Mints, M. V. (2007) Paleoproterozoic supercontinent: Origin and evolution of accretionary and collisional orogens exemplified in Northern cratons. Geotectonics, 41. 257-280 doi:10.1134/s0016852107040012

References Listed

These are the references the publisher has listed as being connected to the article. Please check the article itself for the full list of references which may differ. Not all references are currently linkable within the Digital Library.

	E. M. Bakushkin, D. Z. Zhuravlev, Yu. A. Balashov, et al., “The Karikjärvi Pluton,” in Geochronology and Genesis of Layered Mafic Intrusions, Volcanics and Granite Gneisses of the Kola Peninsula (Kola Sci. Center, Acad. Sci. SSSR, Apatity, 1990), pp. 16–17 [in Russian].
	V. V. Balagansky, M. Ya. Timmerman, R. V. Kislitsyn, et al., “Isotopic Age of Rocks in the Kolvitsa Belt and Umba Block (Southeastern Branch of the Lapland Granulite Belt), Kola Peninsula,” Vest. Murmansk Gos. Tekhn. Univer. 1(3), 19–32 (1998) [in Russian].
	Yu. A. Balashov and V. N. Glaznev, “Mantle Cycles of Magmatism,” in Deep Magmatism, Its Sources, and Their Relations to Plume Processes (Geol. Inst., Siberian Division, Russian Acad. Sci., Ulan-Ude, 2004), pp. 55–58 [in Russian].
	Sh. K. Baltybaev, O. A. Levchenkov, N. G. Berezhnaya, et al., “Age and Duration of the Svecofennian Plutonometamorphic Activity in the Ladoga Area, Southeastern Baltic Shield,” Petrologiya 12(4), 374–393 (2004) [Petrology 12 (4), 330–347 (2004)].
	B. V. Belyatsky, M. A. Tikhomirova, and E. V. Savva, “Age and Genesis of the Proterozoic Tiksheozero Alkaline Ultramafic Massif (Northern Karelia): Results of Rb-Sr-Nd Studies,” in Proceedings of the 1st Russian Conference on Isotopic Dating and Geological Processes: New Methods and Results (GEOS, Moscow, 2000), pp. 63–65 [in Russian].
	E. V. Bibikova, V. F. Mel’nikov, and K. Kh. Avakyan, “Lapland Granulites: Petrochemistry, Geochemistry, and Isotopic Age,” Petrologiya 1(2), 215–234 (1993).
	V. R. Vetrin, “The Lower Crust of Belomorian Megablock: Age, Structure, and Formation Conditions: Deep Xenolith Study,” Vest. Murmansk Gos. Techn. Univ. 1(3), 7–18 (1998).
	G. L. Vursii, T. B. Bayanova, and N. V. Levkovich, “Structure and U-Pb Age of Ultramafic-Mafic Rocks of the Gremyakha-Vyrmes Pluton,” in Proceedings of the 1st Russian Conference on Isotopic Dating and Geological Processes: New Methods and Results (GEOS, Moscow, 2000), pp. 99–100 [in Russian].
	G. S. Gusev and A. I. Peskov, “Proterozoic Trachyandesites and Mafic Rocks of the Akitkan Range, Northern Baikal Region,” Geotektonika 27(4), 75–86 (1992).
	V. L. Zlobin, M. M. Bogina, and M. V. Mints, “Paleoproterozoic Felsic Metavolcanics of the Lehta Structure,” in Proceedings of X All-Russia Petrographic Conference (Geol. Institute, Russian Acad. Sci., Apatity, 2005), Vol. 3, pp. 152–154 [in Russian].
	V. L. Zlobin, M. M. Bogina, and M. V. Mints, “Paleoproterozoic (pre-Jatulian) Volcanics in the East Karelian Volcanic Belt: New Data,” in Proceedings of Conference on the Belomorian Mobile Belt and Its Analogues (Inst. Geol., Karelian Sci. Center, Russian Acad. Sci., Petrozavodsk, 2005), pp. 167–169 [in Russian].
	L. P. Karsakov, Deep Granulites (Nauka, Moscow, 1978) [in Russian].
	T. V. Kaulina, “Results of U-Pb Dating of Zircons from the Tanaelv Belt,” in Proceedings of X Conference in Memory of K.O. Kratz on Geology and Mineral Resources of Northwestern and Central Russia (Geol. Inst., Kola Sci. Center, Russian Acad. Sci., Apatity, 1999), pp. 51–57 [in Russian].
	T. V. Kaulina, R. V. Kislitsyn, and E. A. Apanasevich, “Final Stages of Metamorphic Evolution of the Tanaelv Belt, Kola Peninsula, Baltic Shield: Evidence from U-Rb Dating of Zircon, Titanite, and Rutile,” Geokhimiya 42(6), 597–603 (2004) [Geochem. Intern. 42 (6), 513–519 (2004)].
	V. P. Kovach, A. B. Kotov, V. I. Berezkin, et al., “Age Limits of High-Grade Metamorphic Supracrustal Complexes in the Central Aldan Shield: Sm-Nd Isotopic Data,” Stratigr. Geol. Korrelyatsiya 7(1), 3–17 (1999) [Stratigr. Geol. Correlation 7 (1), 1–14 (1999)].
	A. B. Kotov, V. P. Kovach, E. V. Sal’nikova, et al., “Stages of Continental Crust Formation in the Central Aldan Granulite-Gneiss Domain: U-Pb and Sm-Nd Isotopic Data on Granitoids,” Petrologiya 3(1), 99–110 (1995).
	M. V. Mints, R. G. Berzin, Yu. N. Andryushchenko, et al., “The Deep Structure of the Karelian Craton along 1-EB Geotraverse, Southeast of the Scandinavian Shield,” Geotektonika 38(5), 10–25 (2004) [Geotectonics 38 (5), 329–342 (2004)].
	M. V. Mints, R. G. Berzin, N. G. Zamozhnyaya, et al., “Role of Collision Processes in the Structure of Early Precambrian Crust in the Eastern Baltic Shield (Geological Interpretation of CDP Seismic Data),” in Metallogeny of Series of Collisional Geodynamic Settings, Ed. by N. V. Mezhelovsky (GEOS, Moscow, 2002), Vol. 1, pp. 242–301 [in Russian].
