Abstract
The formation and emplacement of syn-collisional mafic dykes that intrude suture zones and their association with orogenic processes are enigmatic. Southern Iberia records the Late Paleozoic amalgamation of Pangea and exposes today a fragment of Laurussia (South Portuguese Zone), which is spatially juxtaposed with autochthonous Gondwana. Fault-bounded oceanic metasedimentary rocks, mélanges and ophiolite complexes characterize the suture zone and are in turn crosscut by intrusive granitoid rocks and mafic dykes. The generation and emplacement of these mafic dykes and their relationship to the suture zone are undetermined. Field evidence shows the dykes were emplaced at high angles to pre-existing orogenic fabrics in the mélange, granitoid and metasedimentary rocks. Geochemical analyses (major, trace, rare earth elements) indicate the dykes exhibit a mid-ocean ridge basalt signature. U/Pb zircon geochronology reveals the crystallization age of the dykes is ca. 316 Ma and Sm–Nd isotopic analysis suggests a deep mantle source. Taken together, these data support existing temporal constraints on events leading up to the amalgamation of Pangea, and suggest progressive lower crustal delamination during the waning stages of continent–continent collision.
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References
Andersen B, Jamtreit B, Dewey JF, Swensson E (1991) Subduction and eduction of continental crust: major mechanisms during continent–continent collision and orogenic extensional collapse, a model based on the South Norwegian Caledonides. Terra Nova 3:303–310
Braid JA, Murphy JB, Quesada C (2010) Structural analysis of an accretionary prism in a continental collisional setting, the Late Paleozoic Pulo do Lobo Zone, Southern Iberia. Gondwana Res 17:422–439
Braid JA, Murphy JB, Quesada C, Mortensen JK (2011) Tectonic escape of a crustal fragment during the closure of the Rheic Ocean: U–Pb detrital zircon data from the late Paleozoic Pulo do Lobo and South Portuguese Zones, Southern Iberia. J Geol Soc Lond 168:383–392
Braid JA, Murphy JB, Quesada C, Bickerton L, Mortensen JK (2012) Probing the composition of the unexposed basement, South Portuguese Zone, southern Iberia: implications for the connections between the Appalachian and Variscan orogens. Can J Earth Sci 613:591–613
Briqueu L, Bougault H, Joron JL (1984) Quantification of Nb, Ta, Ti and V anomalies in magmas associated with subduction zones: petrogenetic implications. Earth Planet Sci Lett 68:297–308
Brown D, Alvarez-Marrón J, Pérez-Estaún A, Puchkov V, Gorozhanina Y, Ayarza P (2001) Structure and evolution of the Magnitogorsk forearc basin: identifying upper crustal processes during arc-continental collision in the Southern Urals. Tectonics 20:364–375
Casquet C, Galindo C, Tornos F, Velasco F, Canales A (2001) The Aguablanca Ni–Cu ore deposit (Extremadura, Spain), a case of synorogenic orthomagmatic mineralization: age and isotope composition of magmas (Sr, Nd) and ore (S). Ore Geol Rev 3–4:237–250
Castro A, De la Rosa JD, Fernández C, Moreno-Ventas I (1995) Unstable flow, magma mixing and magma-rock deformation in a deep-seated conduit: the Gil-Márquez Complex, south-west Spain. Geol Rundsch 84:359–374
Castro A, Fernández C, de la Rosa J, Moreno-Ventas I, Rogers G (1996) Significance of MORB-derived amphibolites from the Aracena metamorphic belt, southwest Spain. J Petrol 37:235–260
Dahn DRL, Braid JA, Murphy JB, Quesada C, McFarlane CRM (2014) Geochemistry of the Peramora Mélange and Pulo do Lobo Schist: Geochemical investigation and tectonic interpretation of mafic mélange in the Pangean suture zone, Southern Iberia. Int J Earth Sciences. doi:10.1007/s00531-014-1024-7
de la Rosa JD (1992) Petrología de las rocas básicas y granitoides del batolito de la Sierra Norte de Sevilla, Zona Surportuguesa, Macizo Ibérico. Dissertation, Univ. Sevilla
Dewey JF, Burke K (1973) Tibetan, Variscan and Precambrian basement reactivation: products of continental collision. J Geol 81:683–692
Díaz Azpiroz M, Castro A, Fernández C, López S, Fernández Caliani JC, Moreno-Ventas I (2004) The contact between the Ossa-Morena and the South Portuguese zones: characteristics and significance of the Aracena metamorphic belt, in its central sector between Aroche and Aracena (Huelva). J Iber Geol 30:23–51
Dunning GR, Díez Montes A, Matas J, Martín Parra LM, Almarza J, Donaire M (2002) Geocronología U/Pb del Volcanismo Acido y Granitoides de la Faja Pirítica Ibérica. Geogaceta 232:127–130
