Slovenec, Damir, Šegvić, Branimir (2019) Boninite volcanic rocks from the mélange of NW Dinaric-Vardar ophiolite zone (Mt. Medvednica, Croatia) – record of Middle to Late Jurassic arc-forearc system in the Tethyan subduction factory. Mineralogy and Petrology, 113 (1) 17-37 doi:10.1007/s00710-018-0637-0
Reference Type | Journal (article/letter/editorial) | ||
---|---|---|---|
Title | Boninite volcanic rocks from the mélange of NW Dinaric-Vardar ophiolite zone (Mt. Medvednica, Croatia) – record of Middle to Late Jurassic arc-forearc system in the Tethyan subduction factory | ||
Journal | Mineralogy and Petrology | ||
Authors | Slovenec, Damir | Author | |
Šegvić, Branimir | Author | ||
Year | 2019 (February) | Volume | 113 |
Page(s) | 17-37 | Issue | 1 |
Publisher | Springer Science and Business Media LLC | ||
DOI | doi:10.1007/s00710-018-0637-0Search in ResearchGate | ||
Mindat Ref. ID | 17570 | Long-form Identifier | mindat:1:5:17570:6 |
GUID | ae9c2c67-e9af-46be-91dc-9e211e35754b | ||
Full Reference | Slovenec, Damir, Šegvić, Branimir (2019) Boninite volcanic rocks from the mélange of NW Dinaric-Vardar ophiolite zone (Mt. Medvednica, Croatia) – record of Middle to Late Jurassic arc-forearc system in the Tethyan subduction factory. Mineralogy and Petrology, 113 (1) 17-37 doi:10.1007/s00710-018-0637-0 | ||
Plain Text | Slovenec, Damir, Šegvić, Branimir (2019) Boninite volcanic rocks from the mélange of NW Dinaric-Vardar ophiolite zone (Mt. Medvednica, Croatia) – record of Middle to Late Jurassic arc-forearc system in the Tethyan subduction factory. Mineralogy and Petrology, 113 (1) 17-37 doi:10.1007/s00710-018-0637-0 | ||
In | (2019, February) Mineralogy and Petrology Vol. 113 (1) Springer Science and Business Media LLC |
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.
Babić LJ, Hochuli PA, Zupanić J (2002) The Jurassic ophiolitic mélange in the NE Dinarides: dating, internal structure and geotectonic implications. Eclogae Geol Helv 95:263–257 | |
Bach, Wolfgang, Peucker-Ehrenbrink, Bernhard, Hart, Stanley R., Blusztajn, Jerzy S. (2003) Geochemistry of hydrothermally altered oceanic crust: DSDP/ODP Hole 504B - Implications for seawater-crust exchange budgets and Sr- and Pb-isotopic evolution of the mantle. Geochemistry, Geophysics, Geosystems, 4 (3) doi:10.1029/2002gc000419 | |
Basch O (1981) Basic geological map of SFRJ 1:100.000. Sheet Ivanić Grad (L 38-81), Institut za geološka istraživanja Zagreb - Savezni geološki zavod Beograd (in Croatian) | |
Bébien J, Dimo-Lahitte A, Vergély P, Insergueix-Filippi D, Dupeyrat L (2000) Albanian ophiolites. I - Magmatic and metamorphic processes associated with the initiation of a subduction. Ofioliti 25:39–45 | |
Beccaluva L, Ohnenstetter D, Ohnenstetter M, Paupy M (1978) The Vourinos ophiolitic complex has been created in an island arc setting: petrographic and geochemical evidences. Ofioliti 3:62–63 | |
Beccaluva L, Piccardo GB, Serri G (1980) Petrology of northern Apennine ophiolites and comparision with other Tethyan ophiolites. In: Panayiotou A | |
(ed) Ophiolites, Proceedings of International Ophiolite Symposium, Cyprus 1979. Geological Survey Department, Nicosia, pp 314-331 | |
Beccaluva L, Di Girolamo P, Macciota G, Morra V (1983) Magma affinities and fractionation trends in opholites. Ofioliti 8:307–324 | |
Belak M, Pamić J, Kolar-Jurkovšek T, Pescaskay Z, Karan D (1995) Alpine low-grade regional metamorphic complex of Mt. Medvednica (northwestern Croatia). In: Vlahović I, Velić I, Šparica M (eds) Proceedings of 1st Croatian Geological Congress Opatija october 18-21, 1995, Institut za Geološka istraživanja, Zagreb, pp 67–70 (in Croatian) | |
Bloomer SH, Taylor B, MacLeod CJ, Stern RJ, Fryer P, Hawkins JW, Johnson L (1995) Early arc volcanism and the ophiolite problem: a perspective from drilling in the western Pacific. In Taylor B, Natland JH (eds) Active margins and marginal basins of the western Pacific. Am Geophys Un Geophys Monog 88:1–30 | |
