Trace element and isotope (Sr, Nd) geochemistry of porphyry- and skarn-mineralising Late Cretaceous intrusions from Banat, western South Carpathians, Romania
Banat; Late Cretaceous; geochemistry; fractional crystallisation; mineralisation
Abstract :
[en] Geochemical and isotopic (strontium, neodymium) data have been obtained from 24 samples of seven Late Cretaceous intrusions associated with skarn (Tincova, Bocsa, Ocna de Fier - Dognecea) and porphyry copper-molybdenum/skarn deposits (Oravita, Ciclova, Sasca and Moldova Noua) in the South Carpathians of Romania. The intrusions cut the Supragetic-Getic nappes and form a 100-km-long, NNE-SSW-trending lineament in the Banat metallogenic province. The samples range in composition from gabbro to granodiorite and define, in major and trace element variation diagrams, a calc-alkaline to high-potassium calc-alkaline trend ranging from 50 to 67% SiO2. They are magnetite-bearing, I-type granitoids enriched in LILE/LREE and depleted in Nb, Ta and Zr, common features for magmas associated with subduction zones. The lack of cumulate textures and of positive europium anomalies seems to indicate that the samples represent liquid compositions. The observed trend thus approximates a liquid line of descent resulting from fractional crystallisation of parental magmas with similar major and trace element compositions. Initial strontium isotopic ratios (Sr-i) vary from 0.7042 to 0.7058 and epsilon(Nd(t)) values range from + 3.9 to -0.2. Variations of Sri and epsilon(Nd(t)) values with SiO2 show minor crustal assimilation. The generally positive epsilon(Nd(t)) values, together with moderate Sri, indicate that the parental magmas result from partial melting of a rubidium-enriched and LREE-depleted source, such as a heterogeneous lithospheric mantle or a young mafic lower crust derived from it. Selective rubidium enrichment probably occurred during a previous subduction event by metasomatism of the overlying mantle wedge, either in the Early Cretaceous or earlier, as suggested by T-DM model ages (ca. 600 Ma). The Cu-Mo(-Pb-Zn-Fe) deposits are intimately associated with the intrusions, and the Banat (Romania) region can be subdivided in two metallogenic zones. In northern Banat, Fe-Cu-Pb-Zn skarns occur whereas in southern Banat, porphyry-style copper and molybdenum deposits predominate. These differences result from a combination of several parameters: (1) magma composition, whereby copper- and molybdenum-rich deposits tend to be associated with calc-alkaline compositions; (2) an increase of the present-day erosion level, from south to north, as indicated by the presence of large equigranular plutons in northern Banat, and of porphyritic cupolas and apophyses associated with porphyry-style mineralisation in southern Banat; (3) the nature of the host rocks, with skarns preferentially developed in calcareous host rocks; and (4) local variations of conditions controlling the infiltration of fluids and the precipitation of ore minerals.
Disciplines :
Earth sciences & physical geography
Author, co-author :
Dupont, Alain
Vander Auwera, Jacqueline ; Université de Liège - ULiège > Département de géologie > Pétrologie et géochimie endogènes
Pin, Christian
Marincea, Stefan
Berza, Tudor
Language :
English
Title :
Trace element and isotope (Sr, Nd) geochemistry of porphyry- and skarn-mineralising Late Cretaceous intrusions from Banat, western South Carpathians, Romania
Publication date :
August 2002
Journal title :
Mineralium Deposita
ISSN :
0026-4598
eISSN :
1432-1866
Publisher :
Springer-Verlag, New York, United States - New York
Andrei J., Cioflica G., Calota C., Jude R., Lupulescu M. (1988) The structural model of banatitic magmatites in the Tincova area (Poiana Rusca Mts.) and its metallogenetic implications. Rev Roum Géol Géophys Géogr Géol 32:45-54.
Arsovski M., Dumurdžanov N. (1995) Alpine tectonic evolution of the Vardar zone and its place in the Balkan region. Geol Maced 9:15-22.
Berza T. (1997) A hundred years of tectonic studies in South Carpathians: The state of the art. Geology of Djerdap Area , Grubić A, Berza T (eds) Geoinstitute Belgrade; 271-276.
