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International Geology Review Volume 57, 2015 - Issue 11-12: Precambrian crustal growth and tectonics
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Review Article

Continental growth and reworking on the edge of the Columbia and Rodinia supercontinents; 1.86–0.9 Ga accretionary orogeny in southwest Fennoscandia

Nick M.W. RobertsNERC Isotope Geosciences Laboratory, British Geological Survey, Nottingham, UKCorrespondence[email protected]
&
Trond SlagstadGeological Survey of Norway, Trondheim, Norway
Pages 1582-1606 | Received 25 Mar 2014, Accepted 22 Aug 2014, Published online: 26 Nov 2014

References

  • Åhäll, K.-I., 1984, Pillow lava in the Stora Le-Marstrand formation, south-western Sweden: GFF, v. 106, no. 1, p. 105–107. doi:10.1080/11035898409454617
  • Åhäll, K.-I., 2001, Åldersbestämning av svårdaterade bergarter I syd östra Sverige: SKB rapport, R-01-60, 28 sidor.
  • Åhäll, K.-I., and Connelly, J., 1998, Intermittent 1.53–1.13 Ga magmatism in western Baltica; age constraints and correlations within a postulated supercontinent: Precambrian Research, v. 92, no. 1, p. 1–20. doi:10.1016/S0301-9268(98)00064-3
  • Åhäll, K.-I., and Connelly, J.N., 2008, Long-term convergence along SW Fennoscandia: 330 m.y. of Proterozoic crustal growth: Precambrian Research, v. 163, no. 3–4, p. 402–421.
  • Åhäll, K.-I., Connelly, J.N., and Brewer, T.S., 2000, Episodic rapakivi magmatism due to distal orogenesis?: Correlation of 1.69–1.50 Ga orogenic and inboard, “anorogenic” events in the Baltic Shield: Geology, v. 28, p. 823–826. doi:10.1130/0091-7613(2000)28<823:ERMDTD>2.0.CO;2
  • Åhäll, K.-I., Connelly, J.N., and Brewer, T.S., 2002, Transitioning from Svecofennian to Transcandinavian Igneous Belt (TIB) magmatism in SE Sweden: Implications from the 1.82 Ga Eksjö tonalite: GFF, v. 124, p. 217–224. doi:10.1080/11035890201244217
  • Åhäll, K.-I., Cornell, D.H., and Armstrong, R., 1998, Ion probe zircon dating of metasedimentary units across the Skagerrak: New constraints for early Mesoproterozoic growth of the Baltic Shield: Precambrian Research, v. 87, no. 3–4, p. 117–134. doi:10.1016/S0301-9268(97)00059-4
  • Åhäll, K.-I., and Daly, J.S., 1989, Age, tectonic setting and provenance of Östfold-Marstrand belt supracrustals: Westward crustal growth of the Baltic Shield at 1760 Ma: Precambrian Research, v. 45, no. 1–3, p. 45–61. doi:10.1016/0301-9268(89)90030-2
  • Åhäll, K.-I., and Gower, C.F., 1997, The Gothian and Labradorian orogens: Variations in accretionary tectonism along a late Paleoproterozoic Laurentia‐Baltica margin: GFF, v. 119, no. 2, p. 181–191. doi:10.1080/11035899709546475
  • Åhäll, K.-I., and Larson, S.Å., 2000, 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, v. 122, no. 2, p. 193–206. doi:10.1080/11035890001222193
  • Åhäll, K.-I., Persson, P.-O., and Skiöld, T., 1995, Westward accretion of the Baltic Shield: Implications from the 1.6 Ga Åmål-Horred Belt, SW Sweden: Precambrian Research, v. 70, no. 3–4, p. 235–251. doi:10.1016/0301-9268(94)00043-Q
  • Åhäll, K.-I., Samuelsson, L., and Persson, P.O., 1997, Geochronology and structural setting of the 1.38 Ga Torpa granite; implications for charnockite formation in SW Sweden: GFF, v. 119, no. 1, p. 37–43. doi:10.1080/11035899709546451
  • Andersen, T., 2005, Terrane analysis, regional nomenclature and crustal evolution in the Southwest Scandinavian Domain of the Fennoscandian Shield: GFF, v. 127, no. 2, p. 159–168. doi:10.1080/11035890501272159
  • Andersen, T., Andersson, U.B., Graham, S., Åberg, G., and Simonsen, S.L., 2009a, Granitic magmatism by melting of juvenile continental crust: New constraints on the source of Palaeoproterozoic granitoids in Fennoscandia from Hf isotopes in zircon: Journal of the Geological Society, v. 166, no. 2, p. 233–247. doi:10.1144/0016-76492007-166
  • Andersen, T., Andresen, A., and Sylvester, A.G., 2001, 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: Journal of the Geological Society, v. 158, no. 2, p. 253–267. doi:10.1144/jgs.158.2.253
  • Andersen, T., Graham, S., and Sylvester, A.G., 2009b, The geochemistry, Lu–Hf isotope systematics, and petrogenesis of Late Mesoproterozoic A-type granites in southwestern Fennoscandia: The Canadian Mineralogist, v. 47, no. 6, p. 1399–1422. doi:10.3749/canmin.47.6.1399
  • Andersen, T., Graham, S.T.U.A.R.T., and Sylvester, A.G., 2007a, Timing and tectonic significance of Sveconorwegian A-type granitic magmatism in Telemark, southern Norway: New results from laser-ablation ICPMS U-Pb dating of zircon: Norges Geologiske Undersøkelse Bulletin, v. 447, p. 17–31.
  • Andersen, T., and Griffin, W.L., 2004, Lu–Hf and U–Pb isotope systematics of zircons from the Storgangen intrusion, Rogaland Intrusive Complex, SW Norway: Implications for the composition and evolution of Precambrian lower crust in the Baltic Shield: Lithos, v. 73, no. 3–4, p. 271–288. doi:10.1016/j.lithos.2003.12.010
  • Andersen, T., Griffin, W.L., Jackson, S.E., Knudsen, T.-L., and Pearson, N.J., 2004, Mid-Proterozoic magmatic arc evolution at the southwest margin of the Baltic Shield: Lithos, v. 73, no. 3–4, p. 289–318. doi:10.1016/j.lithos.2003.12.011
  • Andersen, T., Griffin, W.L., and Pearson, N.J., 2002a, Crustal evolution in the SW part of the Baltic Shield: The Hf isotope evidence: Journal of Petrology, v. 43, no. 9, p. 1725–1747. doi:10.1093/petrology/43.9.1725
  • Andersen, T., Griffin, W.L., and Sylvester, A.G., 2007b, Sveconorwegian crustal underplating in southwestern Fennoscandia: LAM-ICPMS U–Pb and Lu–Hf isotope evidence from granites and gneisses in Telemark, southern Norway: Lithos, v. 93, no. 3–4, p. 273–287. doi:10.1016/j.lithos.2006.03.068
  • Andersen, T., Sylvester, A.G., and Andresen, A.R.I.L.D., 2002b, Age and petrogenesis of the Tinn granite, Telemark, South Norway, and its geochemical relationship to metarhyolite of the Rjukan group: Norges Geologiske Undersøkelse, v. 440, p. 19–26.
