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The Mesozoic Equatorial Atlantic Magmatic Province (EQUAMP) (2018)

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  • USP Schools: IGC; IGC
  • DOI: 10.1007/978-981-13-1666-1_3
  • Language: Inglês
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    Informações sobre o DOI: 10.1007/978-981-13-1666-1_3 (Fonte: oaDOI API)
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    • ABNT

      HOLLANDA, Maria Helena Bezerra Maia de; ARCHANJO, Carlos José; MACEDO FILHO, A. A.; et al. The Mesozoic Equatorial Atlantic Magmatic Province (EQUAMP). Dyke Swarms of the World: A Modern Perspective[S.l.], Springer Singapore, n. , p. 87-110, 2018. Disponível em: < > DOI: 10.1007/978-981-13-1666-1_3.
    • APA

      Hollanda, M. H. B. M. de, Archanjo, C. J., Macedo Filho, A. A., Fossen, H., Ernst, R. E., Castro, D. L. de, et al. (2018). The Mesozoic Equatorial Atlantic Magmatic Province (EQUAMP). Dyke Swarms of the World: A Modern Perspective, ( ), 87-110. doi:10.1007/978-981-13-1666-1_3
    • NLM

      Hollanda MHBM de, Archanjo CJ, Macedo Filho AA, Fossen H, Ernst RE, Castro DL de, Melo AC, Oliveira AL. The Mesozoic Equatorial Atlantic Magmatic Province (EQUAMP) [Internet]. Dyke Swarms of the World: A Modern Perspective. 2018 ;( ): 87-110.Available from:
    • Vancouver

      Hollanda MHBM de, Archanjo CJ, Macedo Filho AA, Fossen H, Ernst RE, Castro DL de, Melo AC, Oliveira AL. The Mesozoic Equatorial Atlantic Magmatic Province (EQUAMP) [Internet]. Dyke Swarms of the World: A Modern Perspective. 2018 ;( ): 87-110.Available from:

    Referências citadas na obra
    Almeida VV, Janasi VA, Heaman LM, Shaulis BJ, Hollanda MHBM, Renne PR (2017) Contemporaneous alkaline and tholeiitic magmatism in the Ponta Grossa Arch Paraná-Etendeka Magmatic Province: constraints from U-Pb zircon/baddeleyite and 40Ar/39Ar phlogopite dating of the José Fernandes Gabbro and mafic dikes. J Volcanol Geoth Res (accepted).
    Archanjo CJ, Launeau P (2004) Magma flow inferred from preferred orientations of plagioclase of the Rio Ceará-Mirim dike swarm (NE Brazil) and its AMS significance. In: Martin-Hernandez F, Lunemburg CM, Aubourg C, Jackson M (eds) Magnetic fabric: methods and applications. Geological Society, London, Special Publications, vol 238, pp 285–298.
    Archanjo CJ, Trindade RIF, Macedo JWP, Araújo MGS (2000) Magnetic fabric of a basaltic dike swarm associated with Mesozoic rifting in northeastern Brazil. J S Am Earth Sci 13:179–189.
    Archanjo CJ, Trindade RI, Bouchez JL, Ernesto M (2002a). Granite fabrics and regional-scale strain partitioning in the Seridó belt (Borborema Province, NE Brazil). Tectonics.
    Archanjo CJ, Araújo MGS, Launeau P (2002b) Fabric of the Rio Ceará-Mirim mafic dike swarm (Northeastern Brazil) determined by anisotropy of magnetic susceptibility and image analysis. J Geophys Res 107(B3):1–13, 2046.
    Archanjo CJ, Viegas LG, Hollanda MHBM, Souza LC, Liu D (2013) Timing of the HT/LP transpression in the Neoproterozoic Seridó belt (Borborema Province, Brazil): constraints from U-Pb (SHRIMP) geochronology and implications for the connections between NE Brazil and West Africa. Gondwana Res 23:701–714.
