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Hastie, A.R., Kerr, A.C., Pearce, J.A., Mitchell, S.F., 2007. Classification of altered volcanic island rocks using immobile trace elements: development of the Th-Co discrimination diagram. J. Petrol. 48, 2341–2357. Hastie, A.R., Kerr, A.C., McDonald, I., Mitchell, S.F., Pearce, J.A., Millar, I.L., Barfod, D., Mark, D.F., 2010. Geochronology, geochemistry and petrogenesis of rhyodacite lavas in eastern Jamaica: A new adakite subgroup analogous to earlyarchaean continental crust? Chem. Geol. 276, 344–359. Hawkesworth, C., Gallagher, K., Hergt, J., Mcdermortt, F., 1994. Destructive plate margin magmatism- geochemistry and melt generation. Lithos 33, 169–188. Henriques, S.B.A., Neiva, A.M.R., Ribeiro, M.L., Dunning, G.R., Tajcˇmanová, L., 2015. Evolution of a Neoproterozoic suture in the Iberian Massif, Central Portugal: New U-Pb ages of igneous and metamorphic events at the contact between the Ossa Morena Zone and Central Iberian Zone. Lithos 220–223, 43–59. Jackson, S.E., Pearson, N.J., Griffin, W.L., Belousova, E.A., 2004. The application of laser ablation-inductively coupled plasma-mass spectrometry to in situ U-Pb zircon geochronology. Chem. Geol. 211, 47–69.Jacobsen, S.B., Wasserburg, G.J., 1980. Sm-Nd isotopic evolution of chondrites. Earth Planet. Sci. Lett. 50, 139– 155. Jacques, G., Hoernle, K., Gill, J., Wehrmann, H., Bindeman, I., Lara, L.E., 2014. Geochemical variations in the Central-Southern volcanic zone, Chile (38–43 degrees S); the role of fluids in generating arc magmas. Chem. Geol. 371, 27–45. Jicha, B.R., Kay, S.M., 2018. Quantifying arc migration and the role of forearc subduction erosion in the central Aleutians. J. Volcanol. Geotherm. Res. 360, 84– 99. Johnson, M.C., Plank, T., 2000. Dehydration and melting experiments constrain the fate of subducted sediments. Geochem. Geophys. Geosyst., 1 Kay, R.W., 1978. Aleutian magnesian andesites: melts from subducted Pacific Oceanic crust. J. Volcanol. Geotherm. Res. 4, 117–132. Kay, R.W., 2006. Subduction erosion and recycled crust at convergent margins: the Adak adakite example. In: Geological Society America Penrose Conference on ‘‘Arc Genesis and Crustal Evolution”. Valdez, Alaska, Abstracts, pp. 35–36. Kelemen, P.B., Hanghoj, K., Greene, A.R., 2003. One view of the geochemistry of subduction-related magmatic arcs, with an emphasis on primitive andesite and lower crust. In: Rudnick, R.L., Turekian, K.K. (Eds.), Treatise of Geochemistry, 3. Elsevier, Amsterdam, pp. 593–659. Kelley, K.A., Plank, T., Ludden, J., Staudigel, H., 2003. Composition of altered oceanic crust at ODP sites 801 and 1149. Geochem. Geophys. Geosyst. 4, 8910. Kilian, R., Stern, C.R., 2002. Constraints on the interaction between slab melts and the mantle wedge from adakite glass in peridotite xenoliths. Eur. J. Mineral. 14, 25–36. Lagabrielle, Y., Guivel, C., Maury, R.C., Bourgois, J., Fourcade, S., Martin, H., 2000. Magmatic–tectonic effects of high thermal regime at the site of active ridge subduction: the Chile Triple Junction model. Tectonophysics 326, 255–268. Lefort, J., 1989. Basement Correlation Across the North Atlantic. Springer-Verlag, Berlin, p. 148. Li, Z.X., Mitchell, R.N., Spencer, C.J., Ernst, R., Pisarevsky, S., Kirscher, U., Murphy, J.B., 2019. Decoding Earth’s rhythms: Modulation of supercontinent cycles by longer superocean episodes. Precambr. Res. 323, 1–5. Linnemann, U., Gehmlich, M., Tichomirowa, M., Buschmann, B., Nasdala, L., Jonas, P., Lützner, H., Bombach, K., 2000. From Cadomian subduction to Early Palaeozoic rifting: the evolution of Saxo-Thuringia at the margin of Gondwana in the light of single zircon geochronology and basin development (Central European Variscides, Germany). In: Franke, W., Haak, V., Oncken, O., Tanner, D., (Eds.), Orogenic processes: quantification and modelling in the Variscan Belt. Geol. Soc. Spec. Publ. 179, 131-153. Linnemann, U., Romer, R.L., 2002. The Cadomian Orogeny in Saxo- Thuringia, Germany: geochemical and Nd–Sr-Pb isotopic characterization of marginal basins with constraints to geotectonic setting and provenance. Tectonophysics 352, 33–64. Linnemann, U., McNaughton, N.J., Romer, R.L., Gehmlich, M., Drost, K., Tonk, C., 2004. West African provenance for Saxo-Thuringia (Bohemian Massif): did Armorica ever leave pre-Pangean Gondwana?