Bortolotti V, Chiari M, Marcucci M, Marroni M, Pandolfi L, Principi G, Saccani E (2004) Comparison among the Albanian and Greek ophiolites, in search of constraints for the evolution of the Mesozoic Tethys ocean. Ofioliti 29:19–35 | |
Bortolotti, Valerio, Chiari, Marco, Marroni, Michele, Pandolfi, Luca, Principi, Gianfranco, Saccani, Emilio (2013) Geodynamic evolution of ophiolites from Albania and Greece (Dinaric-Hellenic belt): one, two, or more oceanic basins?. International Journal of Earth Sciences, 102 (3) 783-811 doi:10.1007/s00531-012-0835-7 | |
Crawford AJ, Falloon A, Green DH (1989) Classification, petrogenesis and tectonic setting of boninites. In: Crawford AJ (ed) Boninites and related rocks. Unwin Hyman, London, pp 1–49 | |
Escrig, S., Bézos, A., Langmuir, C. H., Michael, P. J., Arculus, R. (2012) Characterizing the effect of mantle source, subduction input and melting in the Fonualei Spreading Center, Lau Basin: Constraints on the origin of the boninitic signature of the back-arc lavas. Geochemistry, Geophysics, Geosystems, 13 (10) doi:10.1029/2012gc004130 | |
FALLOON, T. J. (2000) Melting of Refractory Mantle at 1middle dot5, 2 and 2middle dot5 GPa under Anhydrous and H2O-undersaturated Conditions: Implications for the Petrogenesis of High-Ca Boninites and the Influence of Subduction Components on Mantle Melting. Journal of Petrology, 41 (2) 257-283 doi:10.1093/petrology/41.2.257 | |
Halamić J (1998) Lithostratigraphy of Jurassic and Cretaceous sediments with ophiolites from the Mts. Medvednica, Kalnik and Ivanščica. Dissertation, University of Zagreb, 188 pp (in Croatian, English summary) | |
Hawkins JW (2003) Geology of suprasubduction zones – implications for the origin of ophiolites. In: Dilek Y, Newcomb S (eds) Ophiolite concept and the evolution of geological thought, Geol S Am S, vol 373. Boulder, Colorado, pp 227–268 | |
Karpenko SF, Sharaskin AY, Balashov YA, Lyalikov AV, Spiridonov VG (1985) Isotopic and geochemical criteria for the origin of boninites: Geochem Int+ 22:1–12 | |
Kostoeoulos DK, Murton BJ (1992) Origin and distribution of components in boninite genesis: significance of the OIB component. In: Parson LM, Murton BJ, Browning P (eds) Ophiolites and their modern oceanic analogues. Geol Soc Spec Publ, vol 60. Geol Soc London, London, pp 133–154 | |
Lindsley DH (1983) Pyroxene thermometry. Am Mineral 68:477–493 | |
Lugović B, Šegvić B, Altherr R (2006) Petrology and tectonic significance of greenschists from the Medvednica Mts. (Sava Unit, NW Croatia). Ofioliti 31:39–50 | |
Lugović B, Slovenec D, Halamić J, Altherr R (2007) Petrology, geochemistry and geotectonic affinity of the Mesozoic ultramafic rocks from the southwesternmost mid-Transdanubian zone in Croatia. Geol Carpath 58:511–530 | |
Lugović, Boško, Slovenec, Damir, Schuster, Ralf, Schwarz, Winfried H., Horvat, Marija (2015) Petrology, geochemistry and tectono-magmatic affinity of gabbroic olistoliths from the ophiolite mélange in the NW Dinaric-Vardar ophiolite zone (Mts. Kalnik and Ivanščica, North Croatia) Geologia Croatica, 58 (1) 25-49 doi:10.4154/gc.2015.03 | |
Marroni M, Pandolfi L, Saccani E, Zelić M (2004) Boninites from the Kopaonik area (southern Serbia): new evidences for suprasubduction ophiolites in the Vardar zone. Ofioliti 29:251–254 | |
Meijer A (1980) Primitive arc volcanism and boninite series: examples from western Pacific island arcs. In: Hayes DE (ed) Tectonic and geologic evolution of southwest Asian seas and islands. Am Geophys Union Monogr 23, pp 269–282 | |
Morimoto N (1988) Nomenclature of pyroxenes. Schweiz Miner Petrog 68:95–111 | |
Not Yet Imported: Proceedings of the Ocean Drilling Program, 125 Scientific Results - book-chapter : 10.2973/odp.proc.sr.125.133.1992 If you would like this item imported into the Digital Library, please contact us quoting Journal ID | |