    Baksi AK, Archibald DA (1997) Mesozoic igneous activity in the Maranhão province, northern Brazil: 40Ar/39Ar evidence for separate episodes of basaltic magmatism. Earth Planet Sci Lett 151(3–4):139–153
    Bellieni G, Piccirillo EM, Cavazzini G, Petrini R, Comin-Chiaramonti P, Nardy AJR, Civetta L, Melfi AJ, Zantedeschi P (1990) Low- and high-TiO2 Mesozoic tholeiitic magmatism of the Maranhão basin (NE-Brasil): K-Ar age, geochemistry, petrology, isotope characteristics and relationships with Mesozoic low- and high-TiO2 flood basalts of the Paraná basin (SE-Brazil). Neues Jahrbuch Miner Abh 162(1):1–33
    Bellieni G, Macedo MHF, Petrini R, Picirillo EM, Cavazzini G, Comin-Chiaramonti P, Ernesto M, Macedo JWP, Martins G, Melfi AJ, Pacca IG, De Min J (1992) Evidence of magmatic activity related to Middle Jurassic to early cretaceous rifting from northeastern Brazil (Ceará-Mirim): K/Ar age, palaeomagnetism, petrology and Sr-Nd isotope characteristics. Chem Geol 97:9–32
    Benkhelil J (1989) The origin and evolution of the cretaceous Benue trough (Nigeria). J Afr Earth Sci 8(2/3/4):251–282
    Bertrand H, Fornari M, Marzoli A, García-Duarte R, Sempere T (2014) The Central Atlantic Magmatic Province extends into Bolivia. Lithos 188:33–43.
    Brito Neves BB, Fuck RA, Pimentel MM (2014) The Brasiliano collage in South America: a review. Braz J Geol 44(3):493–518.
    Bryan S, Ernst RE (2008) Revised definition of Large Igneous Provinces (LIPs). Earth Sci Rev 86:175–202.
    Burgess SD, Bowring SA, Fleming TH, Elliot DH (2015) High-precision geochronology links the Ferrar large igneous province with early-Jurassic ocean anoxia and biotic crisis. Earth Planet Sci Lett 415:90–99.
    Caby R (2003) Terrane assembly and geodynamic evolution of central-western Hoggar: a synthesis. J Afr Earth Sci 37:133–159.
    Clemente CS, Amorós EB, Crespo MG (2007) Dike intrusion under stress: effects on magnetic and vesicle fabrics in dikes from rift zones of Tenerife (Canary Islands). J Struct Geol 29:1931–1942.
    Correa-Gomes LC, Souza Filho CR, Martins CFJN, Oliveira EP (2001) Development of symmetrical and asymmetrical fabric in sheet-like igneous bodies: the role of magma flow and wall-rock displacements in theoretical and natural cases. J Struct Geol 23:1415–1428.
    Coulon C, Vidal P, Dupuy C, Baudin P, Popoff M, Maluski H, Hermitte D (1996) The Mesozoic to early Cenozoic magmatism of the Benue trough (Nigeria); geochemical evidence for the involvement of the St Helena plume. J Petrol 37:341–358.
    Courtillot V, Davaille A, Besse J, Stock J (2003) Three distinct types of hotspots in the Earth’s mantle. Earth Planet Sci Lett 205:295–308
    Deckart K, Féraud G, Marques LS, Bertrand H (1998) New time constraints on dike swarms related to the Paraná-Etendeka magmatic province, and subsequent South Atlantic opening, southeastern Brazil. J Volcanol Geoth Res 80:67–83.
    de Castro DL, Oliveira DC, Hollanda MHBM (2018) Geostatistical interplay between geophysical and geochemical data: mapping litho-structural assemblages of Mesozoic igneous activities in the Parnaíba Basin (NE Brazil). Surv Geophys 39:683–713.
    Delaney PT, Pollard DD (1981) Deformation of host rocks and flow of magma during growth of minette dikes and breccia-bearing intrusions near Ship Rock, New Mexico. US Geol Surv Prof Pap 1202:61p
    Ernesto M, Raposo MIB, Marques LS, Renne PR, Diogo LA, de Min A (1999) Paleomagnetism, geochemistry and 40Ar/39Ar dating of the northeastern Paraná Magmatic Province: tectonic implications. J Geodyn 28:321–340.
    Ernst RE (2014) Large Igneous Province. Cambridge Un Press, United Kingdom, 653 pp
    Ernst RE, Buchan KL (1997) Giant radiating dike swarms: their use in identifying pre-Mesozoic large igneous provinces and mantle plumes. AGU Geophys Monogr 100:297–333
    Ewart A, Milner SC, Armstrong RA, Duncan AR (1998a) Etendeka volcanism of the Goboboseb Mountains and Messum Igneous complex, Namibia. Part I: Geochemical evidence of Early Cretaceous Tristan plume melts and the role of crustal contamination in the Parana-Etendeka CFB. J Petrol 39:191–225.
