eds.) The Geology of Southernmost Norway: An Excursion Guide, 1987, Norges Geologiske Undersøkelse, 25–30 Special Publication No 1.
Tual, L., Piñán-Llamas, A., Möller, C., High-temperature deformation in the basal shear zone of an eclogite-bearing fold nappe, Sveconorwegian orogen, Sweden. Precambrian Res. 265 (2015), 104–120.
Tual, L., Pitra, P., Möller, C., P–T evolution of Precambrian eclogite in the Sveconorwegian orogen, SW Sweden. J. Metamorp. Geol. 35 (2017), 493–515.
Tucker, R.D., Krogh, T.E., Råheim, A., Proterozoic evolution and age - province boundaries in the central part of the Western Gneiss Region, Norway: results of U-Pb dating of accessory minerals from Trondheimsfjord to Geiranger. Gower, C.F., Rivers, T., Ryan, B., (eds.) Mid-Proterozoic Laurentia-Baltica, 1990, Geological Association of Canada, 149–173 Special Paper 38.
Ulmius, J., Andersson, J., Möller, C., Hallandian 1.45 Ga high-temperature metamorphism in Baltica: P-T evolution and SIMS U-Pb zircon ages of aluminous gneisses, SW Sweden. Precambrian Res. 265 (2015), 10–39.
Ulmius, J., Möller, C., Page, L., Johansson, L., Ganerød, M., The eastern boundary of Sveconorwegian reworking in the Baltic Shield, defined by 40Ar/39Ar geochronology across the southernmost Sveconorwegian Province. Precambrian Res. 307 (2018), 201–217.
Vaasjoki, M., The lead isotopic composition of some Finnish galenas. Geol. Surv. Finl. Bull., 316, 1981, 25.
Valentino, D.W., Chiarenzelli, J.R., Regan, S.P., Spatial and temporal links between Shawinigan accretionary orogenesis and massif anorthosite intrusion, southern Grenville province, New York, U.S.A. J. Geodyn. 129 (2019), 80–97.
Vander Auwera, J., Longhi, J., Experimental study of a jotunite (hypersthene monzodiorite): constraints on the parent magma composition and crystallization conditions (P, T, fO2) of the Bjerkreim-Sokndal layered intrusion (Norway). Contrib. Mineral. Petrol. 118 (1994), 60–78.
Vander Auwera, J., Longhi, J., Duchesne, J.C., A liquid line of descent of the Jotunite (Hypersthene Monzodiorite) suite. J. Petrol. 39 (1998), 439–468.
Vander Auwera, J., Bogaerts, M., Liégeois, J.P., Demaiffe, D., Wilmart, E., Bolle, O., Duchesne, J.C., Derivation of the 1.0-0.9 Ga ferro-potassic A-type granitoids of southern Norway by extreme differentiation from basic magmas. Precambrian Res. 124 (2003), 107–148.
Vander Auwera, J., Bogaerts, M., Bolle, O., Longhi, J., Genesis of intermediate igneous rocks at the end of the Sveconorwegian (Grenvillian) orogeny (S Norway) and their contribution to intracrustal differentiation. Contrib. Mineral. Petrol. 156 (2008), 721–743.
Vander Auwera, J., Bolle, O., Bingen, B., Liégeois, J.P., Bogaerts, M., Duchesne, J.C., DeWaele, B., Longhi, J., Sveconorwegian massif-type anorthosites and related granitoids result from post-collisional melting of a continental root. Earth Sci. Rev. 107 (2011), 375–397.
Vander Auwera, J., Charlier, B., Duchesne, J.C., Bingen, B., Longhi, J., Bolle, O., Comment on Bybee et al. (2014): Pyroxene megacrysts in Proterozoic anorthosites: Implications for tectonic setting, magma source and magmatic processes at the Moho. Earth Planet. Sci. Lett. 401 (2014), 378–380.
Vander Auwera, J., Bolle, O., Dupont, A., Pin, C., Paquette, J.L., Charlier, B., Duchesne, J.C., Mattielli, N., Bogaerts, M., Source-derived heterogeneities in the composite (charnockite-granite) ferroan Farsund intrusion (SW Norway). Precambrian Res. 251 (2014), 141–163.
Vanderhaeghe, O., The thermal–mechanical evolution of crustal orogenic belts at convergent plate boundaries: A reappraisal of the orogenic cycle. J. Geodyn. 56-57 (2012), 124–145.
Vermeesch, P., On the visualisation of detrital age distributions. Chem. Geol. 312 (2012), 190–194.
Verschure, R.H., Andriessen, P.A.M., Boelrijk, N.A.M., Hebeda, E.H., Maijer, C., Priem, H.N.A., Verdurmen, E.A.T., On the thermal stability of Rb-Sr and K-Ar biotite systems: evidence from coexisting Sveconorwegian (ca. 870 Ma) and (ca. 400 Ma) biotites in SW Norway. Contrib. Mineral. Petrol. 74 (1980), 245–252.
Villaseca, C., Barbero, L., Herreros, V., A re-examination of the typology of peraluminous granite types in intracontinental orogenic belts. Trans. R. Soc. Edinb. Earth Sci. 89 (1998), 113–119.