	M. V. Mints, R. G. Berzin, A. K. Suleimanov, et al., “The Deep Structure of Early Precambrian Crust of the Karelian Craton, Southeastern Scandinavian Shield: Results of Investigations along Profile 4B,” Geotektonika 46(2), 10–29 (2004) [Geotectonics 46 (2), 87–102 (2004)].
	M. V. Mints, V. R. Vetrin, and A. N. Konilov, “Early Proterozoic Evolution, Structure, and Thermal Crustal Structure of the Lapland-Belomorian Domain: Integration of the Results of Geological and Petrological Studies of the Lapland Granulites and Deep Xenoliths and the Data of Seismic Profiling,” in Proceedings of the 1st All-Russia Petrographic Conference (Inst. Geol., Komi Sci. Center, Ural Division, Russian Acad. Sci., Syktyvkar, 2000), Vol. 4, pp. 168–170 [in Russian].
	M. V. Mints, V. N. Glaznev, A. N. Konilov, et al., Early Precambrian of the Northeastern Baltic Shield: Paleogeodynamics, Structure, and Evolution of Continental Crust (Nauchnyi Mir, Moscow, 1996) [in Russian].
	M. V. Mints, I. B. Filippova, A. K. Suleimanov, et al., “East European Craton As a Paleoproterozoic Accretionary-Collisional Orogen,” in Proceedings of the 38th Tectonic Conference on Tectonics of the Earth’s Crust and Mantle. Tectonic Factors of the Spatial Distribution of Mineral Resources (GEOS, Moscow, 2005), pp. 452–456 [in Russian].
	M. V. Mints, I. B. Filippova, A. K. Suleimanov, et al., “Deep Structure of the East European Craton: Formation of Overthrust and Underthrust Structures Related to Accretion and Collision Processes in the Inner Part of Supercontinent,” in Proceedings of XXXVIII Tectonic Conference on Tectonics of the Earth’s Crust and Mantle. Tectonic Factors of the Spatial Distribution of Mineral Resources (GEOS, Moscow, 2005), pp. 456–459 [in Russian].
	F. P. Mitrofanov, V. V. Balagansky, Yu. A. Balashov, et al., “U-Rb Age of Gabbroanorthosites of the Kola Peninsula,” Dokl. Akad. Nauk 333(1), 95–98 (1993).
	L. A. Neimark, A. M. Larin, G. V. Ovchinnikova, and S. Z. Yakovleva, “U-Rb Age of the Dzhugdzhur Anorthosites,” Dokl. Akad. Nauk 323(4–6), 514–518 (1992).
	L. A. Neimark, A. A. Nemchin, V. R. Vetrin, and E. V. Sal’nikova, “Sm-Nd and Pb-Pb Isotopic Systematic of Deep Crustal Xenoliths and Explosion Pipes in the Southern Kola Peninsula,” Dokl. Akad. Nauk 326(6), 781–784 (1993).
	L. I. Nerovich, Candidate’s Dissertation in Geology and Mineralogy (Apatity, 1999).
	A. D. Nozhkin, “Early Proterozoic Marginal Continental Complexes of the Angara Foldbelt and Their Metallogeny,” Geol. Geofiz. 40(11), 1524–1544 (1999).
	Early Precambrian of the Baltic Shield, Ed. by V. A. Glebovitsky (Nauka, St. Petersburg, 2005) [in Russian].
	O. M. Rosen, “The Siberian Craton: Tectonic Demarcation and Problems of Evolution,” Geotektonika, 37(3), 1–19 (2003) [Geotectonics 37 (3), 175–192 (2003)].
	O. M. Rosen, D. Z. Zhuravlev, M. K. Sukhanov, et al., “Early Proterozoic Terranes, Collision Zones and Related Anorthosites in Northeastern Siberian Craton: Isotopic Geochemistry and Age Characteristics,” Geol. Geofiz. 41(2), 159–178 (2000).
	O. M. Rosen, V. P. Serenko, Z. V. Spetsius, et al., “Yakutian Kimberlite Province: Position in the Structure of the Siberian Craton, Composition of Upper and Lower Crust As Deduced from Drilling Results and Inclusions in Kimberlites,” Geol. Geofiz. 43(1), 3–26 (2002).
	D. V. Rundquist, M. V. Mints, A. M. Larin, et al., Metallogeny of the Series of Early Precambrian Geodynamic Setting (Geokart, Moscow, 1999) [in Russian].
	V. M. Savatenkov, Yu. D. Pushkarev, A. V. Sergeev, and R. B. Sulimov, “Carbonatites As Indicators of a New Ore Specialization of the Gremyakha-Vyrmes Pluton, Russia,” Geol. Rudn. Mestorozhd. 41(5), 449–454 (1999) [Geol. Ore Deposits 41 (5), 409–413 (1999)].
	S. A. Svetov, A. I. Golubev, and A. I. Svetova, “Geochemistry of the Sumian Basaltic Andesites in Central Karelia,” in Geology and Mineral Resources of Karelia, Ed. by A. I. Golubev (Karelian Sci. Center, Russian Acad. Sci., Petrozavodsk, 2001), pp. 18–26 [in Russian].
	V. F. Smolkin, F. P. Mitrofanov, A. A. Avedisyan, et al., Magmatism, Sedimentogenesis, and Geodynamics of the Pechenga Paleorift (Kola Sci. Center, Russian Acad. Sci., Apatity, 1995) [in Russian].
	M. K. Sukhanov and D. Z. Zhuravlev, “Sm-Nd Dating of the Dzhugdzhur Precambrian Anorthosites,” Dokl. Akad. Nauk SSSR 304(2), 964–968 (1989).
	T. Frish, G. D. Jackson, V. A. Glebovitsky, et al., “U-Rb Zircon Geochronology of the Kolvitsa Gabbroanorthosite Complex, the Southern Kola Peninsula, Russia,” Petrologiya 3(3), 248–254 (1995).
	V. E. Khain and N. A. Bozhko, Historical Geotectonics (Nedra, Moscow, 1988) [in Russian].
	R. Ernst and V. Blicker, “Large Magmatic Provinces and Their Dike Swarms: Key to Construction of Paleogeographic Record of the Earth before 2.5 Ga Ago,” in Proceedings of the 34th Tectonic Conference on Active Tectogenesis Areas in Modern and Ancient the Earth’s History (GEOS, Moscow, 2006), Vol. 2, pp. 398–401.