Ohnenstetter D, Brown WL (1996) Boninites: a review. In: Demaiffe D (ed) Petrology and geochemistry of magmatic suites of rocks in continental and oceanic crust. A volume dedicated to professor Jean Michot, Universite Libre de Bruxell. Royal museum for Central Africa, Tervuren, pp 307–320 | |
Pamić J (2002) The Vardar zone of the Dinarides and Hellenides versus the Vardar Ocean. Eclogae Geol Helv 95:99–113 | |
Pamić J, Tomljenović B (1998) Basic geological data on the Croatian part of the mid-Transdanubian zone as exemplified by Mt. Medvednica located along the Zagreb-Zemplen fault zone. Acta Geol Hung 41:389–400 | |
Pearce JA (1982) Trace element characteristics of lavas from destructive plate boundaries. In: Thorpe RS (ed) Andesites. Wiley, Chichester, pp 525–548 | |
Pearce JA (1983) Role of the sub-continental lithosphere in magma genesis at active continental margins. In: Hawkesworth CJ, Norry MJ (eds) Continental basalts and mantle xenoliths. Shiva, Nantwich, pp 230–249 | |
Pearce JA, Thirlwall ME, Ingram G, Murton BJ, Arculus RJ, Van der Laan SR (1992) Isotopic evidence for the origin of boninites and related rocks drilled in the Izu-Bonin (Ogasawara) forearc, leg 125. In: Fryer P, Pearce JA, Stokking LB et al. Proceedings of the Ocean Drilling Program, Scientific Results 125, pp 237–261 | |
Pouchou JL, Pichoir F (1984) A new model for quantitative analyses. I. Application to the analysis of homogeneous samples. Rech Aérospatiale 3:13–38 | |
Pouchou JL, Pichoir F (1985) “PAP” (φ-ρ-Z) correction procedure for improved quantitative microanalysis. In: Armstrong JT (ed) Microbeam Analysis. San Francisco Press, San Francisco, pp 104–106 | |
Resing, Joseph A., Rubin, Kenneth H., Embley, Robert W., Lupton, John E., Baker, Edward T., Dziak, Robert P., Baumberger, Tamara, Lilley, Marvin D., Huber, Julie A., Shank, Timothy M., Butterfield, David A., Clague, David A., Keller, Nicole S., Merle, Susan G., Buck, Nathaniel J., Michael, Peter J., Soule, Adam, Caress, David W., Walker, Sharon L., Davis, Richard, Cowen, James P., Reysenbach, Anna-Louise, Thomas, Hans (2011) Active submarine eruption of boninite in the northeastern Lau Basin. Nature Geoscience, 4 (11) 799-806 doi:10.1038/ngeo1275 | |
Saccani E, Tassinari R (2015) The role of MORB and SSZ magma-types in the formation of Jurassic ultramafic cumulates in the Mirdita ophiolites (Albania) as deduced from chromian spinel and olivine chemistry. Ofioliti 40:37–56 | |
Saccani E, Photiades A, Santato A, Zeda O (2008) New evidence for supra-subduction zone ophiolites in the Vardar zone from the Vermion massif (northern Greece): implication for the tectono-magmatic evolution of the Vardar oceanic basin. Ofioliti 33:17–37 | |
Saccani, Emilio, Beccaluva, Luigi, Photiades, Adonis, Zeda, Ottavia (2011) Petrogenesis and tectono-magmatic significance of basalts and mantle peridotites from the Albanian–Greek ophiolites and sub-ophiolitic mélanges. New constraints for the Triassic–Jurassic evolution of the Neo-Tethys in the Dinaride sector. Lithos, 124 (3) 227-242 doi:10.1016/j.lithos.2010.10.009 | |
Saccani E, Dilek Y, Photiades A (2017) Time-progressive mantle-melt evolution and magma production in a Tethyan marginal sea: A case study of the Albanide-Hellenide ophiolites. Lithosphere 10(1):35–53 | |
Saunders AD, Tarney J, Marsh NG, Wood DA (1979) Ophiolites as ocean crust or marginal basin crust: a geochemical approach. In: Panayiotou A (ed) International ophiolite symposium. Ministry of Agriculture and Natural Resources, Geological Survey Department, Nicosia, pp 193–204 | |
Schmid, Stefan M., Bernoulli, Daniel, Fügenschuh, Bernhard, Matenco, Liviu, Schefer, Senecio, Schuster, Ralf, Tischler, Matthias, Ustaszewski, Kamil (2008) The Alpine-Carpathian-Dinaridic orogenic system: correlation and evolution of tectonic units. Swiss Journal of Geosciences, 101 (1). 139-183 doi:10.1007/s00015-008-1247-3 | |