Berza T. (1999) Tectonic setting of the Late Cretaceous Volcano-Plutonic Belt from Carpathians to Balkans. EUG X. J Conf Abstr 4:469.
Berza T., Constantinescu E., Vlad Ş.-N. Resour Geol 1998, 48(4):291-306.
von Blanckenburg F., Davies J.H. (1995) Slab breakoff: A model for syncollisional magmatism and tectonics in the Alps. Tectonics 14(1):120-131.
Boccaletti M., Manetti P., Peccerillo A. (1974) The Balkanids as an instance of Back-Arc Thrust Belt: Possible relation with the Hellenids. Geol Soc Am Bull 85:1077-1084.
Boccaletti M., Manetti P., Peccerillo A., Stanisheva-Vassilieva G. (1978) Late Cretaceous high-potassium volcanism in eastern Srednogorie, Bulgaria. Geol Soc Am Bull 89:439-447.
Bologne G., Duchesne J.-C. (1991) X-ray fluorescence spectrometry analyses of silicate rocks: Precision and exactitude (in French). Serv Géol Belg Prof Pap 249:1-11.
Brown G.C. (1981) Space and time in granite plutonism. Philos Trans R Soc Lond Ser A 301:321-336.
Burchfiel B.C. (1980) Eastern European alpine system and the Carpathian orocline as an example of collision tectonics. Tectonophysics 63:31-61.
Chappell B.W., White A.J.R. (1974) Two contrasting granite types. Pac Geol 8:173-174.
Ciobanu C.L., Cook N.J., Stein H. (2002) Regional setting and geochronology of the Upper Cretaceous Banatitic Magmatic and Metallogenetic Belt. Miner Deposita, (in press). DOI 10.1007/s00126-002-0272-9; .
Cioflica G. (1989) Copper mineralisation related to Upper Cretaceous-Paleogene magmatites in Romania. Rev Roum Géol Géophys Géogr Géol 33:13-24.
Cioflica G., Jude R., Lupulescu M., Ducea M. (1996) Lower crustal origin of the Late Cretaceous-Eocene arc magmatism in the western part of the South Carpathians, Romania. Terranes of Serbia , Knežević V, Krstié B (eds) University of Belgrade; 103-107.
Cioflica G., Jude R., Lupulescu M. (1997) Late Cretaceous-Eocene arc magmatism related porphyry-type deposits in Romania. Rev Roum Géol Géophys Géogr Géol 41:3-18.
Codarcea A. (1931) Geological and petrographical study of the Ocna de Fier-Bocşa Montanǎ area (Banat, Roumanie) (in Romanian). An Inst Geol Rom 15:261-424.
Constantinescu E. Mineralogy and Genesis of the Sasca Montanǎ Skarn Deposit (in Romanian), RS România, Bucharest; 1980.
Cook N., Ciobanu C. (2001) Paragenesis of copper-iron ores from Ocna de Fier - Dognecea (Romania), typifying fluid plume mineralization in a proximal skarn setting. Mineral Mag 65(3):351-372.
von Cotta B. About Eruptive Rocks and Ore Deposits from Banat and Serbia (in German), V Braunmüller, Vienna; 1864.
Debon F., Lefort P. (1983) A chemical-mineralogical classification of common plutonic rocks and associations. Trans R Soc Edinb Earth Sci 73:135-149.
De Paolo D.J. (1981) Neodymium isotopes in the Colorado Front Range and crust-mantle evolution in the Proterozoic. Nature 291:193-196.
De Paolo D.J., Wasserburg G.J. (1976) Inferences about magma sources and mantle structure from variations of 143Nd/144Nd. Geophys Res Lett 3:743-746.
Divljan M., Karamata S. (1967) Eruptive rocks from the Ridanj-Krepoljin zone. Cretaceous-Tertiary Magmatic Rocks from Yugoslav Carpatho-Balkanides (in French) , Acta. Geol Acad Sci Hung; 11(1-2):131-135.
Djordjević M., Banješević M., Ralević B., Miliǐć M. (1997) Mesozoic magmatism of Djerdap Area. Geology of Djerdap Area , Grubić A, Berza T (eds) Geoinstitut Belgrade; 121-128.