	V. V. Yarmolyuk and V. I. Kovalenko, Rift-Related Magmatism of Active Continental Margins and Its Ore Potential (Nauka, Moscow, 1991) [in Russian].
	Alapieti, T. T., Fil�n, B. A., Lahtinen, J. J., Lavrov, M. M., Smolkin, V. F., Voitsekhovsky, S. N. (1990) Early Proterozoic layered intrusions in the northeastern part of the Fennoscandian Shield. Mineralogy and Petrology, 42 (1) 1-22 doi:10.1007/bf01162681
	N. L. Alexeyev, E. V. Salnikova, and S. V. Klepinin, “Tectonic and P-T-Time Evolution of the Kolvitsa-Umba Collision Zone,” in Abstracts of the SVEKALAPKO Workshop, 27–30.11.1997 (Lammi, 1997), Vol. 8, p. 4.
	Almeida, Fernando Flávio Marques de, Brito Neves, Benjamim Bley de, Dal Ré Carneiro, Celso (2000) The origin and evolution of the South American Platform. Earth-Science Reviews, 50 (1) 77-111 doi:10.1016/s0012-8252(99)00072-0
	Amelin, Yu.V., Heaman, L.M., Semenov, V.S. (1995) UPb geochronology of layered mafic intrusions in the eastern Baltic Shield: implications for the timing and duration of Paleoproterozoic continental rifting. Precambrian Research, 75 (1) 31-46 doi:10.1016/0301-9268(95)00015-w
	Asami, Masao, Suzuki, Kazuhiro, Grew, Edward S (2002) Chemical Th–U–total Pb dating by electron microprobe analysis of monazite, xenotime and zircon from the Archean Napier Complex, East Antarctica: evidence for ultra-high-temperature metamorphism at 2400 Ma. Precambrian Research, 114 (3) 249-275 doi:10.1016/s0301-9268(01)00228-5
	Baird, D. J., Nelson, K. D., Knapp, J. H., Walters, J. J., Brown, L. D. (1996) Crustal structure and evolution of the Trans-Hudson orogen: Results from seismic reflection profiling. Tectonics, 15 (2). 416-426 doi:10.1029/95tc02425
	Balagansky, V.V, Timmerman, M.J, Kozlova, N.Ye, Kislitsyn, R.V (2001) A 2.44 Ga syn-tectonic mafic dyke swarm in the Kolvitsa Belt, Kola Peninsula, Russia: implications for early Palaeoproterozoic tectonics in the north-eastern Fennoscandian Shield. Precambrian Research, 105 (2) 269-287 doi:10.1016/s0301-9268(00)00115-7
	BARLEY, M, BEKKER, A, KRAPEZ, B (2005) Late Archean to Early Paleoproterozoic global tectonics, environmental change and the rise of atmospheric oxygen. Earth and Planetary Science Letters, 238 (1) 156-171 doi:10.1016/j.epsl.2005.06.062
	Beddoe-Stephens, B., Mason, I. (1991) The volcanogenetic significance of garnet-bearing minor intrusions within the Borrowdale Volcanic Group Eskdale area, Cumbria. Geological Magazine, 128 (5) 505-516 doi:10.1017/s0016756800018641
	Bernard-Griffiths, J., Peucat, J.J., Postaire, B., Vidal, Ph., Convert, J., Moreau, B. (1984) Isotopic data (UPb, RbSr, PbPb and SmNd) on mafic granulites from finnish lapland. Precambrian Research, 23 (3) 325-348 doi:10.1016/0301-9268(84)90049-4
	S. V. Bogdanova, “Segments of the East European Craton,” in EUROPROBE in Jablonna, 1991, Institute of Geophysics, Polish Academy of Sciences, Ed. by D. G. Gee and M. Beckholmen (Eur. Sci. Foundation, Warszawa, 1993), pp. 33–38.
	(1996) High-grade metamorphism of 2.45–2.4 Ga age in mafic intrusions of the Belomorian Belt in the northeastern Baltic Shield. Special Publication, 112. Geological Society of London. 69-90 doi:10.1144/gsl.sp.1996.112.01.05
	S. V. Bogdanova, E. V. Bibikova, and A. V. Postnikov, “A Remnant of the Palaeoproterozoic Magmatic Arc Beneath Moscow,” in Early Precambrian: Genesis and Evolution of the Continental Crust Geodynamics, Petrology, Geochronology, and Regional Geology, Ed. by Yu. V. Kariakin and M. V. Mints (GEOS, Moscow, 1999), pp. 23–24.
	Bogdanova, Svetlana V., Gorbatschev, Roland, Stephenson, Randell A. (2001) EUROBRIDGE: Palaeoproterozoic accretion of Fennoscandia and Sarmatia. Tectonophysics, 339 (1) doi:10.1016/s0040-1951(01)00030-0
	Bogdanova, Svetlana V, Page, Laurence M, Skridlaite, Grazina, Taran, Ludmila N (2001) Proterozoic tectonothermal history in the western part of the East European Craton: 40 Ar/ 39 Ar geochronological constraints. Tectonophysics, 339 (1) 39-66 doi:10.1016/s0040-1951(01)00033-6
	Bradshaw, J. Y. (1989) Early Cretaceous Vein-Related Garnet Granulite in Fiordland, Southwest New Zealand: A Case for Infiltration of Mantle-Derived CO2-Rich Fluids. The Journal of Geology, 97 (6) 697-717 doi:10.1086/629353
	Bridgwater, D., Scott, D. J., Balagansky, V. V., Timmerman, M. J., Marker, M., Bushmin, S. A., Alexeyev, N. L., Daly, J. S. (2001) Age and provenance of early Precambrian metasedimentary rocks in the Lapland-Kola Belt, Russia: evidence from Pb and Nd isotopic data. Terra Nova, 13 (1). 32-37 doi:10.1046/j.1365-3121.2001.00307.x
	Buchan, Kenneth L., Halls, Henry C., Mortensen, James K. (1996) Paleomagnetism, U–Pb geochronology, and geochemistry of Marathon dykes, Superior Province, and comparison with the Fort Frances swarm. Canadian Journal of Earth Sciences, 33 (12) 1583-1595 doi:10.1139/e96-120
	Buchan, K.L., Mertanen, S., Park, R.G., Pesonen, L.J., Elming, S.-Å., Abrahamsen, N., Bylund, G. (2000) Comparing the drift of Laurentia and Baltica in the Proterozoic: the importance of key palaeomagnetic poles. Tectonophysics, 319 (3) 167-198 doi:10.1016/s0040-1951(00)00032-9
	T. Chacko, R. A. Creaser, and D. Poon, “Spinel + Quartz Granites and Associated Metasedimentary Enclaves from the Taltson Magmatic Zone. Alberta, Canada: A View into a Root Zone of a High Temperature S-Type Granite Batholith,” Mineral. Mag., No. 8A, 161–162 (1994).