    Ewart A, Milner SC, Armstrong RA, Duncan AR (1998b) Etendeka volcanism of the Goboboseb Mountains and Messum Igneous Complex, Namibia. Part II: voluminous quartz latite volcanism of the Awahab magma system. J Petrol 39:227–253.
    Ewart A, Marsh JS, Milner SC, Duncan AR, Kamber BS, Armstrong RA (2004a) Petrology and geochemistry of Early Cretaceous bimodal continental flood volcanism of the NW Etendeka, Namibia. Part 1: introduction, mafic Lavas and re-evaluation of mantle source components. J Petrol 45:59–105.
    Ewart A, Marsh JS, Milner SC, Duncan AR, Kamber BS, Armstrong RA (2004b) Petrology and geochemistry of Early Cretaceous bimodal continental flood volcanism of the NW Etendeka, Namibia. Part 2: Characteristics and petrogenesis of the high-Ti latite and high-Ti and low-Ti voluminous quartz latite eruptives. J Petrol 44:107–138.
    Féménias O, Diot H, Berza T, Gauffriau A, Demaiffe D (2004) Asymmetrical to symmetrical magnetic fabric of dikes: paleo-flow orientations and paleo-stresses recorded on feeder-bodies from the Motru Dike Swarm (Romania). J Struct Geol 26:1401–1418.
    Florisbal LM, Heaman LM, Janasi VA, Bitencourt MF (2014) Tectonic significance of the Florianópolis dike swarm, Paraná-Etendeka Magmatic Province: a reappraisal based on precise U-Pb dating. J Volcanol Geoth Res 289(2014):140–150.
    Françolin JBL, Cobbold PR, Szatmari P (1994) Faulting in the early cretaceous Rio do Peixe basin (NE Brazil) and its significance for the opening of the Atlantic. J Struct Geol 16(5):647–661.
    Frimmel HE, Frank W (1998) Neoproterozoic tectono-thermal evolution of the Gariep Belt and its basement, Namibia and South Africa. Precambr Res 90:1–28.
    Fahrig WF (1987) The tectonic setting of continental mafic dike swarms: failed arm and early passive margin. In Halls HC, Fahrig WF (eds) Mafic dike swarms. Geological Association of Canada, Special Publication, St John’s, NL, vol 34, pp 331–348
    Fodor RV, Sial AN, Mukasa SB, McKee EH (1990) Petrology, isotope characteristics, and K-Ar ages of the Maranhão, northern Brazil, Mesozoic basalt province. Contrib Miner Petrol 104:555–567
    Gibson SA, Thompson RN, Dickin AP, Leonardos OH (1995) High-Ti and low-Ti mafic potassic magmas: key to plume-lithospheric interactions and continental flood-basalt genesis. Earth Planet Sci Lett 136:149–165.
    Góes AMO, Feijó FJ (1984) Bacia do Parnaíba. Boletim de Geociências da Petrobras 8(3):57–67
    Gray DR, Foster DA, Meert JG, Goscombe BD, Armstrong R, Trouw RAJ, Passchier CW (2008) A Damara orogen perspective on the assembly of southwestern Gondwana. In: Pankhurst RJ, Trouw RAJ, Brito Neves BB, De Wit MJ (eds), West Gondwana: pre-cenozoic correlations across the South Atlantic Region. Geological Society of London, Special Publications, vol 294, pp 399–412.
    Knight MD, Walker GPL (1988) Magma flow directions in dikes of the Koolau Complex, Oahu, determined from magnetic fabric studies. J Geophys Res 93:4301–4319.
    Halls HC (1982) The importance and potential of mafic dike swarms in studies of geodynamic process. Geosci Can 9:145–154
    Hollanda MHBM, Pimentel MM, Oliveira DC, Jardim de Sá EF (2006) Lithosphere-asthenosphere interaction and the origin of cretaceous tholeiitic magmatism in Northeastern Brazil: Sr–Nd–Pb isotopic evidence. Lithos 86:34–49.
    Hollanda MHBM, Góes AN, Negri FA (2018) Sedimentary provenance of sandstones of the Parnaíba Basin through detrital zircon geochronology. In: Daly MC, Fuck RA, Julià J, Watts AB, Andrade V (eds) Cratonic basin formation: a case of the Parnaíba Basin of Brazil. Geological Society, London, Special Publications, 472.
