Anexa
A1.3.
Lucrarea Demetrescu C, Nielsen SB, Ene M, Serban DZ, Polonic G, Andreescu M, Pop A, Balling N, Lithosphere thermal structure and evolution of the Transylvanian Depression - insights from new geothermal measurements and modelling results , PHYSICS OF THE EARTH AND PLANETARY INTERIORS 126 (3-4): 249-267 NOV 2001 este citata de:
Lucrarea Andreescu M, Nielsen SB, Polonic G, Demetrescu C, Ene M, Thermal budget of the Transylvanian lithosphere. Reasons for a low surface heat-flux anomaly in a Neogene intra-Carpathian basin , GEOPHYSICAL JOURNAL INTERNATIONAL 150 (2): 494-505 AUG 2002 este citata de:
Lucrarea Serban DZ, Nielsen SB, Demetrescu C., Transylvanian heat flow in the presence of topography, paleoclimate and groundwater flow , TECTONOPHYSICS 335 (3-4): 331-344 JUL 10 2001 este citata de:
Lucrarea Serban DZ, Nielsen SB, Demetrescu
C., Long
wavelength ground surface temperature history from continuous temperature logs
in the Transylvanian Basin
GLOBAL AND PLANETARY CHANGE 29 (3-4): 201-217 JUN 2001 este citata de:
Lucrarea Andreescu M, Demetrescu C., Rheological implications of the thermal structure of the lithosphere in the convergence zone of the Eastern Carpathians JOURNAL OF GEODYNAMICS 31 (4): 373-391 MAY 2001 este citata de:
1.
Hauser, F., Raileanu, V., Fielitz, W., Dinu, C., Landes, M., Bala, A. Prodehl C. (2007) Seismic crustal structure between the Transylvanian
Basin and the Black Sea, Romania. TECTONOPHYSICS 430, 1–25
Lucrarea
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2.
Grachev AF. 2003. Final
volcanism in Europe and its geodynamic implications
IZVESTIYA-PHYSICS OF THE SOLID EARTH 39 (8): 618-652
Lucrarea Seghedi
I., Szakacs A., Mason P.R.D. (1995) Petrogenesis and magmatic evolution in the
East Carpathian Neogene volcanic arc (Romania). Acta Vulcanologica, 7 (2),
135-143 a fost citata de:
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Papp, D. C. and E. Niţoi (2006) Isotopic
composition and origin of mineral and geothermal waters from Tuşnad Bai Spa, Harghita
Mountains, Romania. JOURNAL OF GEOCHEMICAL EXPLORATIONS, 89,
314-317
Lucrarea Downes H., Seghedi I., Szakacs A., Dobosi
G., James D.E., Vaselli O., Rigby I.J., Ingram J.A., Rex D., Pecskay Z. (1995)
Petrology and geochemistry of Late Tertiary/ Quaternary mafic alkaline
volcanism in Romania. Lithos, 35, 65-81 a fost citata de:
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Vaselli O., Pecskay Z. 2004. Origin and geodynamic significance of Tertiary
postcollisional basaltic magmatism in Serbia (Central Balkan Peninsula) LITHOS
73, 161-186
2. Demény, A., Vennemann,
T.W., Homonnay, Z., Milton, A., Embey-Isztin, A., Nagy, G. (2005): Origin of
amphibole megacrysts in the Plio-Pleistocene basalts of the
Carpathian-Pannonian Region. GEOLOGICA CARPATHICA, 56, 2,
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V., Fielitz, W., Dinu, C., Landes, M., Bala, A., Prodehl C. (2007)
Seismic crustal structure between the Transylvanian Basin and the Black Sea,
Romania. TECTONOPHYSICS 430, 1–25
4. Zajacz Z, Kovacs I, Szabo C, et al. 2007. Evolution of mafic alkaline melts crystallized in the uppermost lithospheric mantle: a melt inclusion study of olivine-clinopyroxenite xenoliths, northern Hungary JOURNAL OF PETROLOGY 48 (5): 853-883
5. Lustrino M, Wilson M. 2007. The circum-Mediterranean anorogenic Cenozoic igneous province EARTH-SCIENCE REVIEWS 81 (1-2): 1-65
6.
Jung C, Jung S,
Hoffer E, et al. 2006. Petrogenesis
of Tertiary mafic alkaline magmas in the Hocheifel, Germany JOURNAL
OF PETROLOGY 47 (8): 1637-1671
7.
Popa M, Radulian M, Grecu B, et al. 2005. Attenuation
in Southeastern Carpathians area: Result of upper mantle inhomogeneity
TECTONOPHYSICS 410 (1-4): 235-249
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Brugmann G, et al. 2005. Sources
of primitive alkaline volcanic rocks from the central European volcanic
province (Rhon, Germany) inferred from Hf, Os and Pb isotopes CONTRIBUTIONS
TO MINERALOGY AND PETROLOGY 150 (5): 546-559
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diorites derived from sanukitic HMA magmas, Kyushu Island, southwest Japan arc:
evidence from clinopyroxene and whole rock compositions LITHOS
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quaternary volcanism in the Persani Mountains (Romania) revealed by combined
K-Ar and paleomagnetic data GEOLOGICA CARPATHICA 55 (4):
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Embey-Isztin A, et al. 2003. Origin
of megacrysts and pyroxenite xenoliths from the Pliocene alkali basalts of the
Pannonian Basin (Hungary) NEUES JAHRBUCH FUR
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in spinel lherzolite xenoliths from the Little Hungarian Plain, Western
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Pannonian Basin LITHOS 94 (1-4): 230-247
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in peridotites as a proxy for paleo-fO(2) during partial melting: Prospects,
limitations, and implications GEOCHIMICA ET COSMOCHIMICA ACTA
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Lucrarea Pecskay Z., Lexa J., Szakacs A., Balogh
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10. Russo RM, Mocanu V, Radulian M, et al. 2005. Seismic attenuation in the Carpathian bend zone and surroundings EARTH AND PLANETARY SCIENCE LETTERS 237 (3-4): 695-709
11. Neubauer F, Lips A, Kouzmanov K, et al. 2005. Subduction, slab detachment and mineralization: The Neogene in the Apuseni Mountains and Carpathians ORE GEOLOGY REVIEWS 27 (1-4): 13-44
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