	Chacko, Thomas, De, Suman K, Creaser, Robert A, Muehlenbachs, Karlis (2000) Tectonic setting of the Taltson magmatic zone at 1.9–2.0 Ga: a granitoid-based perspective. Canadian Journal of Earth Sciences, 37 (11) 1597-1609 doi:10.1139/e00-029
	Claesson, S., Bogdanova, S.V., Bibikova, E.V., Gorbatschev, R. (2001) Isotopic evidence for Palaeoproterozoic accretion in the basement of the East European Craton. Tectonophysics, 339 (1) 1-18 doi:10.1016/s0040-1951(01)00031-2
	Condie, Kent C. (1990) Growth and accretion of continental crust: Inferences based on Laurentia. Chemical Geology, 83 (3) 183-194 doi:10.1016/0009-2541(90)90279-g
	Condie, Kent C. (1994) Chapter 3 Greenstones Through Time. In Archean Crustal Evolution. Elsevier. p.85-120. doi:10.1016/s0166-2635(08)70221-4
	Condie, Kent C. (1998) Episodic continental growth and supercontinents: a mantle avalanche connection?. Earth and Planetary Science Letters, 163 (1) 97-108 doi:10.1016/s0012-821x(98)00178-2
	Condie, Kent C. (2002) Breakup of a Paleoproterozoic Supercontinent. Gondwana Research, 5 (1) 41-43 doi:10.1016/s1342-937x(05)70886-8
	Corfu, F, Easton, R.M (2001) U–Pb evidence for polymetamorphic history of Huronian rocks within the Grenville front tectonic zone east of Sudbury, Ontario, Canada. Chemical Geology, 172 (1) 149-171 doi:10.1016/s0009-2541(00)00241-2
	Daly, J.S, Balagansky, V.V, Timmerman, M.J, Whitehouse, M.J, de Jong, K, Guise, P, Bogdanova, S, Gorbatschev, R, Bridgwater, D (2001) Ion microprobe UPb zircon geochronology and isotopic evidence for a trans-crustal suture in the Lapland–Kola Orogen, northern Fennoscandian Shield. Precambrian Research, 105 (2) 289-314 doi:10.1016/s0301-9268(00)00116-9
	De, Suman K, Chacko, Thomas, Creaser, Robert A, Muehlenbachs, Karlis (2000) Geochemical and Nd-Pb-O isotope systematics of granites from the Taltson Magmatic Zone, NE Alberta: implications for early Proterozoic tectonics in western Laurentia. Precambrian Research, 102 (3) 221-249 doi:10.1016/s0301-9268(00)00068-1
	ENGLAND, P. C., THOMPSON, A. B. (1984) Pressure--Temperature--Time Paths of Regional Metamorphism I. Heat Transfer during the Evolution of Regions of Thickened Continental Crust. Journal of Petrology, 25 (4) 894-928 doi:10.1093/petrology/25.4.894
	Eriksson, P.G., Mazumder, R., Sarkar, S., Bose, P.K., Altermann, W., van der Merwe, R. (1999) The 2.7–2.0 Ga volcano-sedimentary record of Africa, India and Australia: evidence for global and local changes in sea level and continental freeboard. Precambrian Research, 97 (3) 269-302 doi:10.1016/s0301-9268(99)00035-2
	Ernst, Richard E., Buchan, Kenneth L. (2002) Maximum size and distribution in time and space of mantle plumes: evidence from large igneous provinces. Journal of Geodynamics, 34 (2). 309-342 doi:10.1016/s0264-3707(02)00025-x
	Farquhar, J., Chacko, Thomas, Ellis, David J. (1996) Preservation of oxygen isotope compositions in granulites from Northwestern Canada and Enderby Land, Antarctica: implications for high-temperature isotopic thermometry. Contributions to Mineralogy and Petrology, 125 (2) 213-224 doi:10.1007/s004100050217
	G. Gaal, “Global Proterozoic Tectonic Cycles and Early Proterozoic Metallogeny,” South Africa J. Geol. 95(3), 79–87 (1992).
	Gaál, Gabor, Gorbatschev, Roland (1987) An Outline of the precambrian evolution of the baltic shield. Precambrian Research, 35. 15-52 doi:10.1016/0301-9268(87)90044-1
	Gala, M (1998) Geotectonics of the Hanson Lake block, Trans-Hudson orogen, central Canada: a preliminary paleomagnetic report. Precambrian Research, 90 (1) 85-101 doi:10.1016/s0301-9268(98)00034-5
	Gibson, G. M., Ireland, T. R. (1995) Granulite formation during continental extension in Fiordland, New Zealand. Nature, 375 (6531). 479-482 doi:10.1038/375479a0
	Gibson, George M., Ireland, Trevor R. (1999) Black Giants Anorthosite, New Zealand: A Paleozoic analogue of Archean stratiform anorthosites and implications for the formation of Archean high-grade gneiss terranes. Geology, 27 (2) 131 doi:10.1130/0091-7613(1999)027<0131:bganza>2.3.co;2
	Glebovitsky, Viktor, Marker, Mogens, Alexejev, Nikolay, Bridgwater, David, Sedova, Irina, Salnikova, Ekaterina, Berezhnaya, Natalia (2001) Age, evolution and regional setting of the Palaeoproterozoic Umba igneous suite in the Kolvitsa–Umba zone, Kola Peninsula: constraints from new geological, geochemical and U–Pb zircon data. Precambrian Research, 105 (2) 247-267 doi:10.1016/s0301-9268(00)00114-5
	S. P. Goff, J. D. Godfrey, and J. G. Holland, “Geochemistry of the Canadian Shield of Northeastern Alberta,” Alberta Res. Council, Edmonton Bull. 51, 1–60 (1986).