  • Andersson, J., 1996, Sveconorwegian influence on the ca. 1.36 Ga old Tjärnesjö granite, and associated pyroxene‐bearing quartz‐monzonites in southwestern Sweden: GFF, v. 118, no. 4, p. 7–8. doi:10.1080/11035899609546266
  • Andersson, J., Möller, C., and Johansson, L., 2002, Zircon geochronology of migmatite gneisses along the Mylonite Zone (S Sweden): A major Sveconorwegian terrane boundary in the Baltic Shield: Precambrian Research, v. 114, no. 1–2, p. 121–147. doi:10.1016/S0301-9268(01)00220-0
  • Andersson, J., Söderlund, U., Cornell, D., Johansson, L., and Möller, C., 1999, Sveconorwegian (-Grenvillian) deformation, metamorphism and leucosome formation in SW Sweden, SW Baltic Shield: Constraints from a Mesoproterozoic granite intrusion: Precambrian Research, v. 98, no. 1–2, p. 151–171. doi:10.1016/S0301-9268(99)00048-0
  • Andersson, U.B., 1991, Granitoid episodes and mafic-felsic magma interaction in the Svecofennian of the Fennoscandian Shield, with main emphasis on the ~1.8 Ga plutonics: Precambrian Research, v. 51, no. 1–4, p. 127–149. doi:10.1016/0301-9268(91)90097-T
  • Andersson, U.B., Begg, G.C., Griffin, W.L., and Högdahl, K., 2011, Ancient and juvenile components in the continental crust and mantle: Hf isotopes in zircon from Svecofennian magmatic rocks and rapakivi granites in Sweden: Lithosphere, v. 3, no. 6, p. 409–419. doi:10.1130/L162.1
  • Andersson, U.B., Eklund, O., Fröjdö, S., and Konopelko, D., 2006, 1.8 Ga magmatism in the Fennoscandian Shield; lateral variations in subcontinental mantle enrichment: Lithos, v. 86, no. 1–2, p. 110–136. doi:10.1016/j.lithos.2005.04.001
  • Andersson, U.B., and Öhlander, B., 2004, The late Svecofennian magmatism, in Högdahl, K., Andersson, U.B., and Eklund, O., eds., The Transscandinavian Igneous Belt (TIB) in Sweden: A Review of its Character and Evolution: Geological Survey of Finland Special Paper, v. 37, p. 100–102.
  • Andersson, U.B., Rutanen, H., Johansson, Å., Mansfeld, J., and Rimša, A., 2007, Characterization of the Paleoproterozoic mantle beneath the Fennoscandian Shield: Geochemistry and isotope geology, (Nd, Sr) of ~1.8 Ga mafic plutonic rocks from the Transscandinavian Igneous Belt in southeast Sweden: International Geology Review, v. 49, no. 7, p. 587–625. doi:10.2747/0020-6814.49.7.587
  • Andersson, U.B., Sjostrom, H., Hogdahl, K., and Eklund, O., 2004, The Transscandinavian igneous belt, evolutionary models, in Högdahl, K., Andersson, U.B., and Eklund, O., eds., The Transscandinavian Igneous Belt (TIB) in Sweden: A Review of its Character and Evolution: Geological Survey of Finland Special Paper, v. 37, p. 104.
  • Appelquist, K., Brander, L., Johansson, Å., Andersson, U.B., and Cornell, D., 2011, Character and origin of variably deformed granitoids in central southern Sweden: Implications from geochemistry and Nd isotopes: Geological Journal, v. 46, no. 6, p. 597–618. doi:10.1002/gj.1303
  • Appelquist, K., Cornell, D., and Brander, L., 2008, Age, tectonic setting and petrogenesis of the Habo Volcanic Suite: Evidence for an active continental margin setting for the Transscandinavian Igneous Belt: GFF, v. 130, no. 3, p. 123–138. doi:10.1080/11035890809453228
  • Appelquist, K., Eliasson, T., Bergström, U., and Rimša, A., 2009, The Palaeoproterozoic Malmbäck Formation in S Sweden: Age, composition and tectonic setting: GFF, v. 131, no. 3, p. 229–243. doi:10.1080/11035890903189777
  • Appelquist, K., and Johansson, Å., 2011, Nd isotope systematics of 1.8 Ga volcanic rocks within the Transscandinavian Igneous Belt, south-central Sweden: GFF, v. 133, no. 1–2, p. 89–100. doi:10.1080/11035897.2011.570456
  • Ask, R., 1996, Single zircon evaporation Pb‐Pb ages from the Vaggeryd syenite and dolerites in the SE part of the Sveconorwegian orogen, Småland, S Sweden: GFF, v. 118, no. Sup 4, p. 8–8. doi:10.1080/11035899609546267
  • Berglund, J., 1997, Mid-Proterozoic evolution in south-western Sweden [Unpublished Ph.D. thesis]: Sweden, University of Gothenburg.
  • Betts, P.G., Giles, D., and Schaefer, B.F., 2008, Comparing 1800–1600 Ma accretionary and basin processes in Australia and Laurentia: Possible geographic connections in Columbia: Precambrian Research, v. 166, no. 1–4, p. 81–92. doi:10.1016/j.precamres.2007.03.007
  • Bingen, B., Andersson, J., Soderlun, U., and Moller, C., 2008a, The Mesoproterozoic in the Nordic countries: Episodes, v. 31, no. 1, p. 29.
  • Bingen, B., Davis, W.J., Hamilton, M.A., Engvik, A.K., Stein, H.J., Skar, O., and Nordgulen, O., 2008b, Geochronology of high-grade metamorphism in the Sveconorwegian belt, S. Norway: U-Pb, Th-Pb and Re-Os data: Norsk Geologisk Tidsskrift, v. 88, no. 1, p. 13.
  • Bingen, B., Mansfeld, J., Sigmond, E.M., and Stein, H., 2002, Baltica-Laurentia link during the Mesoproterozoic: 1.27 Ga development of continental basins in the Sveconorwegian Orogen, southern Norway: Canadian Journal of Earth Sciences, v. 39, no. 9, p. 1425–1440. doi:10.1139/e02-054
  • Bingen, B., Nordgulen, Ø., Sigmond, E.M., Tucker, R., Mansfeld, J., and Högdahl, K., 2003, Relations between 1.19–1.13 Ga continental magmatism, sedimentation and metamorphism, Sveconorwegian province, S Norway: Precambrian Research, v. 124, no. 2–4, p. 215–241. doi:10.1016/S0301-9268(03)00087-1
  • Bingen, B., Nordgulen, O., and Viola, G., 2008c, A four-phase model for the Sveconorwegian orogeny, SW Scandinavia: Norsk Geologisk Tidsskrift, v. 88, no. 1, p. 43.
  • Bingen, B., Skår, Ø., Marker, M., Sigmond, E.M., Nordgulen, Ø., Ragnhildstveit, J., and Liégeois, J.P., 2005, Timing of continental building in the Sveconorwegian orogen, SW Scandinavia: Norwegian Journal of Geology, v. 85, no. 1–2, p. 87–116.