Drovenik M., Djordjević M., Antonijević I., Mičić I. (1967) Magmatic rocks from the Timok eruptive area (in French). Cretaceous-Tertiary Magmatic Rocks from Yugoslav Carpatho-Balkanides , Acta Geol Acad Sci Hung; 11(1-3):115-129.
Gheorgita I. (1975) Mineralogical and petrographical study of the Moldova Nouǎ region (Suvorov-Valea Mare area) (in Romanian). St Tehn Econ Inst Geol Geof. Bucharest 1(11):1-188.
Gheorgiţescu D. (1975) Mineralogical and geochemical study of a thermal contact and metasomatic formation from Oraviţa (Cosoviţa) (in Romanian). DS Inst Geol Geof 61(1):59-103.
Ghiorso M.S., Sack R.O. (1995) Chemical mass-transfer in magmatic processes. IV. A revised and internally consistent thermodynamic model for the interpolation and extrapolation of liquid-solid equilibria in magmatic systems at elevated temperatures and pressures. Contrib Mineral Petrol 119:197-212.
Grubić A. (1974) Eastern Serbia in the light of the new global tectonics: Consequences of this model for the interpretation of the tectonics of the Northern Branch of the Alpides. Metallogeny and Concepts of the Geotectonic Development of Yugoslavia , Karamata S (ed) Geoinstitut Belgrade; 179-212.
Hildreth W., Moorbath S. (1988) Crustal contributions to arc magmatism in the Andes of Central Chile. Contrib Mineral Petrol 98:455-489.
Holland T., Blundy J. (1994) Non-ideal interactions in calcic amphiboles and their bearing on amphibole-plagioclase thermometry. Contrib Mineral Petrol 116:433-447.
Iancu V. (1985) Lower Supragetic nappes of the Banat, Moniom-Dognecea zone. DS Inst Geol Geof 69(5):31-36.
Iancu V. (1986) Supragetic and Infragetic structural units of western South Carpathians (in French). DS Inst Geol Geof 70-71(5):109-127.
Ilinca G., Marincea Ş., Russo-Sǎndulescu D., Iancu V., Seghedi I. (1993) Mineral occurrences in south-western Banat, Romania. Rom J Mineral 76(2):1-40.
Irvine T.N., Baragar W.R.A. (1971) A guide to the chemical classification of the common volcanic rocks. Can J Earth Sci 8:523-548.
Ishihara S. (1977) The magnetite-series and ilmenite-series granitic rocks. Mining Geol 27:293-305.
Jacobsen S.B., Wasserburg G.J. (1980) Sm-Nd evolution of chondrites. Earth Planet Sci Lett 50:139-155.
Janković S. (1997) The Carpatho-Balkanides and adjacent area: A sector of the Tethyan Eurasian metallogenetic belt. Miner Deposita 32:426-433.
Karamata S., Knežević V., Pećskay Z., Djordjević M. (1997) Magmatism and metallogeny of the Ridanj-Krepoljin belt (eastern Serbia) and their correlation with northern and eastern analogues. Miner Deposita 32:452-458.
Karamata S., Krstić B., Dimitrijević D., Dimitrijević M.N., Kneževicć V., Stojanov R., Filipović I. (1997) Terranes between the Moesian plate and the Adriatic Sea. Paleozoic Geodynamic Domains and their Alpidic Evolution in the Tethys , Papanikolau DJ, Ebner F (eds) IGCP Project No 276. Ann Géol Pays Helléniques, Athens, lère Sér; 27:429-478.
Kräutner H.G. (1997) Alpine and pre-alpine terranes in the Romanian Carpathians and Apuseni Mts. Paleozoic Geodynamic Domains and their Alpidic Evolution in the Tethys , Papanikolau DJ, Ebner F (eds) IGCP Project No 276. Ann Géol Pays Helléniques. Athens, lère Sér; 27:331-400.
Liégeois J.P., Black R. (1987) Alkaline magmatism subsequent to collision in the Pan-African belt of the Adrar des Iforas (Mali). Alkaline Igneous Rocks , Fitton JG, Upton BGJ (eds) Geol Soc Spec Publ; 30:381-401.