    Hooper P, Widdowson M, Kelley S (2010) Tectonic setting and timing of the final Deccan flood basalt eruptions. Geology 38(9):839–842.
    Irvine TN, Baragar WRA (1971) A guide to the chemical classification of the common volcanic rocks. Can J Earth Sci 8:523–548
    Janasi VA, Freitas VA, Heaman LH (2011) The onset of flood basalt volcanism, Northern Paraná Basin, Brazil: a precise U-Pb baddeleyite/zircon age for a Chapecó-type dacite. Earth Planet Sci Lett 302(1–2):147–153.
    Knight KB, Nomade S, Renne PR, Marzoli A, Bertrand H, Youbi N (2004) The Central Atlantic Magmatic Province at the Triassic-Jurassic boundary: paleomagnetic and 40Ar/39Ar evidence from Morocco for brief, episodic volcanism. Earth Planet Sci Lett 228:143–160.
    Le Maitre RW (2002) Igneous rocks—a classification and glossary of terms. In: Recommendations of the IUGS subcommission on the systematics of igneous rocks, 2nd edn. Cambridge University Press, Cambridge
    Magee C, Muirhead JD, Karvelas A, Holford SP, Jackson CAL, Bastow ID, Schoeld N, Stevenson CTE, McLean C, McCarthy W, Shtukert O (2016) Lateral magma flow in mafic sill complexes. Geosphere 12(3):809–841.
    Maluski H, Coulon C, Popoff M, Baudin P (1995) 40Ar/39Ar chronology, petrology and geodynamic setting of Mesozoic to early Cenozoic magmatism from the Benue trough, Nigeria. J Geol Soc Lond 152:311–326.
    Marzoli A, Renne PR, Piccirillo EM, Ernesto M, Bellieni G, De Min A (1999a) Extensive 200-million-year-old continental flood basalts of the Central Atlantic Magmatic Province. Science 284:616–618.
    Marzoli A, Melluso L, Morra V, Renne PR, Sgrosso I, D’Antonio M, Duarte Morais L, Morais EAA, Ricci G (1999b) Geochronology and petrology of Cretaceous basaltic magmatism in the Kwanza basin (western Angola), and relationships with the Paraná-Etendeka continental flood basalt province. J Geodyn 28:341–356.
    Matos RMD (1992) The northeast Brazilian rift system. Tectonics 11(4):766–791.
    Matos RMD (2000) Tectonic evolution of the Equatorial South Atlantic. In: Webster M, Talwani M (eds) Atlantic rifts and continental margins, American Geophysical Union, vol 115, pp 331–354
    Meade FC, Chew DM, Troll VR, Ellam RM, Page L (2009) Magma ascent along a major terrane boundary: crustal contamination and magma mixing at the Drumadoon intrusive complex, Isle of Arran, Scotland. J Petrol 50:2345–2374.
    Merle R, Marzoli A, Bertrand H, Reisberg L, Verati C, Zimmermann C, Chiaradia M, Belienni G, Ernesto M (2011) 40Ar/39Ar ages and Sr-Nd-Pb-Os geochemistry of CAMP tholeiites from Western Maranhão basin (NE Brazil). Lithos 122:137–151.
    Milner SC, Duncan AR, Whittingham AM, Ewart A (1995) Trans-atlantic correlation of eruptive sequences and individual silicic volcanic units within the Paraná-Etendeka igneous province. J Volcanol Geoth Res 69:137–157.
    Mincato RL (2000) Metalogenia dos elementos do grupo da Platina com base na estratigrafia e geoquímica da Província Ígnea Continental do Paraná. Ph.D. thesis, Universidade de Campinas, São Paulo, 172 pp
    Misusaki AMP, Thomaz-Filho A, Milani EJ, Césero P (2002) Mesozoic and Cenozoic igneous activity and its tectonic control in Northeastern Brazil. J S Am Earth Sci 15:183–198.
    Mocitaiba LSR, de Castro DL, Oliveira DC (2017) Cartografia geofísica regional do magmatismo mesozoico na Bacia do Parnaíba. Geologia USP Série Científica 17(2):169–192.
    Muirhead JD, Airoldi G, Rowland JV, White JDL (2012) Interconnected sills and inclined sheet intrusions control shallow magma transport in the Ferrar large igneous province, Antarctica. Geol Soc Am Bull 124(1/2):162–180.