  • Bispo-Santos, F., D’Agrella-Filho, M.S., Trindade, R.I., Elming, S.-Å., Janikian, L., Vasconcelos, P.M., Perillo, B.M., Pacca, I.I., Da Silva, J.A., and Barros, M.A., 2012, Tectonic implications of the 1419 Ma Nova Guarita mafic intrusives paleomagnetic pole (Amazonian Craton) on the longevity of Nuna: Precambrian Research, v. 196–197, p. 1–22. doi:10.1016/j.precamres.2011.10.022
  • Bogdanova, S.V., Bingen, B., Gorbatschev, R., Kheraskova, T.N., Kozlov, V.I., Puchkov, V.N., and Volozh, Y.A., 2008, The East European Craton (Baltica) before and during the assembly of Rodinia: Precambrian Research, v. 160, no. 1–2, p. 23–45. doi:10.1016/j.precamres.2007.04.024
  • Bogdanova, S.V., Čečys, A., Bibikova, E.V., Ilyinsky, L.S., and Taran, L.N., 2014, Danopolonian migmatization of Mesoproterozoic sedimentary rocks in southernmost Sweden: A SIMS zircon study: GFF, v. 136, no. 2, p. 410–428. doi:10.1080/11035897.2013.855815
  • Bogdanova, S.V., Page, L.M., Skridlaite, G., and Taran, L.N., 2001, Proterozoic tectonothermal history in the western part of the East European Craton: 40Ar/39Ar geochronological constraints: Tectonophysics, v. 339, no. 1–2, p. 39–66. doi:10.1016/S0040-1951(01)00033-6
  • Brander, L., 2011, The Mesoproterozoic Hallandian event – A regional-scale orogenic event in the Fennoscandian Shield [Unpublished Ph.D. thesis]: Sweden, University of Gothenburg.
  • Brander, L., Appelquist, K., Cornell, D., and Andersson, U.B., 2012a, Igneous and metamorphic geochronologic evolution of granitoids in the central Eastern Segment, southern Sweden: International Geology Review, v. 54, no. 5, p. 509–546. doi:10.1080/00206814.2010.543785
  • Brander, L., and Söderlund, U., 2009, Mesoproterozoic (1.47–1.44 Ga) orogenic magmatism in Fennoscandia; Baddeleyite U–Pb dating of a suite of massif-type anorthosite in S. Sweden: International Journal of Earth Sciences, v. 98, no. 3, p. 499–516. doi:10.1007/s00531-007-0281-0
  • Brander, L., Söderlund, U., and Bingen, B., 2011, 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: Geological Magazine, v. 148, no. 4, p. 632–643. doi:10.1017/S0016756811000033
  • Brander, L., Svahnberg, H., and Piazolo, S., 2012b, Brittle-plastic deformation in initially dry rocks at fluid-present conditions: Transient behaviour of feldspar at mid-crustal levels: Contributions to Mineralogy and Petrology, v. 163, p. 403–425. doi:10.1007/s00410-011-0677-5
  • Brewer, T.S., Åhäll, K.-I., Menuge, J.F., Storey, C.D., and Parrish, R.R., 2004, Mesoproterozoic bimodal volcanism in SW Norway, evidence for recurring pre-Sveconorwegian continental margin tectonism: Precambrian Research, v. 134, no. 3–4, p. 249–273. doi:10.1016/j.precamres.2004.06.003
  • Brewer, T.S., Daly, J.S., and Åhäll, K.-I., 1998, Contrasting magmatic arcs in the Palaeoproterozoic of the south-western Baltic Shield: Precambrian Research, v. 92, no. 3, p. 297–315. doi:10.1016/S0301-9268(98)00079-5
  • Brown, M., 2014, The contribution of metamorphic petrology to understanding lithosphere evolution and geodynamics: Geoscience Frontiers, v. 5, no. 4, p. 553–569. doi:10.1016/j.gsf.2014.02.005
  • Buchan, K.L., Ernst, R.E., Hamilton, M.A., Mertanen, S., Pesonen, L.J., and Elming, S.Å., 2001, Rodinia: The evidence from integrated palaeomagnetism and U–Pb geochronology: Precambrian Research, v. 110, no. 1–4, p. 9–32. doi:10.1016/S0301-9268(01)00178-4
  • Bybee, G.M., Ashwal, L.D., Shirey, S.B., Horan, M., Mock, T., and Andersen, T.B., 2014, Pyroxene megacrysts in Proterozoic anorthosites: Implications for tectonic setting, magma source and magmatic processes at the Moho: Earth and Planetary Science Letters, v. 389, p. v. 74–85. doi:10.1016/j.epsl.2013.12.015
  • Cawood, P.A., 2005, Terra Australis Orogen: Rodinia breakup and development of the Pacific and Iapetus margins of Gondwana during the Neoproterozoic and Paleozoic: Earth-Science Reviews, v. 69, no. 3–4, p. 249–279. doi:10.1016/j.earscirev.2004.09.001
  • Cawood, P.A., and Buchan, C., 2007, Linking accretionary orogenesis with supercontinent assembly: Earth-Science Reviews, v. 82, no. 3–4, p. 217–256. doi:10.1016/j.earscirev.2007.03.003
  • Cawood, P.A., Kröner, A., Collins, W.J., Kusky, T.M., Mooney, W.D., and Windley, B.F., 2009, Accretionary orogens through Earth history, in Cawood, P.A., and Kröner, A., eds., Earth Accretionary Systems in Space and Time: Geological Society, London, Special Publications, v. 318, no. 1, p. 1–36.
  • Cawood, P.A., Leitch, E.C., Merle, R.E., and Nemchin, A.A., 2011, Orogenesis without collision: Stabilizing the Terra Australis accretionary orogen, eastern Australia: Geological Society of America Bulletin, v. 123, no. 11–12, p. 2240–2255. doi:10.1130/B30415.1
  • Čečarys, A., Bogdanova, S., Janson, C., Bibikova, E., and Kornfält, K.-A., 2002, The Stenshuvud and Tåghusa granitoids: New representatives of Mesoproterozoic magmatism in southern Sweden: GFF, v. 124, no. 3, p. 149–162. doi:10.1080/11035890201243149
  • Čečys, A., and Benn, K., 2007, Emplacement and deformation of the ca. 1.45 Ga Karlshamn granitoid pluton, southeastern Sweden, during ENE–WSW Danopolonian shortening: International Journal of Earth Sciences, v. 96, p. v. 397-414. doi:10.1007/s00531-006-0114-6
  • Christoffel, C.A., Connelly, J.N., and Åhäll, K.-I., 1999, Timing and characterization of recurrent pre-Sveconorwegian metamorphism and deformation in the Varberg–Halmstad region of SW Sweden: Precambrian Research, v. 98, no. 3–4, p. 173–195. doi:10.1016/S0301-9268(99)00046-7
  • Collins, W.J., 2002, Nature of extensional accretionary orogens: Tectonics, v. 21, no. 4, p. 6–1. doi:10.1029/2000TC001272
  • Condie, K.C., 2013, Preservation and recycling of crust during accretionary and collisional phases of Proterozoic orogens: A bumpy road from Nuna to Rodinia: Geosciences, v. 3, no. 2, p. 240–261. doi:10.3390/geosciences3020240
  • Connelly, J.N., Berglund, J., and Larson, S.Å., 1996, Thermotectonic evolution of the Eastern Segment of southwestern Sweden: Tectonic constraints from U-Pb geochronology: Geological Society, London, Special Publications, v. 112, no. 1, p. 297–313. doi:10.1144/GSL.SP.1996.112.01.16
  • Corfu, F., and Andersen, T.B., 2002, U–Pb ages of the Dalsfjord Complex, SW Norway, and their bearing on the correlation of allochthonous crystalline segments of the Scandinavian Caledonides: International Journal of Earth Sciences, v. 91, no. 6, p. 955–963. doi:10.1007/s00531-002-0298-3
  • Corfu, F., and Laajoki, K., 2008, An uncommon episode of mafic magmatism at 1347 Ma in the Mesoproterozoic Telemark supracrustals, Sveconorwegian orogen—Implications for stratigraphy and tectonic evolution: Precambrian Research, v. 160, no. 3–4, p. 299–307. doi:10.1016/j.precamres.2007.08.003
  • Cornell, D.H., and Hegardt, E.A., 2004, When, where and how did the Sveconorwegian Terranes of Sweden Meet? in Proceedings of the 26th Nordic Geological Winter Meeting: Uppsala, Sweden, GFF, p. 20.