Šegvić B, Kukoč D, Dragičević I, Vranjković A, Brčić V, Goričan Š, Babajić E, Hrvatović H (2014) New record of middle Jurassic radiolarians and evidence of Neotethyan dynamics documented in a mélange from the central Dinaridic Ophiolite Belt (CDOB, NE Bosnia and Herzegovina). Ofioliti 39:33–43 | |
Šegvić B, Lugović B, Slovenec D, Meyer H-P (2016) Mineralogy, petrology and geochemistry of amphibolites from the Kalnik Mt. (Sava unit, North Croatia): implications for the evolution of north-westernmost part of the Dinaric-Vardar branch of Mesozioc Tethys. Ofioliti 41:35–58 | |
Shervais JW (2001) Birth, dead, and resurrection: the life cycle of supra-subduction zone ophiolites. Geochem Geophy Geosy 2:2000GC000080 | |
Šikić K, Basch O, Šimunić A (1978) Basic geological map of SFRJ 1:100.000. Sheet Zagreb (L 38-80), Institut za geološka istraživanja Zagreb - Savezni geološki zavod Beograd (in Croatian) | |
Slovenec D, Lugović B (2008) Amphibole gabbroic rocks from the Mt. Medvednica ophiolite mélange (NW Croatia): geochemistry and tectonic setting. Geol Carpath 59:277–293 | |
Slovenec D, Lugović B (2009) Geochemistry and tectono-magmatic affinity of extrusive and dyke rocks from the ophiolite mélange in the SW Zagorje-mid-Transdanubian zone (Mt. Medvednica, Croatia). Ofioliti 34:63–80 | |
Slovenec, Damir, Lugović, Boško (2012) Evidence of the spreading culmination in the Eastern Tethyan Repno oceanic domain, assessed by the petrology and geochemistry of N-MORB extrusive rocks from the Mt. Medvednica ophiolite mélange (NW Croatia) Geologia Croatica, 65 (3) 435-446 doi:10.4154/gc.2012.32 | |
Slovenec D, Pamić J (2002) The Vardar zone ophiolites of Mt. Medvednica located along the Zagreb-Zemplin line (NW Croatia). Geol Carpath 53:53–59 | |
Slovenec D, Lugović B, Meyer HP, Garapić-Šiftar G (2011) A tectono-magmatic correlation of basaltic rocks from ophiolite mélanges at the north-eastern tip of the Sava-Vardar suture zone, northern Croatia, constrained by geochemistry and petrology. Ofioliti 36:77–100 | |
Stampfli GM, Borel GD, Marchant R, Mosar J (2002) Western Alps geological constraints onwestern Tethyan reconstructions. In: Rosenbaum G, Lister GS (eds) Reconstruction of the evolution of the alpine-Himalayan Orogen. J Virtual Explorer 7, pp 75–104 | |
Stevens RE (1944) Composition of some chromites of the western hemisphere. Am Mineral 29:1–34 | |
Tatsumi Y, Eggins S (1995) Subduction zone magmatism. Blackwell Science, London 211 pp | |
Taylor SR, McLennan SM (1985) The continental crust: its composition and evolution. Blackwell, Oxford 312 pp | |
Topuz G, Celık FÖ, Sengör AM, Altintas E, Zack T, Rolland Y, Barth M (2013) Jurassic ophiolite formation and emplacement as backstop to a subduction-accretion complex in Northeast Turkey, the Refahıye ophiolite, and relation to the Balkan ophiolites. Int J Earth Sci 313:1054–1087 | |
Umino S, Kushiro I (1989) Experimental studies on boninite petrogenesis. In: Crawford AJ (ed) Boninite and related rocks. Unwin Hyman, London, pp 89–111 | |
Van der Laan SR, Flower MFJ, Koster van Groos AF (1989) Experimental evidence for the origin of boninites; near-liquideus phase relations to 7.5 kbar. In: Crawford AJ (ed) Boninites. Klower Academic Publischer, Dorchecht, pp 112–147 | |
Wass SY (1979) Multiple origins of clinopyroxenes in alcalic basaltic rocks. Lithos 12:116–132 | |
Winter J (2001) An introduction to igneous and metamorphic petrology. Prentice Hall | |
Wood, David A. (1980) The application of a ThHfTa diagram to problems of tectonomagmatic classification and to establishing the nature of crustal contamination of basaltic lavas of the British Tertiary Volcanic Province. Earth and Planetary Science Letters, 50 (1) 11-30 doi:10.1016/0012-821x(80)90116-8 | |
See Also
These are possibly similar items as determined by title/reference text matching only.