Viola, G., Henderson, I.H.C., Inclined transpression at the toe of an arcuate thrust: an example from the Precambrian “Mylonite Zone” of the Sveconorwegian orogen. Law, R., Butler, R., Holdsworth, R.E., Krabbendam, M., Strachan, R.A., (eds.) Continental Tectonics and Mountain Building - The Legacy of Peach and Horne, 2010, Geological Society, Special Publications, London, 715–737.
Viola, G., Venvik Ganerød, G., Wahlgren, C.H., Unraveling 1.5 Ga of brittle deformation history in the Laxemar-Simpevarp area, southeast Sweden: a contribution to the Swedish site investigation study for the disposal of highly radioactive nuclear waste. Tectonics, 28(5), 2009, 10.1029/2009TC002461 TC5007.
Viola, G., Henderson, I.H.C., Bingen, B., Hendriks, B.W.H., The Grenvillian-Sveconorwegian orogeny in Fennoscandia: Back-thrusting and extensional shearing along the "Mylonite Zone". Precambrian Res. 189 (2011), 368–388.
Viola, G., Zwingmann, H., Mattila, J., Käpyaho, A., K-Ar illite age constraints on the Proterozoic formation and reactivation history of a brittle fault in Fennoscandia. Terra Nova 25 (2013), 236–244.
Viola, G., Bingen, B., Solli, A., Berggrunnskart Kongsberg lithotectoniske enhet, Kongsberg-Modum-Hønefoss - Bedrock geology map of the Kongsberg lithotectonic unit, Kongsberg-Modum-Hønefoss. 2016, Norges Geologiske Undersøkelse - Geological Survey of Norway Scale 1:100000, 1 sheet.
Wahlgren, C.H., Page, L., Kübler, L., Delin, H., 40Ar-39Ar biotite age of a lamprophyre dyke and constraints on the timing of ductile deformation inside the Idefjorden terrane and along the Mylonite Zone, Sveconorwegian orogen, south-west Sweden. GFF 138 (2016), 311–319.
Wahlgren, C.H., Stephens, M.B., Chapter 11 - Reworking of older (1.8 Ga) continental crust by Mesoproterozoic (1.5–1.4 Ga) orogeny, Blekinge–Bornholm orogen, southeastern Sweden. Geol. Soc. Lond. Mem. 50 (2020), 291–312.
Wahlgren, C.H., Cruden, A.R., Stephens, M.B., Kinematics of a major fan-like structure in the eastern part of the Sveconorwegian orogen, Baltic Shield, south-central Sweden. Precambrian Res. 70 (1994), 67–91.
Wallace, P.J., Volatiles in subduction zone magmas: concentrations and fluxes based on melt inclusion and volcanic gas data. J. Volcanol. Geotherm. Res. 140 (2005), 217–240.
Wang, X.D., Söderlund, U., Lindh, A., Johansson, L., U-Pb and Sm-Nd dating of high-pressure granulite- and upper amphibolite facies rocks from SW Sweden. Precambrian Res. 92 (1998), 319–339.
Weber, B., Köhler, H., Sm–Nd, Rb–Sr and U–Pb geochronology of a Grenville Terrane in Southern Mexico: origin and geologic history of the Guichicovi Complex. Precambrian Res. 96 (1999), 245–262.
Weber, B., Scherer, E.E., Schulze, C., Valencia, V.A., Montecinos, P., Mezger, K., Ruiz, J., U-Pb and Lu-Hf isotope systematics of lower crust from central-southern Mexico - Geodynamic significance of Oaxaquia in a Rodinia Realm. Precambrian Res. 182 (2010), 149–162.
Weis, D., Genetic implications of Pb isotopic geochemistry in the Rogaland anorthositic complex (Southwest Norway). Chem. Geol. 57 (1986), 181–199.
Wickström, L.M., Stephens, M.B., Chapter 18 - Tonian–Cryogenian rifting and Cambrian–Early Devonian platformal to foreland basin development outside the Caledonide orogen. Geol. Soc. Lond. Mem. 50 (2020), 451–477.
Wiest, J.D., Jacobs, J., Ksienzyk, A.K., Fossen, H., Sveconorwegian vs. Caledonian orogenesis in the eastern Øygarden Complex, SW Norway – Geochronology, structural constraints and tectonic implications. Precambrian Res. 305 (2018), 1–18.
Wilmart, E., Demaiffe, D., Duchesne, J.C., Geochemical constraints on the genesis of the Tellnes ilmenite deposit, southwest Norway. Econ. Geol. 84 (1989), 1047–1056.
Zhang, S., Li, Z.-X., Evans, D.A.D., Wu, H., Li, H., Dong, J., Pre-Rodinia supercontinent Nuna shaping up: a global synthesis with new paleomagnetic results from North China. Earth Planet. Sci. Lett. 353-354 (2012), 145–155.
Zhang, W., Roberts, D., Pease, V., Provenance characteristics and regional implications of Neoproterozoic, Timanian-margin successions and a basal Caledonian nappe in northern Norway. Precambrian Res. 268 (2015), 153–167.
Zhang, W., Roberts, D., Pease, V., Provenance of sandstones from Caledonian nappes in Finnmark, Norway: implications for Neoproterozoic–Cambrian palaeogeography. Tectonophysics 691 (2016), 198–205.

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