	Gorbatschev, Roland, Bogdanova, Svetlana (1993) Frontiers in the Baltic Shield. Precambrian Research, 64 (1) 3-21 doi:10.1016/0301-9268(93)90066-b
	Halls, Henry C, Heaman, Larry M (2000) The paleomagnetic significance of new U-Pb age data from the Molson dyke swarm, Cauchon Lake area, Manitoba. Canadian Journal of Earth Sciences, 37 (6) 957-966 doi:10.1139/e00-010
	E. J. Hanski, H. Huhma, M. I. Lehtonen, and P. Rastas, “2.0 Ga Old Oceanic Crust in Northern Finland,” in Proceedings of International Ophiolite Symposium and Field Excursion, Ed. by E. Hanski and J. Vuollo (Geol. Surv. Finland Spec. Paper, Espoo, 1998), Vol. 26, p. 24.
	Harley, S. L. (1989) The origins of granulites: a metamorphic perspective. Geological Magazine, 126 (3) 215-247 doi:10.1017/s0016756800022330
	Harley, S.L. (1992) Chapter 8 Proterozoic Granulite Terranes. In Proterozoic Crustal Evolution. Elsevier. p.301-359. doi:10.1016/s0166-2635(08)70122-1
	S. L. Harley, “An Appraisal of Peak Temperatures and Thermal Histories in Ultrahigh-Temperature (UHT) Crustal Metamorphism: The Significance of Aluminous Orthopyroxene,” in Proceedings of International Symposium on Origin and Evolution of Continents, Ed. by Y. Motoyoshi and K. Shiraishi (Mem. Nat. Inst. Polar Res. Spec. Issue, Tokyo, 1998), Vol. 53, pp. 49–73.
	Heaman, Larry M. (1997) Global mafic magmatism at 2.45 Ga: Remnants of an ancient large igneous province?. Geology, 25 (4) 299 doi:10.1130/0091-7613(1997)025<0299:gmmagr>2.3.co;2
	Not Yet Imported: The Geology of North America—An Overview - book-chapter : 10.1130/DNAG-GNA-A.447 If you would like this item imported into the Digital Library, please contact us quoting Journal ID
	P. Holtta, “Metamorphic Zones and Evolution of Granulite Grade Metamorphism in the Early Proterozoic Pielavesi Area, Central Finland,” Geol. Surv. Finland Bull. 344, 1–50 (1998).
	H. Huhma and K. Merilainen, “Provenance of Paragneisses from the Lapland Granulite Belt,” in Res. Terrae (Univ. Oulu, Finland, 1991), Ser. A, Vol. 5, p. 26.
	Jackson, G. D., Berman, R. G. (2000) PRECAMBRIAN METAMORPHIC AND TECTONIC EVOLUTION OF NORTHERN BAFFIN ISLAND, NUNAVUT, CANADA. The Canadian Mineralogist, 38 (2) 399-421 doi:10.2113/gscanmin.38.2.399
	Kalsbeek, Feiko, Nutman, Allen P. (1996) Anatomy of the Early Proterozoic Nagssugtoqidian orogen, West Greenland, explored by reconnaissance SHRIMP U-Pb zircon dating. Geology, 24 (6) 515 doi:10.1130/0091-7613(1996)024<0515:aotepn>2.3.co;2
	Kalsbeek, F, Pulvertaft, T.C.R, Nutman, A.P (1998) Geochemistry, age and origin of metagreywackes from the Palaeoproterozoic Karrat Group, Rinkian Belt, West Greenland. Precambrian Research, 91 (3) 383-399 doi:10.1016/s0301-9268(98)00059-x
	T. V. Kaulina, O. A. Belyaev, and E. A. Apanasevich, “Multistage Metamorphic History of the Lapland Gran ulite and the Tanaelv Belts: U-Pb, Sm-Nd, and Rb-Sr Data (NE Baltic Shield),” in Proceeding of International Conference on Precambrian Continental Growth and Tectonism (PCGT-2005) (Ihansi, India, 2005), pp. 267–271.
	KEMPTON, P. D. (2001) Garnet Granulite Xenoliths from the Northern Baltic Shield--the Underplated Lower Crust of a Palaeoproterozoic Large Igneous Province?. Journal of Petrology, 42 (4) 731-763 doi:10.1093/petrology/42.4.731
	Kempton, P.D., Downes, H., Sharkov, E.V., Vetrin, V.R., Ionov, D.A., Carswell, D.A., Beard, A. (1995) Petrology and geochemistry of xenoliths from the Northern Baltic shield: evidence for partial melting and metasomatism in the lower crust beneath an Archaean terrane. Lithos, 36 (3) 157-184 doi:10.1016/0024-4937(95)00016-x
	R. V. Kislitsyn, V. V. Balagansky, I. Manttari, et al., “Age of Accretion and Collision in the Palaeoproterozoic Lapland-Kola Orogen: New Isotope Evidence from the Kolvitsa Belt and Umba Granulite Terrane,” in Abstracts of SVEKALAPKO, an Europrobe Project (Oulu, 1999).
	Kitsul, V. I., Glebovitsky, V. A., Vapnik, Y. A., Frisch, T. (2000) GNEISSES FROM THE GRANULITE TERRANE OF THE CENTRAL BOOTHIA UPLIFT, ARCTIC CANADA. The Canadian Mineralogist, 38 (2) 443-454 doi:10.2113/gscanmin.38.2.443
	Kontinen, A. (1987) An early proterozoic ophiolite — the jormua mafic-ultramafic complex, Northeastern Finland. Precambrian Research, 35. 313-341 doi:10.1016/0301-9268(87)90061-1
	Korsman, Kalevi, Korja, Toivo, Pajunen, Matti, Virransalo, Petri, GGT/SVEKA Working Group, (1999) The GGT/SVEKA Transect: Structure and Evolution of the Continental Crust in the Paleoproterozoic Svecofennian Orogen in Finland. International Geology Review, 41 (4) 287-333 doi:10.1080/00206819909465144
	Martin, D.McB, Powell, C.McA, George, A.D (2000) Stratigraphic architecture and evolution of the early Paleoproterozoic McGrath Trough, Western Australia. Precambrian Research, 99 (1) 33-64 doi:10.1016/s0301-9268(99)00053-4
	M. R. McDonough, V. J. McNicoll, and E. M. Schetselaar, “Age and Kinematics of Crustal Shortening and Escape in a Two-Sided Oblique Slip Collisional and Magmatic Orogen, Proterozoic Taltson Magmatic Zone, Northeastern Alberta,” in Alberta Basement Transects Workshop, Lithoprobe Report, No. 47, Ed. by G. M. Ross (LITHOPROBE Secretariat, Univ. British Columbia, 1995), pp. 264–239.