  • Culshaw, N.G., Slagstad, T., Raistrick, M., and Dostal, J., 2013, Geochemical, geochronological and isotopic constraints on the origin of members of the allochthonous Shawanaga and basal Parry Sound domains, Central Gneiss Belt, Grenville Province, Ontario: Precambrian Research, v. 228, p. 131–150. doi:10.1016/j.precamres.2013.01.012
  • Dahlgren, S., Heaman, L., and Krogh, T., 1990, Geological evolution and U-Pb geochronology of the Proterozoic central Telemark area, Norway: Geonytt, v. 17, no. 1, p. 38.
  • De Haas, G.J.L., Andersen, T., and Vestin, J., 1999, Detrital zircon geochronology: New evidence for an old model for accretion of the Southwest Baltic Shield: The Journal of Geology, v. 107, no. 5, p. 569–586. doi:10.1086/314370
  • De Haas, G.J.L., Nijland, T.G., Andersen, T., and Corfu, F., 2002, 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, v. 124, no. 2, p. 73–78. doi:10.1080/11035890201242073
  • DeCelles, P.G., Ducea, M.N., Kapp, P., and Zandt, G., 2009, Cyclicity in Cordilleran orogenic systems: Nature Geoscience, v. 2, no. 4, p. 251–257. doi:10.1038/ngeo469
  • Drüppel, K., Elsäßer, L., Brandt, S., and Gerdes, A., 2013, Sveconorwegian Mid-crustal Ultrahigh-temperature Metamorphism in Rogaland, Norway: U–Pb LA-ICP-MS Geochronology and Pseudosections of Sapphirine Granulites and Associated Paragneisses: Journal of Petrology, v. 54, no. 2, p. 305–350. doi:10.1093/petrology/egs070
  • Ernst, R.E., Wingate, M.T.D., Buchan, K.L., and Li, Z.X., 2008, Global record of 1600–700 Ma Large Igneous Provinces (LIPs): Implications for the reconstruction of the proposed Nuna (Columbia) and Rodinia supercontinents: Precambrian Research, v. 160, no. 1, p. 159–178.
  • Evans, D.A., 2009, The palaromagneticlaly viable, long-lived and all-inclusive Rodinia supercontinent reconstruction, in Murphy, J.B., Keppie, J.D., and Hynes, A.J., eds., Ancient Orogens and Modern Analogues: Geological Society, London, Special Publications, v. 327, p. 371–404.
  • Evans, D.A., and Mitchell, R.N., 2011, Assembly and breakup of the core of Paleoproterozoic–Mesoproterozoic supercontinent Nuna: Geology, v. 39, no. 5, p. 443–446. doi:10.1130/G31654.1
  • Falkum, T., 1985, Geotectonic evolution of southern Scandinavia in light of a late-Proterozoic plate-collision, in Tobi, A.C., and Touret, J.L.R., eds., The Deep Proterozoic Crust in the North Atlantic Provinces: NATO Advanced Study Institute Series: Dordrecht, Reidel, p. 309–322.
  • Fan, H.-P., Zhu, W.-G., Li, Z.-X., Zhong, H., Bai, Z.-J., He, D.-F., Chen, C.-J., and Cao, C.-Y., 2013, Ca. 1.5 Ga mafic magmatism in South China during the break-up of the supercontinent Nuna/Columbia: The Zhuqing Fe–Ti–V oxide ore-bearing mafic intrusions in western Yangtze Block: Lithos, v. 168–169, p. v. 85-98. doi:10.1016/j.lithos.2013.02.004
  • Gaál, G., and Gorbatschev, R., 1987, An outline of the Precambrian evolution of the Baltic Shield: Precambrian Research, v. 35, p. 15–52. doi:10.1016/0301-9268(87)90044-1
  • Gorbatschev, R., 2004, The Transscandinavian Igneous Belt-introduction and background, in Högdahl, K., Andersson, U.B., and Eklund, O., eds., The Transscandinavian Igneous Belt (TIB) in Sweden: A Review of its Character and Evolution: Geological Survey of Finland Special Paper, v. 37, p. 9.
  • Gower, C.F., 1985, Correlations between the Grenville Province and Sveconorwegian Orogenic Belt—implications for Proterozoic evolution of the southern margins of the Canadian and Baltic Shields, in Tobi, A.C., and Touret, J.L.R., eds., The Deep Proterozoic Crust in the North Atlantic Provinces: NATO Advanced Study Institute Series: Dordrecht, Reidel, p. 247–257.
  • Gower, C.F., Ryan, A.B., and Rivers, T., 1990, Mid-Proterozoic Laurentia-Baltica: An overview of its geological evolution and a summary of the contributions made by this volume, in Gower, C.F., Rivers, T., and Ryan, B., eds., Mid-Proterozoic Laurentia-Baltica: Geological Association of Canada, Special Paper, v. 38, p. 1–20.
  • Hageskov, B., 1997, Geochemistry and tectonic significance of late Gothian mafic dykes in the Østfold-Marstrand belt of SE Norway and W. Sweden: Precambrian Research, v. 82, no. 3–4, p. 287–309. doi:10.1016/S0301-9268(96)00063-0
  • Hansen, B.T., and Lindh, A., 1991, U-Pb zircon age of the Görbjörnarp syenite in Skåne, southern Sweden: GFF, v. 113, no. 4, p. 335–337. doi:10.1080/11035899109453208
  • Hegardt, A.E., and Cornell, D.H., 2004, Pressure, temperature and timing of metamorphism to constrain tectonic models for the Sveconorwegian Province of Southwestern Sweden: Geological Survey of Sweden Report, v. 4, p. 10–11.