Liégeois J.P., Berza T., Tatu M., Duchesne J.-C. (1996) The Neoproterozoic Pan-African basement from the Alpine Lower Danubian nappe system (South Carpathians, Romania). Precambrian Res 80:281-301.
Liégeois J.P., Navez J., Hertogen J., Black R. (1998) Contrasting origin of post-collisional high-K calc-alkaline and shoshonitic versus alkaline and peralkaline granitoids. The use of sliding normalization. Lithos 45:1-28.
Marincea Ş., Dumitras D. (2001) Mineralogical data on three endoskarn zones of the high-temperature banatitic skarns from Romania. Rom J Miner Deposits 79(2):66-67.
Nicolescu S., Cornell D.H. (1999) P-T conditions during skarn formation in the Ocna de Fier ore district, Romania. Miner Deposita 34:730-742.
Nicolescu S., Cornell D.H., Bojar A.-V. (1999) Age and tectonic setting of Bocşa and Ocna de Fier-Dognecea granodiorites (southwest Romania) and of associated skarn mineralisation. Miner Deposita 34:743-753.
O'Nions R.K., Hamilton P.J., Evensen N.M. (1977) Variations in 143Nd/144Nd and 87Sr/86Sr ratios in oceanic basalts. Earth Planet Sci Lett 34:13-22.
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.
Pin C., Bassin C. (1992) Evaluation of a strontium-specific extraction chromatographic method for isotopic analysis in geological materials. Anal Chim Acta 269:249-255.
Pin C., Santos Zalduegui J.F. (1997) Sequential separation of light rare-earth elements, thorium and uranium by miniaturized extraction chromatography: Application to isotopic analyses of silicate rocks. Anal Chim Acta 339:79-89.
Popov P.N. (1981) Magmatectonic features of the Banat-Srednogorie Belt. Geol Balcanica 11(2):43-72.
Popov P.N. (1987) Tectonics of the Banat-Srednogorie Rift. Tectonophysics 143:209-216.
Popov P.N. (1996) Characteristic features of the Banat-Srednogorie metallogenic zone. Plate tectonic aspects of the Alpine Metallogeny in the Carpatho-Balkan region , IGCP Proj No 356 Annu Meet. Sofia 1996; (1):137-154.
Rǎdulescu D.P., Sǎndulescu M. (1973) The plate tectonics concept and the geological structure of the Carpathians. Tectonophysics 16:155-161.
Ratschbacher L., Linzer H.-G., Moser F., Strusievicz R.-O., Bedelean H., Har N., Mogos P.-A. (1993) Cretaceous to Miocene thrusting and wrenching along the Central South Carpathians due to a corner effect during collision and orocline formation. Tectonics 12(4):855-873.
Rickwood P.C. (1989) Boundary lines within petrologic diagrams which use oxides of major and minor elements. Lithos 22:247-263.
Roberts M.P., Clemens J.D. (1993) Origin of high-potassium, calcalkaline, l-type granitoids. Geology 21:825-828.
Russo-Sǎndulescu D., Berza T. (1979) Banatites from the western part of the southern Carpathians (Banat). Rev Roum Géol Géophys Géogr Géol 23(2):149-158.
Russo-Sǎndulescu D., Berza T., Bratosin I., Ianc R. (1978) Petrological study of the Bocşa banatitic massif (Banat). DS Inst Geol Geof 64:105-172.
Russo-Sǎndulescu D., Vajdea E., Tanasescu A. (1984) Neocretaceous-Palaeogene subduction igneous rocks in the romanian Carpathians - Mutual relationships, succession and areal distribution. DS Inst Geol Geof 64:111-119.
Russo-Sǎndulescu D., Bratosin I., Vlad C., Ianc R. (1986) Petrochemical study of the Surduc banatitic magmatites (Banat). DS Inst Geol Geof 70-71:97-121.
Russo-Sǎndulescu D., Berza T., Bratosin I., Vlad C., Ianc R. (1986) Petrological study of banatites in the Ocna de Fier - Dognecea zone (Banat). DS Inst Geol Geof 70-71(1):123-142.