    Nardy AJR, MAchado FB, Oliveira MAF (2008) As rochas vulcânicas mesozóicas ácidas da Bacia do Paraná: litoestratigrafia e considerações geoquímico-estratigráficas. Revista Brasileira de Geociências 38(1):178–195
    Ngonge ED, Hollanda MHBM, Archanjo CJ, Oliveira DC, Vasconcelos PMP, Muñoz PRM (2016a) Petrology of continental tholeiitic magmas forming a 350-km-long Mesozoic dike swarm in NE Brazil: constraints of geochemical and isotopic data. Lithos 258–259:228–252.
    Ngonge ED, Hollanda MHBM, Pimentel MM, Oliveira DC (2016b) Petrology of the alkaline rocks of the Macau Volcanic Field, NE Brazil. Lithos 206–207:453–470.
    Peate DW (1997) The Paraná-Etendeka province. In: Large igneous provinces: continental, oceanic and planetary flood volcanism. AGU Geophysical Monographs, vol 100, pp 217–245
    Peate DW, Hawkesworth CJ, Mantovani MSM (1992) Chemical stratigraphy of the Paraná lavas (South America): classification of magma types and their spatial distribution. Bull Volc 55:119–139
    Piccirillo EM, Melfi AJ (1988) The Mesozoic flood volcanism of the Paraná Basin: petrogenetic and geophysical aspects. Universidade de São Paulo, São Paulo, 600 pp
    Pollard DD, Müller OH, Dockstader DR (1975) The form and growth of fingered sheet intrusions. Geol Soc Am Bull 86(3):351–363
    Polteau S, Mazzini A, Galland O, Planke S, Malthe-Sørenssen A (2008) Saucer-shaped intrusions: occurrences, emplacement and implications. Earth Planet Sci Lett 266:195–204.
    Raposo MIB (2017) Magnetic fabrics of the Cretaceous dike swarms from São Paulo coastline (SE Brazil): its relationship with South Atlantic Ocean opening. Tectonophysics.
    Raposo MIB, Ernesto M, Renne PR (1998) Paleomagnetism and dating of the early Cretaceous Florianópolis dike swarm (Santa Catarina Island), Southern Brazil. Phys Earth Planet Inter 108:275–290.
    Renne PR, Ernesto M, Pacca IG, Coe RS, Glen JM, Prevot M, Perrin M (1992) The age of Paraná flood volcanism, rifting of Gondwanaland, and the Jurassic-Cretaceous boundary. Science 258:975–979.
    Renne PR, Deckart K, Ernesto M, Féraud G, Piccirillo EM (1996a) Age of the Ponta Grossa dike swarm (Brazil), and implications to Paraná flood volcanism. Earth Planet Sci Lett 144:199–211.
    Renne PR, Glen JM, Milner SC, Duncan AR (1996b) Age of Etendeka flood volcanism and associated intrusions in southwestern Africa. Geology 24:659–662.
    Renne PR, Sprain CJ, Richards MA, Self S, Vanderkluysen L, Pande K (2015) State shift in Deccan volcanism at the Cretaceous-Paleogene boundary, possibly induced by impact. Science 350(62556):76–78.
    Riisager P, Knight KB, Baker JA, Ukstins Peate I, Al-Kadasi M, Al-Subbary A, Renne PR (2005) Paleomagnetism and 40Ar/39Ar geochronology of Yemeni Oligocene volcanics: implications for timing and duration of Afro-Arabian traps and geometry of the Oligocene paleomagnetic field. Earth Planetary Sci Lett 237:647–672.
    Rocha-Júnior ERV, Putchel IS, Marques LS, Walker RJ, Machado FB, Nardy AJR, Babinski M, Figueiredo AMG (2012) Re-Os isotope and highly siderophile element systematics of the Paraná continental flood basalts (Brazil). Earth Planet Sci Lett 337–338:164–173.
    Rocha-Júnior ERV, Marques LS, Babinski M, Nardy AJR, Figueiredo AMG, Machado FB (2013) Sr–Nd–Pb isotopic constraints on the nature of the mantle sources involved in the genesis of the high-Ti tholeiites from northern Paraná Continental Flood Basalts (Brazil). J S Am Earth Sci 46:9–25.
    Santos EJ, Van Schmus WR, Kozuch M, Brito Neves BB (2010) The Cariris Velhos tectonic event in Northeast Brazil. J S Am Earth Sci 29:61–76.