  • Hegardt, E.A., Cornell, D., Claesson, L., Simakov, S., Stein, H., and Hannah, J. 2005. Eclogites in the central part of the Sveconorwegian Eastern Segment of the Baltic Shield: Support for an extensive eclogite terrane: GFF, v. 127, no. 3, p. 221–232. doi:10.1080/11035890501273221
  • Hegardt, E.A., Cornell, D.H., Hellström, F.A., and Lundqvist, I., 2007, Emplacement ages of the mid-Proterozoic Kungsbacka bimodal suite, SW Sweden: GFF, v. 129, no. 3, p. 227–234. doi:10.1080/11035890701293227
  • Hermansson, T., Stephens, M.B., Corfu, F., Page, L.M., and Andersson, J., 2008, Migratory tectonic switching, western Svecofennian orogen, central Sweden: Constraints from U/Pb zircon and titanite geochronology: Precambrian Research, v. 161, no. 3–4, p. 250–278. doi:10.1016/j.precamres.2007.08.008
  • Högdahl, K., Andersson, U.B., and Eklund, O., 2004, The Transscandinavian Igneous Belt: A review of its character and evolution, in Högdahl, K., Andersson, U.B., and Eklund, O., eds., The Transscandinavian Igneous Belt (TIB) in Sweden: A Review of its Character and Evolution: Geological Survey of Finland Special Paper, v. 37, p. 1–125.
  • Högdahl, K., Sjöström, H., Andersson, U.B., and Ahl, M., 2008, Continental margin magmatism and migmatisation in the west-central Fennoscandian Shield: Lithos, v. 102, no. 3–4, p. 435–459. doi:10.1016/j.lithos.2007.07.019
  • Högdahl, K., Sjöström, H., and Bergman, S., 2009, Ductile shear zones related to crustal shortening and domain boundary evolution in the central Fennoscandian Shield: Tectonics, v. 28, TC1003, no. 1. doi:10.1029/2008TC002277
  • Hogmalm, K.J., Söderlund, U., Larson, S.Å., Meurer, W.P., Hellström, F.A., and Claeson, D.T., 2006, The Ulvö Gabbro Complex of the 1.27–1.25 Ga Central Scandinavian Dolerite Group (CSDG): Intrusive age, magmatic setting and metamorphic history: GFF, v. 128, no. 1, p. 1–6. doi:10.1080/11035890601281001
  • Hubbard, F.H., 1975, The Precambrian crystalline complex of south-western Sweden. The geology and petrogenetic development of the Varberg region: GFF, v. 97, no. 3, p. 223–236. doi:10.1080/11035897509454305
  • Ibanez-Mejia, M., Ruiz, J., Valencia, V.A., Cardona, A., Gehrels, G.E., and Mora, A.R., 2011, 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 Research, v. 191, no. 1–2, p. 58–77. doi:10.1016/j.precamres.2011.09.005
  • Jarl, L.-G., 2002, U-Pb zircon ages from the Vaggeryd syenite and the adjacent Hagshult granite, southern Sweden: GFF, v. 124, no. 4, p. 211–216. doi:10.1080/11035890201244211
  • Johansson, Å., 1988, The age and geotectonic setting of the Småland-Värmland granite-porphyry belt: GFF, v. 110, no. 2, p. 105–110.
  • Johansson, Å., 2009, Baltica, Amazonia and the SAMBA connection—1000 million years of neighbourhood during the Proterozoic?: Precambrian Research, v. 175, no. 1–4, p. 221–234. doi:10.1016/j.precamres.2009.09.011
  • Johansson, Å., Bogdanova, S., and Čečys, A. 2006, A revised geochronology for the Blekinge Province, southern Sweden: GFF, v. 128, no. 4, p. 287–302. doi:10.1080/11035890601284287
  • Johansson, L., Möller, C., and Söderlund, U., 2001, Geochronology of eclogite facies metamorphism in the Sveconorwegian Province of SW Sweden: Precambrian Research, v. 106, no. 3–4, p. 261–275. doi:10.1016/S0301-9268(00)00105-4
  • Karlstrom, K.E., Åhäll, K.-I., Harlan, S.S., Williams, M.L., McLelland, J., and Geissman, J.W., 2001, Long-lived (1.8–1.0 Ga) convergent orogen in southern Laurentia, its extensions to Australia and Baltica, and implications for refining Rodinia: Precambrian Research, v. 111, no. 1–4, p. 5–30. doi:10.1016/S0301-9268(01)00154-1
  • Kiel, H.M., Cornell, D.H., and Whitehouse, M.J., 2003, Age and emplacement conditions of the Chalmers mafic intrusion deduced from contact melts: GFF, v. 125, no. 4, p. 213–220. doi:10.1080/11035890301254213
  • Knudsen, T.-L., and Andersen, T., 1999, Petrology and geochemistry of the Tromøy gneiss complex, South Norway, an alleged example of Proterozoic depleted lower continental crust: Journal of Petrology, v. 40, no. 6, p. 909–933. doi:10.1093/petroj/40.6.909
  • Korja, A., and Heikkinen, P.J., 1995, Proterozoic extensional tectonics of the central Fennoscandian Shield: Results from the Baltic and Bothnian Echoes from the Lithosphere experiment: Tectonics, v. 14, no. 2, p. 504–517. doi:10.1029/94TC02905
  • Korja, A., Korja, T., Luosto, U., and Heikkinen, P., 1993, Seismic and geoelectric evidence for collisional and extensional events in the Fennoscandian Shield implications for Precambrian crustal evolution: Tectonophysics, v. 219, no. 1–3, p. 129–152. doi:10.1016/0040-1951(93)90292-R
  • Korja, A., Lahtinen, R., and Nironen, M., 2006, The Svecofennian orogen: A collage of microcontinents and island arcs, in Gee, D.G., and Stephenson, R.A., eds., European Lithospere Dynamics: Geological Society, London, Memoirs, v. 32, no. 1, p. 561–578.
  • Kullerud, L., and Machado, N., 1991, End of a controversy: U–Pb geochronological evidence for significant Grenvillian activity in the Bamble area, Norway: Terra Abstracts, v. 3, p. 604.
  • Kurhila, M., Andersen, T., and Rämö, O.T., 2010, Diverse sources of crustal granitic magma: Lu–Hf isotope data on zircon in three Paleoproterozoic leucogranites of southern Finland: Lithos, v. 115, no. 1–4, p. 263–271. doi:10.1016/j.lithos.2009.12.009
  • Laajoki, K., Corfu, F., and Andersen, T., 2002, Lithostratigraphy and UPb geochronology of the Telemark supracrustals in the Bandak-Sauland area, Telemark, South Norway: Norwegian Journal of Geology, v. 82, no. 3, p. 119–138.
  • Lahtinen, R., Korja, A., and Nironen, M., 2005, Paleoproterozoic tectonic evolution: Developments in Precambrian Geology, v. 14, p. 481–531. doi:10.1016/S0166-2635(05)80012-X
  • Lahtinen, R., Korja, A., Nironen, M., and Heikkinen, P., 2009, Palaeoproterozoic accretionary processes in Fennoscandia, in Cawood, P.A., and Kröner, A., eds., Earth Accretionary Systems in Space and Time: Geological Society, London, Special Publications, v. 318, no. 1, p. 237–256.
  • Lamminen, J. 2011, Provenance and correlation of sediments in Telemark, South Norway: Status of the Lifjell Group and implications for early Sveconorwegian fault tectonics: Norwegian Journal of Geology, v. 91, p. 57–75.