Russo-Sǎndulescu D., Vajdea E., Tanasescu A. (1986) Significance of K-Ar radiometric ages obtained in the banatitic plutonic area of Banat. DS Inst Geol Geof 70-71:405-417.
Sǎndulescu M. (1994) Overview on Romanian geology. ALCAPA II Field Guideb South Carpathians and Apuseni Mountains , Rom J Tectonics Reg Geol; 75(2):3-15.
Sǎndulescu M., Visarion M. (2000) Crustal structure and evolution of the Carpathian-Western Black Sea areas. First Break 18(3):103-108.
Savu H., Udrescu C., Lemne M., Romanescu O., Stoian M., Neacsu V. (1987) Island-arc volcanics related to the wildflysch on the outer margin of the Danubian Autochton (southern Carpathians) and their geotectonic implications. Rev Roum Géol Géophys Géogr , Géol; 31:19-27.
Schmid S.M., Berza T., Diaconescu V., Froitzheim N., Fügenschuh B. (1998) Orogen-parallel extension in the southern Carpathians. Tectonophysics 297:209-228.
Schmidt M.W. (1992) Amphibole composition in tonalites as a function of pressure : An experimental calibration of the Al-inhornblende barometer. Contrib Mineral Petrol 110:304-310.
Soroiu M., Catilina R., Strutinski C. (1986) K-Ar ages on some igneous rocks from the south-western end of the South Carpathians (Banat Hills). Rev Roum Phys 31(8):849-854.
Ştefan A., Roşu E., Andǎr A., Robu L., Robu N., Bratosin I., Grabari G., Stoian M., Vâjdea E., Colios E. (1992) Petrological and geochemical features of banatitic magmatites in northern Apuseni Mountains. Rom J Petrol 75:97-115.
Ştefǎnescu M. Geological Cross-section at Scale 1:200,000 Across Romania, AB, Geological and Geophysical Institute, Bucharest; 1988.
Steiger R.H., Jäger E. (1977) Subcommission on geochronology: Convention on the use of decay constants in geo- and cosmochronology. Earth Planet Sci Lett 36:359-362.
Strutinski C., Catilina R., Soroiu M., Todros C., Paica M. (1986) Potassium-argon geochronology of the Alpine igneous activity within the south-western corner of the Poiana Ruscǎ massif (South Carpathians, Romania). Proc Geoinst Belgrade 19:107-121.
Sun S.S., McDonough W.F. (1989) Chemical and isotopic systematics of oceanic basalts: Implications for mantle composition and processes. Magmatism in Ocean Basins , Saunders AD, Norry MJ (eds) Geol Soc Lond Spec Publ; 42:313-345.
Toplis M.J., Carroll M.R. (1996) Differentiation of ferro-basaltic magmas under conditions open and closed to oxygen: Implications for the Skaergaard intrusion and other natural systems. J Petrol 37:837-858.
Vander Auwera J., Longhi J., Duchesne J.-C. (1998) A liquid line of descent of the Jotunite (Hypersthene Monzodiorite) Suite. J Petrol 39(3):439-468.
Vander Auwera J., Bologne G., Roelands I., Duchesne J.-C. (1998) Inductively coupled plasma mass spectrometry (ICP-MS) analysis of silicate rocks and minerals. Geol Belg 1:1-10.
Vassiliev L., Stanisheva-Vassilieva G. (1981) Metallogeny of the Eurasian copper belt: Sector Bulgaria. Geol Balcanica 11(2):73-87.
Whalen J.B., Currie K.L., Chappell B.W. (1987) A-type granites: Geochemical characteristics, discrimination and petrogenesis. Contrib Mineral Petrol 95:407-419.
Willingshofer E. Extension in Collisional Orogenic Belts: The Late Cretaceous Evolution of the Alps and Carpathians, PhD Thesis, Faculty of Earth Sciences, Vrije Universiteit Amsterdam; 2000.
Wones D.R. (1989) Significance of the assemblage titanite + magnetite + quartz in granitic rocks. Am Mineral 74:744-749.