	Melezhik, V.A., Sturt, B.A. (1994) General geology and evolutionary history of the early proterozoic Polmak-Pasvik-Pechenga-Imandra/Varzuga-Ust'Ponoy greenstone belt in the northeastern Baltic Shield. Earth-Science Reviews, 36 (3) 205-241 doi:10.1016/0012-8252(94)90058-2
	Mertanen, S., Halls, H.C., Vuollo, J.I., Pesonen, L.J., Stepanov, V.S. (1999) Paleomagnetism of 2.44 Ga mafic dykes in Russian Karelia, eastern Fennoscandian Shield — implications for continental reconstructions. Precambrian Research, 98 (3) 197-221 doi:10.1016/s0301-9268(99)00050-9
	Mints, M.V. (1998) The Correlation Between the Palaeoproterozoic Orogens and Granulite Belts in the Baltic Shield and North America Craton: A Suggested Model of Palaeoproterozoic Plate Tectonics. Gondwana Research, 1 (2) 235-246 doi:10.1016/s1342-937x(05)70834-0
	MINTS, M, KAULINA, T, KONILOV, A, KROTOV, A, STUPAK, V (2007) The thermal and geodynamic evolution of the Lapland granulite belt: Implications for thermal structure of the lower crust during granulite-facies metamorphism. Gondwana Research, 12 (3) 252-267 doi:10.1016/j.gr.2006.10.007
	M. V. Mints and A. N. Konilov, “Thermal Structure of the Crust during Granulite Metamorphism: Petrological Speculations and Geodynamic Implications,” in Proceedings of International Symposium on Origin and Evolution of Continents, Ed. by Y. Motoyoshi and K. Shiraishi (Mem. Nat. Inst. Polar Res. Spec. Issue, Tokyo, 1998), Vol. 53, pp. 137–156.
	M. V. Mints and A. N. Konilov, “Geodynamic Crustal Evolution and Long-Lived Supercontinents during the Paleoproterozoic: Evidence from Granulite Belts, Collisional and Accretionary Orogens,” in The Precambrian Earth: Tempos and Events. Series 12, Developments in Precambrian Geology (Elsevier, Amsterdam, 2004), pp. 223–239.
	F. P. Mitrofanov, V. V. Balagansky, Y. A. Balashov, et al., “U-Pb Age of Gabbro-Anorthosite Massifs in the Lapland Granulite Belt,” Nor. Geol. Unders. Spec. Publ. 7, 179–183 (1995).
	F. P. Mitrofanov and T. B. Bayanova, “Duration and Timing of Ore-Bearing Palaeoproterozoic Intrusions of Kola Province,” in Mineral Deposits: Processes to Processing, Ed. by C. R. Stanley et al. (Balkema, Rotterdam, 1999), pp. 1275–1278.
	Nutman, Allen P., Kalsbeek, Feiko, Marker, Mogens, van Gool, Jeroen A.M., Bridgwater, David (1999) U–Pb zircon ages of Kangâmiut dykes and detrital zircons in metasediments in the Palaeoproterozoic Nagssugtoqidian Orogen (West Greenland) Precambrian Research, 93 (1) 87-104 doi:10.1016/s0301-9268(98)00099-0
	Percival, John A., West, Gordon F. (1994) The Kapuskasing uplift: a geological and geophysical synthesis. Canadian Journal of Earth Sciences, 31 (7) 1256-1286 doi:10.1139/e94-110
	Pharaoh, T.C., Brewer, T.S. (1990) Spatial and temporal diversity of early Proterozoic volcanic sequences — comparisons between the Baltic and Laurentian shields. Precambrian Research, 47 (3) 169-189 doi:10.1016/0301-9268(90)90037-q
	C. Picard, D. Giovenazzo, and D. Lamothe, “Geotectonic Evolution by Asymmetric Rifting of the Proterozoic Cape Smith Belt, New Quebec,” Geosci. Canada 16(3), 130–133 (1989).
	Piper, J. D. A. (1983) Proterozoic palaeomagne tism and single continent plate tectonics. Geophysical Journal International, 74 (1) 163-197 doi:10.1111/j.1365-246x.1983.tb01876.x
	Proterozoic Crustal Evolution, Ed. by K. C. Condie (Elsevier, Amsterdam, 1992).