  • Lamminen, J., Andersen, T., and Nystuen, J.P., 2011, 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: Norwegian Journal of Geology, v. 91, p. 35–55.
  • Lamminen, J., and Köykkä, J., 2010, 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 Research, v. 181, no. 1–4, p. 129–149. doi:10.1016/j.precamres.2010.05.017
  • Larson, S.Å., Berglund, J., Stigh, J., and Tullborg, E.-L. 1990, The Protogine Zone, southwest Sweden: A new model – An old issue, in Gowerr, C.F., Rivers, T., and Ryan, A.B., eds., Mid-Proterozoic Laurentia-Baltica: Geological Association of Canada Special Paper, 38, p. 317–333.
  • Larsson, D., and Söderlund, U., 2005, Lu–Hf apatite geochronology of mafic cumulates: An example from a Fe–Ti mineralization at Smålands Taberg, southern Sweden: Chemical Geology, v. 224, no. 4, p. 201–211. doi:10.1016/j.chemgeo.2005.07.007
  • 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., and Vernikovsky, V., 2008, Assembly, configuration, and break-up history of Rodinia: A synthesis: Precambrian Research, v. 160, no. 1–2, p. 179–210. doi:10.1016/j.precamres.2007.04.021
  • Lindh, A., 1987, Westward growth of the Baltic Shield: Precambrian Research, v. 35, p. 53–70. doi:10.1016/0301-9268(87)90045-3
  • Lundmark, A.M., Corfu, F., Spürgin, S., and Selbekk, R.S., 2007, Proterozoic evolution and provenance of the high-grade Jotun Nappe Complex, SW Norway: U–Pb geochronology: Precambrian Research, v. 159, no. 3–4, p. 133–154. doi:10.1016/j.precamres.2006.12.015
  • Mansfeld, J., 1996, Geological, geochemical and geochronological evidence for a new Palaeoproterozoic terrane in southeastern Sweden: Precambrian Research, v. 77, no. 1–2, p. 91–103. doi:10.1016/0301-9268(95)00046-1
  • Mansfeld, J., Beunk, F.F., and Barling, J., 2005, 1.83—1.82 Ga formation of a juvenile volcanic arc—implications from U—Pb and Sm—Nd analyses of the Oskarshamn-Jönköping Belt, southeastern Sweden: GFF, v. 127, no. 2, p. 149–157. doi:10.1080/11035890501272149
  • Meert, J.G., 2012, What’s in a name? The Columbia (Paleopangaea/Nuna) supercontinent: Gondwana Research, v. 21, no. 4, p. 987–993. doi:10.1016/j.gr.2011.12.002
  • Menuge, J.F., 1985, Neodymium isotope evidence for the age and origin of the Proterozoic of Telemark, South Norway, in Tobi, A.C., and Touret, J.L.R., eds., The Deep Proterozoic Crust in the North Atlantic Provinces: NATO Advanced Study Institute Series: Dordrecht, Reidel, p. 435–448.
  • Menuge, J.F., and Brewer, T.S. 1996. Mesoproterozoic anorogenic magmatism in southern Norway: Geological Society, London, Special Publications, v. 112, no. 1, p. 275–295.
  • Möller, C., Andersson, J., Lundqvist, I., and Hellström, F., 2007, Linking deformation, migmatite formation and zircon U–Pb geochronology in polymetamorphic orthogneisses, Sveconorwegian Province, Sweden: Journal of Metamorphic Geology, v. 25, no. 7, p. 727–750. doi:10.1111/j.1525-1314.2007.00726.x
  • Möller, C., Bingen, B., Andersson, J., Stephens, M.B., Viola, G., and Scherstén, A., 2013, A non‐collisional, accretionary Sveconorwegian orogen–Comment: Terra Nova, v. 25, no. 2, p. 165–168. doi:10.1111/ter.12029
  • Nijland, T.G., Maijer, C., Senior, A., and Verschure, R.H., 1993, Primary sedimentary structures and composition of the high-grade metamorphic Nidelva quartzite complex (Bamble, Norway) and the origin of nodular gneisses: Proceedings Koninklijke Nederlandsche Akademie van Wetenschappen, v. 96, p. 217–232.
  • Nyström, J.O., 1982, Post-Svecokarelian andinotype evolution in central Sweden: Geologische Rundschau, v. 71, no. 1, p. 141–157. doi:10.1007/BF01825032
  • Obst, K., Hammer, J., Katzung, G., and Korich, D., 2004, The Mesoproterozoic basement in the southern Baltic Sea: Insights from the G 14-1 off-shore borehole: International Journal of Earth Sciences, v. 93, p. 1–12. doi:10.1007/s00531-003-0371-6
  • Patchett, P.J., Todt, W., and Gorbatschev, R., 1987, Origin of continental crust of 1.9-1.7 Ga age: Nd isotopes in the Svecofennian orogenic terrains of Sweden: Precambrian Research, v. 35, p. 145–160. doi:10.1016/0301-9268(87)90050-7
  • Pedersen, S., Andersen, T., Konnerup-Madsen, J., and Griffin, W.L., 2009, Recurrent mesoproterozoic continental magmatism in South-Central Norway: International Journal of Earth Sciences, v. 98, no. 5, p. 1151–1171. doi:10.1007/s00531-008-0309-0
  • Persson, P.-O., Wahlgren, C.-H., and Hansen, B.T., 1983, U-Pb ages of Proterozoic metaplutonics in the gneiss complex of southern Värmland, south-western Sweden: GFF, v. 105, no. 1, p. 1–8. doi:10.1080/11035898309455284
  • Petersson, A., Scherstén, A., Andersson, J., and Möller, C., 2013, Zircon U–Pb and Hf–isotopes from the eastern part of the Sveconorwegian Orogen, SW Sweden: Implications for the growth of Fennoscandia, in Roberts, N.M.W., Van Kranendonk, M., Parman, S., Shirey, S., and Clift, P.D., eds., Continent Formation Through Time: Geological Society, London, Special Publications, v. 389. doi:10.1144/SP389.2
  • Piontek, J.E., Connelly, J.N., and Åhäll, K.I., 1998, 1.3 Ga anorogenic magmatism in Southwest Sweden: Geological Society of America, Abstracts with programs, v. 30, no. 7, p. 293.