Eden CP (1991) Tectonostratigraphic analysis of the northern extent of the oceanic exotic terrane, Northwestern Huelva Province, Spain. Dissertation, University of Southampton
Ernst RE, Buchan KL (2001) The use of mafic dyke swarms in identifying and locating mantle plumes. In: Ernst, RE and Buchan, KL (ed) Mantle plumes: their identification through time: Boulder, Colorado. Geol Soc Am Special Paper 352:247–265
Fillerup MA, Knapp JH, Knapp CC, Raileanu V (2010) Mantle earthquakes in the absence of subduction? Continental delamination in the Romanian Carpathians. Lithos 2:333–340
Franke W (1989) Tectonostratigraphic units in the Variscan belt of central Europe. Geol Soc Am Spec Pap 230:67–90
Giese U, Hoyman K, Glodny J, Kramm U, Dallmeyer RD (1999) Age constraints for the tectonometamorphic evolution of the Pulo do Lobo Zone in SW Spain. Ger J Geosci 150:565–582
Girbacea R, Frisch W (1998) Slab in the wrong place: lower lithospheric mantle delamination in the last stage of the Eastern Carpathian subduction retreat. Geol 26(7):611–614
Gladney ER, Braid JA, Murphy JB, Quesada C, McFarlane CRM (2014) U–Pb geochronology of the Gil Marquez pluton: magmatism in the Variscan suture zone, Southern Iberia, during continental collision and the amalgamation of Pangea. Int J Earth Sci (submitted)
Gutiérrez-Alonso G, Murphy JB, Fernández-Suárez J, Weil AB, Franco MP, Gonzalo JC (2011) Lithospheric delamination in the core of Pangea: Sm–Nd insights from the Iberian mantle. Geology. doi:10.1130/G31468.1
Leake BE (1978) Nomenclature of amphiboles. Can Miner 16:501–520
Li ZX (1994) Collision between the North and South China blocks: a crustal-detachment model for suturing in the region east of the Tanlu fault. Geology 22:739
Lustrino M (2005) How the delamination and detachment of lower crust can influence basaltic magmatism. Earth Sci Rev 72:21–38
Martínez Catalan JR, Arenas R, Díaz García F, Abati J (1997) Variscan accretionary complex of northwest Iberia: Terrane correlation and succession of tectonothermal events. Geology 25:1103–1106
Martínez Catalán JR, Arenas R, Díaz García F, Gómez-Barreiro J, González Cuadra P, Abati J, Castiñeiras P, Fernández-Suárez J, Sánchez Martínez S, Andonegui P, González Clavijo E, Díez Montes A, Rubio Pascual FJ, Valle Aguado B (2007) Space and time in the tectonic evolution of the northwestern Iberian Massif: implications for the comprehension of the Variscan belt. GSA Mem. doi:10.1130/2007.1200(21)
Martínez Catalán JR, Fernández-Suárez J, Meireles C, Clavijo EG, Belousova E, Saeed A (2008) U-Pb detrital zircon ages in synorogenic deposits of the NW Iberian Massif (Variscan belt): interplay of Devonian-Carboniferous sedimentation and thrust tectonics. J Geol Soc Lond 165:687–698
Miyashiro A (1974) Volcanic rock series in island arcs and active continental margin. Am J Sci 274:321–355
Murphy JB, Dostal J (2007) Continental mafic magmatism of different ages in the same terrane: constraints on the evolution of an enriched mantle source. Geology 35:335–338
Murphy JB, Nance RD (2002) Nd-Sm isotopic systematics as tectonic tracers: an example from West Avalonia, Canadian Appalachians. Earth Sci Rev 59:77–100
Murphy JB, Dostal J, Keppie JD (2008) Neoproterozoic–Early Devonian Magmatism in the Antigonish Highlands, Avalon terrane, Nova Scotia: tracking the evolution of the mantle and crustal sources during the evolution of the Rheic Ocean. Tectonophys 461:181–201
Murphy JB, Keppie JD, Nance RD, Dostal J (2010) Comparative evolution of the Iapetus and Rheic Oceans: a North America perspective. Gondwana Res 17:482–499
Murphy JB, Cousens BL, Braid JA, Strachan RA, Dostal J, Keppie JD, Nance RD (2011a) Highly depleted oceanic lithosphere in the Rheic Ocean: implications for Paleozoic plate reconstructions. Lithos 123:165–175
Murphy JB, Dostal J, Gutiérrez-Alonso G, Keppie JD (2011b) Early Jurassic magmatism on the northern margin of CAMP: derivation from a Proterozoic subcontinental lithospheric mantle. Lithos 123:158–164
Nance RD, Linnemann U (2009) The Rheic Ocean: origin, evolution and significance. GSA Today 18:4–12
Nance RD, Gutiérrez-Alonso G, Keppie JD, Linnemann U, Murphy JB, Quesada C, Strachan RA, Woodcock N (2010) Evolution of the Rheic Ocean. Gondwana Res 17:194–222
Oliveira JT (1990) Stratigraphy and syn-sedimentary tectonism in the South Portuguese Zone. In: Dallmeyer RD, Martínez García E (eds) Pre-mesozoic geology of Iberia. Springer, Berlin, pp 334–347