	Puchtel, I. S., Arndt, N. T., Hofmann, A. W., Haase, K. M., Kröner, A., Kulikov, V. S., Kulikova, V. V., Garbe-Schönberg, C.-D., Nemchin, A. A. (1998) Petrology of mafic lavas within the Onega plateau, central Karelia: evidence for 2.0 Ga plume-related continental crustal growth in the Baltic Shield. Contributions to Mineralogy and Petrology, 130 (2) 134-153 doi:10.1007/s004100050355
	Puchtel, I. S., Hofmann, A. W., Mezger, K., Shchipansky, A. A., Kulikov, V. S., Kulikova, V. V. (1996) Petrology of a 2.41 Ga remarkably fresh komatiitic basalt lava lake in Lion Hills, central Vetreny Belt, Baltic Shield. Contributions to Mineralogy and Petrology, 124 (3) 273-290 doi:10.1007/s004100050191
	Raith, M., Srikantappa, C., Ashamanjari, K. G., Spiering, B. (1990) The Granulite Terrane of the Nilgiri Hills (Southern India): Characterization of High-Grade Metamorphism. In Granulites and Crustal Evolution. Springer Netherlands. p.339-365. doi:10.1007/978-94-009-2055-2_17
	Raith, Michael M., Srikantappa, C., Buhl, Dieter, Koehler, Hermann (1999) The Nilgiri enderbites, South India: nature and age constraints on protolith formation, high-grade metamorphism and cooling history. Precambrian Research, 98 (1) 129-150 doi:10.1016/s0301-9268(99)00045-5
	Rogers, John J. W. (1996) A History of Continents in the past Three Billion Years. The Journal of Geology, 104 (1) 91-107 doi:10.1086/629803
	Rosen, O.M., Condie, Kent C., Natapov, Lev M., Nozhkin, A.D. (1994) Chapter 10 Archean and Early Proterozoic Evolution of the Siberian Craton: A Preliminary Assessment. In Archean Crustal Evolution. Elsevier. p.411-459. doi:10.1016/s0166-2635(08)70228-7
	Ross, Gerald M, Eaton, David W (2002) Proterozoic tectonic accretion and growth of western Laurentia: results from Lithoprobe studies in northern Alberta. Canadian Journal of Earth Sciences, 39 (3) 313-329 doi:10.1139/e01-081
	Ross, G. M., Parrish, R. R., Villeneuve, M. E., Bowring, S. A. (1991) Geophysics and geochronology of the crystalline basement of the Alberta Basin, western Canada. Canadian Journal of Earth Sciences, 28 (4) 512-522 doi:10.1139/e91-045
	Rudnick, Roberta L., Fountain, David M. (1995) Nature and composition of the continental crust: A lower crustal perspective. Reviews of Geophysics, 33 (3) 267 doi:10.1029/95rg01302
	Sandiford, Michael (1989) Horizontal structures in granulite terrains: A record of mountain building or mountain collapse?. Geology, 17 (5) 449 doi:10.1130/0091-7613(1989)017<0449:hsigta>2.3.co;2
	Scott, D (1999) U–Pb geochronology of the eastern Hall Peninsula, southern Baffin Island, Canada: a northern link between the Archean of West Greenland and the Paleoproterozoic Torngat Orogen of northern Labrador. Precambrian Research, 93 (1) 5-26 doi:10.1016/s0301-9268(98)00095-3
	Scott, D. J., St-Onge, M. R., Lucas, S. B., Helmstaedt, H. (1991) Geology and Chemistry of the Early Proterozoic Purtuniq Ophiolite, Cape Smith Belt, Northern Quebec, Canada. In Ophiolite Genesis and Evolution of the Oceanic Lithosphere. Springer Netherlands. p.817-849. doi:10.1007/978-94-011-3358-6_41
	Skridlaite, Grazina, Motuza, Gediminas (2001) Precambrian domains in Lithuania: evidence of terrane tectonics. Tectonophysics, 339 (1) 113-133 doi:10.1016/s0040-1951(01)00035-x
	Sharkov, Evgenii V., Smolkin, Valery F. (1997) The early Proterozoic Pechenga-Varzuga Belt: a case of Precambrian back-arc spreading. Precambrian Research, 82 (1) 133-151 doi:10.1016/s0301-9268(96)00041-1
	Smith, R. D., Cameron, K. L., McDowell, F. W., Niemeyer, S., Sampson, D. E. (1996) Generation of voluminous silicic magmas and formation of mid-Cenozoic crust beneath north-central Mexico: evidence from ignimbrites, associated lavas, deep crustal granulites, and mantle pyroxenites. Contributions to Mineralogy and Petrology, 123 (4) 375-389 doi:10.1007/s004100050163
	Not Yet Imported: Geological Society of America Special Papers - book-chapter : 10.1130/SPE180-p5 If you would like this item imported into the Digital Library, please contact us quoting Journal ID 25243
	Smithson, S.B., Wenzel, F., Ganchin, Y.V., Morozov, I.B. (2000) Seismic results at Kola and KTB deep scientific boreholes: velocities, reflections, fluids, and crustal composition. Tectonophysics, 329 (1) 301-317 doi:10.1016/s0040-1951(00)00200-6
	P. Sorjonen-Ward, J. Claue-Long, and H. Huhma, “SHRIMP Isotope Studies of Granulite Zircons and Their Relevance to Early Proterozoic Tectonics in Northern Fennoscandia,” in US Geol. Surv. Circular 1107, ICOG 8, Abstracts (1994), p. 299.
	Not Yet Imported: - report : 10.4095/195173 If you would like this item imported into the Digital Library, please contact us quoting Journal ID
	St-Onge, M (1999) Upper and lower plate juxtaposition, deformation and metamorphism during crustal convergence, Trans-Hudson Orogen (Quebec–Baffin segment), Canada. Precambrian Research, 93 (1) 27-49 doi:10.1016/s0301-9268(98)00096-5
	SUTTON, ANDREW N., BLAKE, STEPHEN, WILSON, COLIN J.N., CHARLIER, BRUCE L. A. (2000) Late Quaternary evolution of a hyperactive rhyolite magmatic system: Taupo volcanic centre, New Zealand. Journal of the Geological Society, 157 (3) 537-552 doi:10.1144/jgs.157.3.537
	D. T. A. Symons and M. J. Harris, “The ∼1830 Ma Trans-Hudson Hairpin from Paleomagnetism of the Wapisu Gneiss Dome, Kisseynew Domain, Manitoba,” Can. J. Earth Sci. 37, 913–922 (2000).
	Taran, Ludmila N, Bogdanova, Svetlana V (2001) The Fennoscandia–Sarmatia junction in Belarus: new inferences from a PT -study. Tectonophysics, 339 (1) 193-214 doi:10.1016/s0040-1951(01)00039-7
	P. N. Taylor and F. Kalsbeek, “Dating the Metamorphism of Precambrian Marbles: Examples from Proterozoic Mobile Belts in Greenland,” Chem. Geol. 86, 21–28 (1990).
	W. Teixeira, P. Sabate, J. Barbosa, et al., “Archaean and Palaeoproterozoic Tectonic Evolution of the São Francisco Craton, Brazil,” in Tectonic Evolution of the South America, Ed. by U. G. Gordani, E. J. Milani, A. Thomaz Filho, and D. A. Campos (Rio de Janeiro, 2000), pp. 101–137.