    Santos EJ, Souza Neto JA, Silva MRR, Beurlen H, Cavalcanti JAD, da Silva MG, Dias VM, Costa AF, Santos LCML, Santos RB (2014) Metalogênese das porções norte e central da Província Borborema. In: Silva MG, Rocha Neto MB, Jost H, Kuyumijan RM (eds) Metalogênese das Províncias Tectônicas Brasileiras, pp 343–388
    Sénant J, Popoff M (1991) Early cretaceous extension in Northeast Brazil related to the South Atlantic opening. Tectonophysics 198:35–46.
    Schultz RA, Mège D, Diot H (2008) Emplacement conditions of igneous dikes in Ethiopian traps. J Volcanol Geoth Res 178:683–692.
    Sheth HC (2007) ‘Large Igneous Provinces (LIPs)’: definition, recommended terminology, and a hierarchical classification. Earth Sci Rev 85:117–124.
    Silva AG, Almeida CN, Valente SC, Almeida LFB (2017) The petrogenesis of tholeiitic diabases in eastern Parnaíba Basin: evidence for geochemical heterogeneities in the subcontinental lithospheric mantle in NE Brazil. Braz J Geol 47(1):109–126.
    Smith PE, Evensen NM, York D, Szatmari P, Oliveira DC (2001) Single crystal 40Ar-39Ar dating of pyrite: no fool’s clock. Geology 29:403–406.
    Svensen H, Corfu F, Polteau S, Hammer Ø, Planke S (2012) Rapid magma emplacement in the Karoo Large Igneous Province. Earth Planet Sci Lett 325–326:1–9.
    Thiede D, Vasconcelos PM (2010) Paraná flood basalts: rapid extrusion hypothesis confirmed by new 40Ar/39Ar results. Geology 38(8):747–750.
    Thompson RN, Gibson SA, Dickin AP, Smith PM (2001) Early cretaceous basalt and picrite dikes of the Southern Etendeka region, NW Namibia: windows into the role of the Tristan mantle plume in Paraná-Etendeka magmatism. J Petrol 42:2049–2081.
    Thomson K, Hutton D (2004) Geometry and growth of sill complexes: insights using 3D seismic from the North Rockall Trough. Bull Volc 66:364–375.
    Ukstins Peate I, Baker JA, Al-Kadasi M, Al-Subbary A, Knight KB, Riisager P, Thirlwall MF, Peate DW, Renne PR, Menzies MA (2005) Volcanic stratigraphy of large-volume silicic pyroclastic eruptions during Oligocene Afro-Arabian flood volcanism in Yemen. Bull Volc 68:135–156.
    Ussami N, Sá NC, Molina EC (1993) Gravity Map of Brazil II: regional and residual gravity anomalies and their a correlation with major tectonic provinces. J Geophys Res 98:2199–2208
    Van Schmus WR, Oliveira EP, Silva Filho AF, Toteu SF, Penaye J, Guimarães IP (2008) Proterozoic links between the Borborema Province, NE Brazil, and the Central African Fold Belt. In: Pankhurst RJ, Trouw RAJ, Brito Neves BB, De Wit MJ (eds) West Gondwana: pre-cenozoic correlations across the South Atlantic Region. Geological Society of London, Special Publications, vol 294, pp 69–99.
    Vauchez A, Neves S, Caby R, Corsini M, Egydio-Silva ME, Arthaud M, Amaro V (1995) The Borborema Province shear zone system. J S Am Earth Sci 8(3/4):247–266.
    Vaz PT, Rezende NGAM, Wanderley Filho JR, Travassos WAS (2007) Bacia do Parnaíba. Boletim de Geociências DA Petrobras 15(2):253–263
    Verati C, Bertrand H, Féraud G (2005) The farthest record of the Central Atlantic Magmatic Province into West Africa craton: Precise 40Ar/39Ar dating and geochemistry of Taoudenni basin intrusives (northern Mali). Earth Planet Sci Lett 235:391–407.
    Verati C, Rapaille C, Féraud G, Marzoli A, Bertrand H, Youbi N (2007) 40Ar/39Ar ages and duration of the Central Atlantic Magmatic Province volcanism in Morocco and Portugal and its relation to the Triassic-Jurassic boundary. Palaeogeogr Palaeoclimatol Palaeoecol 244(2007):308–325.
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