Pearce JA (1982) Trace element characteristics of lavas from destructive plate boundaries. In: Thorpe RS (ed) Andesites. Wiley, pp 525–548
Pearce JA, Norry MJ (1979) Petrogenetic implications of Ti, Zr, Y and Nb variations in volcanic rocks. Contrib Mineral Petrol 69:33–47
Pereira Z, Fernandes P, Oliveira JT (2006a) The Upper Devonian palynostratigraphy and organic matter maturation of the Pulo do Lobo domain, South Portuguese Zone, Portugal. Comun Geol 93:23–38
Pereira Z, Oliveira V, Oliveira JT (2006b) Palynostratigraphy of the Touca da Moura and Cabrela Complexes, Ossa Morena Zone, Portugal: geodynamic implications. Rev Palaeobot Palynol 139:227–240
Quesada C (1991) Geological constraints on the Paleozoic tectonic evolution of tectonostratigraphic terranes in the Iberian Massif. Tectonophysics 185:225–245
Quesada C (1998) A reappraisal of the structure of the Spanish segment of the Iberian Pyrite Belt. Miner Deposita 33:31–44
Quesada C (2006) The Ossa-Morena Zone of the Iberian Massif: a tectonostratigraphic approach to its evolution. Zeitschrift derDuetschenGesellschaft furGeowissenschaften 157:585–595
Quesada C, Fonseca PE, Munhá J, Oliveira JT, Ribeiro A (1994) The Beja-Acebuches ophiolite (Southern Iberia Variscan foldbelt): geological characterization and geodynamic significance. Bol Geol Min 105:3–49
Santos JF, Mata J, Gonçalves F, Munhá J (1987) Contribuição para o conhecimento geológico-petrológico da região de Santa Suzana: O complexo Vulcano-sedimentar de Toca da Moura. Com Ser Geol Portugal 73:29–48
Scotese CR (2003) Paleomap project. www.scotese.com
Silva JB, Oliveira JT, Ribeiro A (1990) Structural outline of the South Portuguese Zone. In: Dallmeyer RD, García EM (eds) Pre-mesozoic geology of Iberia. Springer, Berlin, pp 348–362
Simancas JF, Carbonell R, González Lodeiro F, Pérez Estaún A, Juhlin C, Ayarza P, Azor A, Martínez Poyatos D, Almodóvar GR, Pascual E, Sáez R, Kashubin A, Alonso F, Álvarez Marrón J, Bohoyo F, Castillo S, Donaire T, Expósito I, Flecha I, Galadí E, Galindo Zaldívar J, González F, González Cuadra P, Macías I, Marti D, Martín A, Martín Parra LM, Nieto JM, Palm H, Ruano P, Ruiz M, Toscano M (2004) The seismic crustal structure of the Ossa-Morena Zone and its geological interpretation. J Iberian Geol 30:133–142
Simancas JF, Tahiri A, Azor A, Lodeiro FG, Martínez Poyatos D, El Hadi H (2005) The tectonic frame of the Variscan-Alleghanian Orogen in southern Europe and northern Africa. Tectonophysics 398:181–198
Stampfli GM, Borel GD (2002) A plate tectonic model for the Paleozoic and Mesozoic constrained by dynamic plate boundaries and restored synthetic oceanic isochrones. Earth Planet Sci Lett 196:17–33
Sun SS, McDonough WF (1989) Chemical and isotopic systematics of oceanic basalts: Implications for mantle composition and processes. In: Saunders AD, Norry MJ (ed) Magmatism in the oceanic basins. Geol Soc Lon Spec Publ 42:313–345
Ueda K, Gerya TV, Burg JP (2012) Delamination in collisional orogens: Thermomechanical modeling. J Geophys Res: Solid Earth. doi:10.1029/2012JB009144
van Staal CR, Dewey JF, MacNiocaill C, McKerrow WS (1998) The Cambrian- Silurian tectonic evolution of the North Appalachians and British Caledonides: history of a complex, west and southwest Pacific-type segment of Iapetus. In: Blundell DJ, Scott AC (ed) Lyell: the past is the key to the present. Geol Soc Lond Spec Publ 143:197–242
Watson S, McKenzie D (1991) Melt generation by plumes: a study of Hawaiian volcanism. J Petrol 32(3):501–537
Winchester JA, Floyd PA (1977) Geochemical discrimination of different magma series and their differentiation products using immobile elements. Chem Geol 20:325–343
Yang J, Chung S, Zhai M, Zhou X (2004) Geochemical and Sr–Nd–Pb isotopic composition of mafic dykes from the Jiadong Peninsula, China: evidence for vein-plus-peridotite melting in the lithospheric mantle. Lithos 73:145–160
Zandt G, Gilbert H, Owens TJ, Ducea M, Saleeby J, Jones CH (2004) Active foundering of a continental arc root beneath the southern Sierra Nevada in California. Nature 431:41–46
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Dupuis, N.E., Braid, J.A., Murphy, J.B. et al. Changing mantle sources in a suture zone in the heart of Pangea: implications for collisional tectonics during the waning stages of ocean closure. Int J Earth Sci (Geol Rundsch) 103, 1403–1414 (2014). https://doi.org/10.1007/s00531-014-1012-y
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DOI: https://doi.org/10.1007/s00531-014-1012-y