—U–Pb-SHRIMP zircon evidence and the Nd-isotopic record. Int. J. Earth Sci. 93, 683–705. Linnemann, U., Pereira, M.F., Jeffries, T.E., Drost, K., Gerdes, A., 2008. Cadomian Orogeny and the opening of the Rheic Ocean: new insights in the diachrony of geotectonic processes constrained by LA-ICP-MS U-Pb zircon dating (Ossa- Morena and Saxo- Thuringian Zones, Iberian and Bohemian Massifs). Tectonophysics 461, 21–43. Linnemann, U., Gerdes, A., Hofmann, M., Marko, L., 2014. The Cadomian Orogen: Neoproterozoic to Early Cambrian crustal growth and orogenic zoning along the periphery of the West African Craton—constraints from U-Pb zircon ages and Hf isotopes (Schwarzburg Antiform, Germany). Precambr. Res. 244, 236–278. Ludwig, K.R., 2012. User’s Manual for Isoplot Version 3.75e4.15: a Geochronological Toolkit for Microsoft Excel. Berkeley Geochronological Center. Special Publication 5, 77 pp. Lugmair, G.W., Shimamura, T., Lewis, R.S., Anders, E., 1983. Sm-146 in the early solar system – evidence from neodymiun in the Allende meteorite. Science 222, 1015–1018. Martin, H., 1986. Effect of steeper Archean geothermal gradient on geochemistry of subduction-zone magmas. Geology 14, 753–756. Martin, H., 1999. Adakitic magmas: modern analogues of Archaean granitoids. Lithos 46, 411–429. Martin, H., Smithies, R.H., Rapp, R., Moyen, J.-F., Champion, D., 2005. An overview of adakite, tonalite–trondhjemite–granodiorite (TTG), and sanukitoid: relationships and some implications for crustal evolution. Lithos 79, 1–24. Martínez Catalán, J.R., 2011. Are the oroclines of the Variscan belt related to late Variscan strike-slip tectonics? Terra Nova 23, 241–247. Matte, P.H., 2001. The Variscan collage and orogeny (480–290 Ma) and the tectonic definition of the Armorica microplate: a review. Terra Nova 13, 122–128. Macpherson, C.G., Dreher, S.T., Thirlwall, M.F., 2006. Adakites without slab melting: High pressure differentiation of island arc magma, Mindanao, the Philippines: Earth Planet. Sci. Lett. 243, 581–593. Maitre, R.W.L., Bateman, P., Dudek, A., Keller, J., Lemeyre, J., Bas, M.J.L., Sabine, P.A., Schmid, R., Sorensen, H., Streckeisen, A., Wooley, A.R., Zanettin, B., 1989. A Classification of Igneous Rocks and Glossary of Terms. Blackwell, Oxford. Manikyamba, C., Kerrich, R., Khanna, T.C., Satyanarayanan, M., Krishna, A.K., 2009. Enriched and depleted arc basalts, with Mg-andesites and adakites: a potential paired arc-back-arc of the 2.6 Ga Hutti greenstone terrane, India. Geochim. Cosmochim. Acta 73, 1711–1736. McDonough, W.F., Sun, S.S., 1995. The composition of the earth. Chem. Geol. 120, 223–253. Mitchell, R.N., Spencer, C.J., Kirscher, U., He, X.-F., Murphy, J.B., Li, Z.-X., Collins, W.J., 2019. Harmonic hierarchy of mantle and lithospheric convective cycles: time series analysis of hafnium isotopes of zircon. Gondwana Res. 75, 239–248. Moghadam, H.S., Li, X.H., Stern, R.J., Santos, J.F., Ghorbani, G., Pourmohsen, M., 2016. Age and nature of 560–520 Ma calc-alkaline granitoids of Biarjmand, northeast Iran: insights into Cadomian arc magmatism in northern Gondwana. Int. Geol. Rev. 58, 1492–1509. Montero, P., Salman, K., Zinger, T., Bea, F., 1999. Rb-Sr and single-zircon grain 207Pb/206Pb chronology of the Monesterio granodiorite and related migmatites. Evidence of Late Cambrian melting event in the Ossa-Morena Zone. Iberian Massif. Estud. Geol. 55, 3–8. Moradi, A., Shabanian, N., Davoudian, A.R., Azizi, H., Santos, J.F., Asahara, Y., 