  • Piper, J.D., 2013, A planetary perspective on Earth evolution: Lid Tectonics before Plate Tectonics: Tectonophysics, v. 589, p. 44–56. doi:10.1016/j.tecto.2012.12.042
  • Pisarevsky, S.A., Biswal., T.K., Wang, X.-C., De Waele, B., Ernst, R., Söderlund, U., Tait, J.A., Ratre, K., Singh, Y.K., and Cleve, M., 2013a, Palaeomagnetic, geochronological and geochemical study of Mesoproterozoic Lakhna Dykes in the Bastar Craton, India: Implications for the Mesoproterozoic supercontinent: Lithos, v. 174, p. 125–143. doi:10.1016/j.lithos.2012.07.015
  • Pisarevsky, S.A., Elming, S.-Å., Pesonen, L.J., and Li, Z.-X., 2013b, Mesoproterozoic paleogeography: Supercontinent and beyond: Precambrian Research, v. 244, p. 207–225. doi:10.1016/j.precamres.2013.05.014
  • Pisarevsky, S.A., Wingate, M.T., Li, Z.-X., Wang, X.-C., Tohver, E., and Kirkland, C.L., 2014, Age and paleomagnetism of the 1210 Ma Gnowangerup–Fraser dyke swarm, Western Australia, and implications for late Mesoproterozoic paleogeography: Precambrian Research, v. 246, p. 1–15. doi:10.1016/j.precamres.2014.02.011
  • Rimša, A., Johansson, L., and Whitehouse, M.J., 2007, Constraints on incipient charnockite formation from zircon geochronology and rare earth element characteristics: Contributions to Mineralogy and Petrology, v. 154, no. 3, p. 357–369. doi:10.1007/s00410-007-0197-5
  • Rimša, A., Whitehouse, M.J., and Johansson, L., 2004, Zirconology of charnockitised gneisses from Sondrum, SW Sweden: Geochimica et Cosmochimica Acta, Abstract Supplements, v. 68, no. 11, p. A62.
  • Roberts, N.M.W., 2013, The boring billion?–Lid tectonics, continental growth and environmental change associated with the Columbia supercontinent: Geoscience Frontiers, v. 4, no. 6, p. 681–691. doi:10.1016/j.gsf.2013.05.004
  • Roberts, N.M.W., Parrish, R.R., Horstwood, M.S., and Brewer, T., 2011, The 1.23 Ga Fjellhovdane rhyolite, Grøssæ-Totak; A new age within the Telemark supracrustals, southern Norway: Norwegian Journal of Geology, v. 91, p. 239–246.
  • Roberts, N.M.W., Slagstad, T., Parrish, R.R., Norry, M.J., Marker, M., and Horstwood, M.S., 2013, Sedimentary recycling in arc magmas: Geochemical and U–Pb–Hf–O constraints on the Mesoproterozoic Suldal Arc, SW Norway: Contributions to Mineralogy and Petrology, v. 165, no. 3, p. 507–523. doi:10.1007/s00410-012-0820-y
  • Roffeis, C., Corfu, F., and Gabrielsen, R.H., 2013, A Sveconorwegian terrane boundary in the Caledonian Hardanger–Ryfylke Nappe Complex: The lost link between Telemarkia and the Western Gneiss Region?: Precambrian Research, v. 228, p. 20–35. doi:10.1016/j.precamres.2013.01.008
  • Rogers, J.J., and Santosh, M., 2009, Tectonics and surface effects of the supercontinent Columbia: Gondwana Research, v. 15, no. 3–4, p. 373–380. doi:10.1016/j.gr.2008.06.008
  • Romer, R.L., 1996, Contiguous Laurentia and Baltica before the Grenvillian‐Sveconorwegian orogeny?: Terra Nova, v. 8, no. 2, p. 173–181. doi:10.1111/j.1365-3121.1996.tb00741.x
  • Romer, R.L., Kjøsnes, B., Korneliussen, A., Lindahl, I., Skyseth, T., Stendal, M., and Sundvoll, B., 1992, The Archaean–Proterozoic boundary beneath the Caledonides of northern Norway and Sweden: U–Pb, Rb–Sr and eNd isotope data from the Rombak–Tysfjord area: Norges Ggeologiske Undersøkelse Rapport, v. 91, no. 6, p. 1–67.
  • Rutanen, H., and Andersson, U.B., 2009, Mafic plutonic rocks in a continental‐arc setting: Geochemistry of 1.87–1.78 Ga rocks from south‐central Sweden and models of their palaeotectonic setting: Geological Journal, v. 44, no. 3, p. 241–279.
  • Schärer, U., Wilmart, E., and Duchesne, J.-C., 1996, The short duration and anorogenic character of anorthosite magmatism: UPb dating of the Rogaland complex, Norway: Earth and Planetary Science Letters, v. 139, no. 3–4, p. 335–350. doi:10.1016/0012-821X(96)00033-7
  • Sigmond, E.M., 1978, Beskrivelse til det berggrunngeologiske kartbladet Sauda 1:250 000: NGU Bulletin, v. 341, p. 1–94.
  • Sigmond, E.M.O., Gjelle, S., and Solu, A., 1997, The Rjukan Proterozoic rift basin, its basement and cover, volcanic and sedimentary infill, and associated intrusions: Norges Gelogiske Undersøkelse, v. 433, p. 6–7.
  • Sizova, E., Gerya, T., and Brown, M., 2014, Contrasting styles of Phanerozoic and Precambrian continental collision: Gondwana Research, v. 25, no. 2, p. 522–545. doi:10.1016/j.gr.2012.12.011
  • Sizova, E., Gerya, T., Brown, M., and Perchuk, L.L., 2010, Subduction styles in the Precambrian: Insight from numerical experiments: Lithos, v. 116, no. 3–4, p. 209–229. doi:10.1016/j.lithos.2009.05.028
  • Skår, Ø., 2002, U–Pb geochronology and geochemistry of early Proterozoic rocks of the tectonic basement windows in central Nordland, Caledonides of north-central Norway: Precambrian Research, v. 116, no. 3–4, p. 265–283. doi:10.1016/S0301-9268(02)00026-8
  • Skår, Ø., and Pedersen, R.B., 2003, Relations between granitoid magmatism and migmatization: U–Pb geochronological evidence from the Western Gneiss Complex, Norway: Journal of the Geological Society, v. 160, no. 6, p. 935–946. doi:10.1144/0016-764901-121
  • Slagstad, T., Culshaw, N.G., Daly, J.S., and Jamieson, R.A., 2009, Western Grenville Province holds key to midcontinental Granite‐Rhyolite Province enigma: Terra Nova, v. 21, no. 3, p. 181–187. doi:10.1111/j.1365-3121.2009.00871.x
  • Slagstad, T., Roberts, N.M.W., Marker, M., Røhr, T.S., and Schiellerup, H., 2013a, A non‐collisional, accretionary Sveconorwegian orogen: Terra Nova, v. 25, no. 1, p. 30–37. doi:10.1111/ter.12001
  • Slagstad, T., Roberts, N.M.W., Marker, M., Røhr, T.S., and Schiellerup, H., 2013b, A non‐collisional, accretionary Sveconorwegian orogen–Reply: Terra Nova, v. 25, no. 2, p. 169–171. doi:10.1111/ter.12028
  • Söderlund, U., and Ask, R., 2006, Mesoproterozoic bimodal magmatism along the Protogine Zone, S Sweden: Three magmatic pulses at 1.56, 1.22 and 1.205 Ga, and regional implications: GFF, v. 128, no. 4, p. 303–310. doi:10.1080/11035890601284303
  • Söderlund, U., Hellström, F.A., and Kamo, S.L., 2008, 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: Journal of Metamorphic Geology, v. 26, p. 539–560. doi:10.1111/j.1525-1314.2008.00776.x
  • Söderlund, U., Isachsen, C.E., Bylund, G., Heaman, L.M., Patchett, P.J., Vervoort, J.D., and Andersson, U.B., 2005, U–Pb baddeleyite ages and Hf, Nd isotope chemistry constraining repeated mafic magmatism in the Fennoscandian Shield from 1.6 to 0.9 Ga: Contributions to Mineralogy and Petrology, v. 150, no. 2, p. 174–194. doi:10.1007/s00410-005-0011-1
  • Söderlund, U., Jarl, L.-G., Persson, P.-O., Stephens, M.B., and Wahlgren, C.-H., 1999, Protolith ages and timing of deformation in the eastern, marginal part of the Sveconorwegian orogen, southwestern Sweden: Precambrian Research, v. 94, no. 1–2, p. 29–48. doi:10.1016/S0301-9268(98)00104-1
  • Söderlund, U., Möller, C., Andersson, J., Johansson, L., and Whitehouse, M., 2002, Zircon geochronology in polymetamorphic gneisses in the Sveconorwegian orogen, SW Sweden: Ion microprobe evidence for 1.46–1.42 and 0.98–0.96 Ga reworking: Precambrian Research, v. 113, no. 3–4, p. 193–225. doi:10.1016/S0301-9268(01)00206-6
  • Spencer, C.J., Roberts, N.M.W., Cawood, P.A., Hawkesworth, C.J., Prave, A.R., Antonini, A.S.N., and Horstwood, M.S.A., and EIMF, 2014, Intermontane basins and bimodal volcanism at the onset of the Sveconorwegian Orogeny, southern Norway: Precambrian Research, v. 252, p. 107–118. doi:10.1016/j.precamres.2014.07.008
  • Teixeira, W., D’Agrella-Filho, M.S., Hamilton, M.A., Ernst, R.E., Girardi, V.A., Mazzucchelli, M., and Bettencourt, J.S., 2013, U–Pb (ID-TIMS) baddeleyite ages and paleomagnetism of 1.79 and 1.59 Ga tholeiitic dyke swarms, and position of the Rio de la Plata Craton within the Columbia supercontinent: Lithos, v. 174, p. 157–174. doi:10.1016/j.lithos.2012.09.006
  • Touret, J.L.R., 1969, Le socle Précambrien de la Norvège méridionale, Région deVegårshei-Gjerstad [Unpublished Ph.D. thesis]: Nancy, University of Nancy, p. 1–316.