	(1987) Pressure—temperature—time ( P — T — t ) histories of erogenic belts. Philosophical Transactions of the Royal Society of London. Series A, Mathematical and Physical Sciences, 321. 27-45 doi:10.1098/rsta.1987.0003
	P. H. Thompson, Proterozoic Evolution of the Northern Thelon Tectonic Zone (PhD Thesis, Princeton Univ., Princeton, New Jersey, 1992) (Cited from Kitsul at al., 2000).
	Thorkelson, Derek J, Mortensen, James K, Creaser, Robert A, Davidson, Garry J, Abbott, J Grant (2001) Early Proterozoic magmatism in Yukon, Canada: constraints on the evolution of northwestern Laurentia. Canadian Journal of Earth Sciences, 38 (10) 1479-1494 doi:10.1139/e01-032
	Touret, J. L. R., Hartel, T. H. D. (1990) Synmetamorphic Fluid Inclusions in Granulites. In Granulites and Crustal Evolution. Springer Netherlands. p.397-417. doi:10.1007/978-94-009-2055-2_20
	P. Tuisku and H. Huhma, “Geochronology of Lapland Granulite Belt and Implications for the Fennoscandian Assembly: The Architecture and Evolution of the Palaeoproterozoic Lapland-Kola Orogen,” in Abstracts of SVEKALAPKO, an Europrobe Project (Oulu, 1999).
	Van Kranendonk, Martin J. (1996) Tectonic evolution of the Paleoproterozoic Torngat Orogen: Evidence from pressure-temperature-time-deformation paths in the North River map area, Labrador. Tectonics, 15 (4). 843-869 doi:10.1029/95tc03771
	Vogel, Derek C., Vuollo, Jouni I., Alapieti, Tuomo T., James, Richard S. (1998) Tectonic, stratigraphic, and geochemical comparisons between ca. 2500–2440Ma mafic igneous events in the Canadian and Fennoscandian Shields. Precambrian Research, 92 (2) 89-116 doi:10.1016/s0301-9268(98)00073-4
	J. Vuollo, Palaeoproterozoic Basic Igneous Events in Eastern Fennoscandian Shield between 2.45 and 1.97 Ga (Acta Univ., Oulu, 1994), Vol. A250.
	Wei, Jin (2002) The Late Paleoproterozoic Orogeny in the North China Craton. Gondwana Research, 5 (1) 95-99 doi:10.1016/s1342-937x(05)70893-5
	White, D. J., Jones, A. G., Lucas, S. B., Hajnal, Z. (1999) Tectonic evolution of the Superior Boundary Zone from coincident seismic reflection and magnetotelluric profiles. Tectonics, 18 (3). 430-451 doi:10.1029/1999tc900002
	Windley, B. (1992) Chapter 11 Proterozoic Collisional and Accretionary Orogens. In Proterozoic Crustal Evolution. Elsevier. p.419-446. doi:10.1016/s0166-2635(08)70125-7
	V. L. Zlobin, O. M. Rosen, and A. A. Abbyasov, “Two Metasedimentary Basins in the Early Precambrian Granulites of the Anabar Shield (Polar Siberia): Normative Mineral Compositions Calculated by the MINLITH Program and Basin Facies Interpretations,” Spec. Pub. Int. Ass. Sediment 33, 275–291 (2002).

See Also

These are possibly similar items as determined by title/reference text matching only.

	Kolodyazhny, S. Yu. (2007) Structural-kinematic evolution of the central Belomorian-Lapland Belt in the Paleoproterozoic. Geotectonics, 41. 210-230 doi:10.1134/s001685210703003x
	Mints, M. V. (2014) Tectonics and geodynamics of granulite-gneiss complexes in the East European Craton. Geotectonics, 48. 496-522 doi:10.1134/s0016852114060089
	de Oliveira Chaves, Alexandre (2021) Columbia (Nuna) supercontinent with external subduction girdle and concentric accretionary, collisional and intracontinental orogens permeated by large igneous provinces and rifts. Precambrian Research, 352. 106017pp. doi:10.1016/j.precamres.2020.106017
	Nenakhov, V. M., Bondarenko, S. V. (2011) Paleoproterozoic tectonic evolution of the Losevo Suture Zone in the Voronezh Crystalline Massif. Geotectonics, 45. 302-316 doi:10.1134/s0016852111040066
	Windley, B. (1992) Chapter 11 Proterozoic Collisional and Accretionary Orogens. In Proterozoic Crustal Evolution. Elsevier. p.419-446. doi:10.1016/s0166-2635(08)70125-7
	Shchipansky, A. A., Samsonov, A. V., Petrova, A. Yu., Larionova, Yu. O. (2007) Geodynamics of the eastern margin of Sarmatia in the Paleoproterozoic. Geotectonics, 41. 38-62 doi:10.1134/s0016852107010050
	Mints, M. V. (2018) A Neoarchean–Proterozoic Supercontinent (~2.8–0.9 Ga): An Alternative to the Model of Supercontinent Cycles. Doklady Earth Sciences, 480 (1) 555-558 doi:10.1134/s1028334x18050045
	Rytsk, E. Yu., Kovach, V. P., Kovalenko, V. I., Yarmolyuk, V. V. (2007) Structure and evolution of the continental crust in the Baikal Fold Region. Geotectonics, 41. 440-464 doi:10.1134/s0016852107060027
	Mints, M. V. (2011) 3D model of deep structure of the Early Precambrian crust in the East European Craton and paleogeodynamic implications. Geotectonics, 45. 267-290 doi:10.1134/s0016852111040054
	Nenakhov, V. M., Nikitin, A. V. (2007) Structure, magmatism, and Paleozoic tectonic evolution of the Uakit Zone in the context of the formation of the Angara-Vitim batholith in the western Transbaikal region. Geotectonics, 41. 114-129 doi:10.1134/s0016852107020033
	Cawood, Peter A., Strachan, Robin A., Pisarevsky, Sergei A., Gladkochub, Dmitry P., Murphy, J. Brendan (2016) Linking collisional and accretionary orogens during Rodinia assembly and breakup: Implications for models of supercontinent cycles. Earth and Planetary Science Letters, 449. 118-126 doi:10.1016/j.epsl.2016.05.049