2020. Geochronology and petrogenesis of the Late Neoproterozoic granitic gneisses of Golpayegan metamorphic complex: a new respect for Cadomian crust in the Sanandaj-Sirjan zone, Iran. Int. Geol. Rev., 1–24 Moyen, J.F., 2009. High Sr/Y and La/Yb ratios: the meaning of the adakitic signature. Lithos 112, 556–574. Münker, C., Wörner, G., Yogodzinski, G.M., Churikova, T.G., 2004. Behaviour of high field strength elements in subduction zones: constraints from Kamtchatka- Aleutian arc lavas. Earth Planet. Sci. Lett. 224, 275–293. Neuman, R.B., Max, M.D., 1989. Penobscottian-Grampian-Finmarkian orogenies as indicators of terrane linkages. In: Dallmeyer, R.D. (Ed.), Terranes in the Circum- Atlantic Paleozoic Orogens. Geol. Soc. Am. Spec. Pap. 230, 31-45. Nier, A., 1938. Isotopic constitution of Sr, Ba, Bi, Tl and Hg. Phys. Rev. 54, 275–278. O’Nions, R.K., Carter, S.R., Evensen, N.M., Hamilton, P.J., 1979. Geochemical and cosmochemical applications of Nd isotope analysis. Annu. Rev. Earth Planet. Sci. 7, 11–38. Ordóñez-Casado, B., 1998. Geochronological studies of the Pre-Mesozoic basement of the Iberian Massif: the Ossa Morena zone and the Allochthonous Complexes within the Central Iberian zone. Swiss Federal Institute of Technology, Zürich, Switzerland, p. 235. Pankhurst, R.J., Weaver, S.D., Herve, F., Larrondo, P., 1999. Mesozoic-Cenozoic evolution of the North Patagonian batholith in Aysen, southern Chile. J. Geol. Soc. London 156, 673–694. Pearce, J.A., 1982. Trace element characteristics of lavas from destructive plate boundaries. In: Thorpe, R.S. (Ed.), Andesites: Orogenic Andesites and Related Rocks. John Wiley & Sons, Chichester, pp. 525–548. Pearce, J.A., 1996a. A user’s guide to basalt discrimination diagrams. Geological Association Canada Short Course Notes 12, 79–113. Pearce, J.A., 1996b. Sources and settings of granitic rocks. Episodes 19, 120–125. Pearce, J.A., 2008. Geochemical fingerprinting of oceanic basalts with applications to ophiolite classification and the search for archean oceanic crust. Lithos 100, 14– 48. Pearce, J.A., 2014. Ophiolites: immobile elements fingerprinting of ophiolites. Elements 10, 101–108. Pearce, J.A., Harris, N.B.W., Tindle, A.G., 1984. Trace element discrimination diagrams for the tectonic interpretation of granitic rocks. J. Petrol. 25, 956–983. Pearce, J.A., Parkinson, I.J., 1993. Trace element models for mantle melting: application to volcanic arc petrogenesis. In: Pritchard, H.M., Alabaster, T., Harris, N.B.W., Neary, C.R. (Eds.), Magmatic processes and plate tectonics. Geol. Soc. Spec. Publ. 76, 373-403. Pereira, M.F., 2015. Potential sources of Ediacaran strata of Iberia: a review. Geodin. Acta 27, 1–14. Pereira, M.F., Chichorro, M., Linnemann, U., Eguiluz, L., Silva, J.B., 2006. Inherited arc signature in Ediacaran and Early Cambrian basins of the Ossa-Morena Zone (Iberian Massif, Portugal): paleogeographic link with European and North African correlatives. Precambr. Res. 144, 297–315. Pereira, M.F., Chichorro, M., Solá, A.R., Silva, J.B., Sánchez-García, T., Bellido, F., 2011. Tracing the Cadomian magmatism with detrital/inherited zircon ages by in-situ U-Pb SHRIMP geochronology (Ossa-Morena Zone, SW Iberian Massif). Lithos 123, 204–217. Pereira, M.F., Sola, A.R., Chichorro, M., Lopes, L., Gerdes, A., Silva, J.B., 2012. North- Gondwana assembly, break-up and paleogeography: U-Pb isotope evidence from detrital and igneous zircons of Ediacaran and Cambrian rocks of SW Iberia. Gondwana Res. 22, 866–881. Plank, T., 2005. Constraints from Thorium/Lanthanum on sediment recycling at subduction zones and the evolution of the continents. J. Petrol. 46, 5. Plank, T., 2014. The chemical composition of subducting sediments. Treatise Geochem. 4, 607–629. E. Rojo-Pérez, U. Linnemann, M. Hofmann et al. Gondwana Research 109 (2022) 89–112 The Ediacaran arc section

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