  • Tucker, R.D., Krogh, T.E., and Råheim, A., 1990, 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, in Gower, C.F., Rivers, T., and Ryan, B., eds., Mid-Proterozoic Laurentia-Baltica: Geological Association of Canada, Special Paper, v. 38, p. 149–173.
  • Vander Auwera, J., Bogaerts, M., Liégeois, J.-P., Demaiffe, D., Wilmart, E., Bolle, O., and Duchesne, J.C., 2003, Derivation of the 1.0–0.9 Ga ferro-potassic A-type granitoids of southern Norway by extreme differentiation from basic magmas: Precambrian Research, v. 124, no. 2–4, p. 107–148. doi:10.1016/S0301-9268(03)00084-6
  • Vander Auwera, J., Bolle, O., Bingen, B., Liégeois, J.-P., Bogaerts, M., Duchesne, J.C., De Waele, B., and Longhi, J., 2011, Sveconorwegian massif-type anorthosites and related granitoids result from post-collisional melting of a continental arc root: Earth-Science Reviews, v. 107, no. 3–4, p. 375–397. doi:10.1016/j.earscirev.2011.04.005
  • Viola, G., Henderson, I.H.C., Bingen, B., and Hendriks, B.W.H., 2011, The Grenvillian-Sveconorwegian orogeny in Fennoscandia: Back-thrusting and extensional shearing along the “Mylonite Zone”: Precambrian Research, v. 189, no. 3–4, p. 368–388. doi:10.1016/j.precamres.2011.06.005
  • Wahlgren, C.-H., Heaman, L.M., Kamo, S., and Ingvald, E., 1996, U-Pb baddeleyite dating of dolerite dykes in the eastern part of the Sveconorwegian orogen, south-central Sweden: Precambrian Research, v. 79, no. 3–4, p. 227–237. doi:10.1016/0301-9268(95)00094-1
  • Waight, T.E., Frei, D., and Storey, M., 2012, Geochronological constraints on granitic magmatism, deformation, cooling and uplift on Bornholm, Denmark: Geological Society of Denmark. Bulletin, v. 60, p. 23–46.
  • Welin, E., Lindh, A., and Kähr, A.-M., 1982, The radiometric age of the Proterozoic granite at Sandsjön, western Värmland, Sweden: GFF, v. 103, no. 4, p. 514–518. doi:10.1080/11035898209453728
  • Welin, E., and Samuelsson, L., 1987, Rb-Sr and U—Pb isotope studies of granitoid plutons in the Göteborg region, southwestern Sweden: GFF, v. 109, no. 1, p. 39–45. doi:10.1080/11035898709454738
  • Wikström, A., and Andersson, U.B., 2004, Geological features of the Småland-Värmland belt along the Svecofennian margin: Part I. From the Loftahammar to the Tiveden-Askersund area, in Högdahl, K., Andersson, U.B., and Eklund, O., eds., The Transscandinavian Igneous Belt (TIB) in Sweden: A Review of its Character and Evolution: Geological Survey of Finland Special Paper, v. 37, p. 22–25.
  • Wilson, M., Hamilton, P.J., Fallick, A.E., Aftalion, M., and Michard, A., 1985, Granites and early Proterozoic crustal evolution in Sweden: Evidence from Sm-Nd, U-Pb and O isotope systematics: Earth and Planetary Science Letters, v. 72, no. 4, p. 376–388. doi:10.1016/0012-821X(85)90059-7
  • Yakubchuk, A., 2010, Restoring the supercontinent Columbia and tracing its fragments after its breakup: A new configuration and a Super-Horde hypothesis: Journal of Geodynamics, v. 50, no. 3–4, p. 166–175. doi:10.1016/j.jog.2010.03.001
  • Zariņš, K., and Johansson, Å., 2009, U–Pb geochronology of gneisses and granitoids from the Danish island of Bornholm: New evidence for 1.47–1.45 Ga magmatism at the southwestern margin of the East European Craton: International Journal of Earth Sciences, v. 98, no. 7, p. 1561–1580. doi:10.1007/s00531-008-0333-0
  • Zhang, S., Li, Z.-X., Evans, D.A., Wu, H., Li, H., and Dong, J., 2012, Pre-Rodinia supercontinent Nuna shaping up: A global synthesis with new paleomagnetic results from North China: Earth and Planetary Science Letters, v. 353–354, p. 145–155. doi:10.1016/j.epsl.2012.07.034
  • Zhao, G., Cawood, P.A., Wilde, S.A., and Sun, M., 2002, Review of global 2.1–1.8 Ga orogens: Implications for a pre-Rodinia supercontinent: Earth-Science Reviews, v. 59, no. 1–4, p. 125–162. doi:10.1016/S0012-8252(02)00073-9
  • Zhou, X.Q., Bingen, B., Demaiffe, D., Liégeois, J.-P., Hertogen, J., Weis, D., and Michot, J., 1995, The 1160 Ma Hidderskog meta-charnockite: Implications of this A-type pluton for the Sveconorwegian belt in Vest Agder (SW Norway): Lithos, v. 36, no. 1, p. 51–66. doi:10.1016/0024-4937(95)00005-Z

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