Anexa A1.3.

Citari in reviste de specialitate cotate ISI

 

 

 

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:

  1. Ismail-Zadeh A, Sokolov V, Bonjer KP
    Tectonic stress, seismicity, and seismic hazard in the southeastern Carpathians 
    NATURAL HAZARDS 42 (3): 493-514 SEP 2007
  2. Weidle C, Wenzel F, Ismail-Zadeh A
    t* - an unsuitable parameter to characterize anelastic attenuation in the Eastern Carpathians 
    GEOPHYSICAL JOURNAL INTERNATIONAL 170 (3): 1139-1150 SEP 2007
  3. Matenco L, Bertotti G, Leever K, et al.
    Large-scale deformation in a locked collisional boundary: Interplay between subsidence and uplift, intraplate stress, and inherited lithospheric structure in the late stage of the SE Carpathians evolution 
    TECTONICS 26 (4): Art. No. TC4011 AUG 4 2007
  4. Fu RS, Liu X, Huang JH
    Method of wave-number in three dimensions (MWN3D) for thermal conductive equation and its test of numerical models 
    CHINESE JOURNAL OF GEOPHYSICS-CHINESE EDITION 50 (2): 509-516 MAR 2007
  5. Krezsek C, Bally AW
    The Transylvanian Basin (Romania) and its relation to the Carpathian fold and thrust belt: Insights in gravitational salt tectonics 
    MARINE AND PETROLEUM GEOLOGY 23 (4): 405-442 MAY 2006
  6. Ismail-Zadeh A, Schubert G, Tsepelev I, et al.
    Three-dimensional forward and backward numerical modeling of mantle plume evolution: Effects of thermal diffusion 
    JOURNAL OF GEOPHYSICAL RESEARCH-SOLID EARTH 111 (B6): Art. No. B06401 JUN 8 2006
  7. Ismail-Zadeh A, Mueller B, Schubert G
    Three-dimensional numerical modeling of contemporary mantle flow and tectonic stress beneath the earthquake-prone southeastern Carpathians based on integrated analysis of seismic, heat flow, and gravity data 
    PHYSICS OF THE EARTH AND PLANETARY INTERIORS 149 (1-2): 81-98 MAR 15 2005

 

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:

  1. Viti M, Albarello D, Mantovani E
    Quantitative insights into the role of gravitational collapse in major orogenic belts 
    ANNALS OF GEOPHYSICS 49 (6): 1289-1307 DEC 2006
  2. Cloetingh S, Matenco L, Bada G, et al.
    The evolution of the Carpathians-Pannonian system: Interaction between neotectonics, deep structure, polyphase orogeny and sedimentary basins in a source to sink natural laboratory 
    TECTONOPHYSICS 410 (1-4): 1-14 DEC 9 2005

 

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:

  1. Viti M, Albarello D, Mantovani E
    Quantitative insights into the role of gravitational collapse in major orogenic belts 
    ANNALS OF GEOPHYSICS 49 (6): 1289-1307 DEC 2006
  2. Harcouet V, Guillou-Frottier L, Bonneville A, et al.
    Geological and thermal conditions before the major Palaeoproterozoic gold-mineralization event at Ashanti, Ghana, as inferred from improved thermal modelling 
    PRECAMBRIAN RESEARCH 154 (1-2): 71-87 MAR 25 2007

 

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:

  1. Demezhko DY, Utkin VI, Duchkov AD, et al.
    Geothermic estimates of the amplitudes of Holocene warming in Europe 
    DOKLADY EARTH SCIENCES 407 (2): 259-261 FEB 2006

 

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. Lin G, Zhang Y, Guo F, et al.
    Numerical modelling of lithosphere evolution in the North China Block: Thermal versus tectonic thinning 
    JOURNAL OF GEODYNAMICS 40 (1): 92-103 AUG 2005
  2. Ismail-Zadeh A, Mueller B, Schubert G
    Three-dimensional numerical modeling of contemporary mantle flow and tectonic stress beneath the earthquake-prone southeastern Carpathians based on integrated analysis of seismic, heat flow, and gravity data 
    PHYSICS OF THE EARTH AND PLANETARY INTERIORS 149 (1-2): 81-98 MAR 15 2005
  3. Cloetingh SAPL, Burov E, Matenco L, et al.
    Thermo-mechanical controls on the mode of continental collision in the SE Carpathians (Romania) 
    EARTH AND PLANETARY SCIENCE LETTERS 218 (1-2): 57-76 JAN 30 2004

 

Lucrarea Seghedi I., Szakacs A. (1994) Upper Pliocene to Quaternary basaltic volcanism in the Persani Mountains. Romanian Journal of Petrology, 76, 101-107, Bucharest a fost 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 Juvigne E., Gewelt M., Gilot E., Hurtgen C., Seghedi I., Szakacs A., Gabris Gy., Hadnagy A., Horvath E. (1994) Une eruption vieille d'environ 10,700 ans (14C) dans les Carpates Orientales (Roumanie). C.R. Acad. Sci. Paris, 318, II, 1233-1238, Paris a fost citata de:

1.      Tantau I., Reille M., Beaulieu J-L. de, Farcas S, Goslar T., Paterne M. (2003) Vegetation history in the Romanian Carpathains : pollen analysis of the two sequences from Mohos crater. VEGET. HIST. ARCHAEOBOT. 12, 113-125

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:

1.      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:

1.       Cvetkovic V., Prelevic D., Downes H., Jovanovic M., 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, 179-189.

3.       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

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

8.       Jung S, Pfander JA, 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

9.       Kamei A, Owada M, Nagao T, et al. 2004. High-Mg diorites derived from sanukitic HMA magmas, Kyushu Island, southwest Japan arc: evidence from clinopyroxene and whole rock compositions  LITHOS 75 (3-4): 359-371

10.   Panaiotu CG, Pecskay Z, Hambach U, et al. 2004. Short-lived quaternary volcanism in the Persani Mountains (Romania) revealed by combined K-Ar and paleomagnetic data GEOLOGICA CARPATHICA 55 (4): 333-339

11.   Grachev AF. 2003. Final volcanism in Europe and its geodynamic implications 
IZVESTIYA-PHYSICS OF THE SOLID EARTH 39 (8): 618-652

12.   Dobosi G, Downes H, 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 MINERALOGIE-ABHANDLUNGEN 178 (3): 217-237

 

Lucrarea Vaselli O., Downes H.,Thirlwall M., Dobosi G., Coradossi N., Seghedi I., Szakacs A., Vanucci R. (1995) Ultramafic xenoliths in Plio-Pleistocene alkali basalts from the Eastern Transylvanian Basin: Depleted mantle enriched by vein metasomatism. Journal of Petrology, 36, 1, 23-53 este citata de:

1.                Szabó, Cs., Falus, Gy., Bali, E., Kovács, I., Zajacz, Z. & Hidas, K. (2004) Composition and evolution of lithosphere beneath the Carpathian–Pannonian Region: a review. TECTONOPHYSICS, 393, 119-137

2.                Esenli F. & Can Genç Ş. 2005. Mantle peridotite xenoliths in alkali basalts from the East Thrace region (NW Turkey). GEOLOGICA CARPATHICA 56, 4, 359-368

3.                Kovacs, I., Zajacz, Z., and C. Szabo (2004) Type-II xenoliths and related metasomatism from the Nograd-Gomor Volcanic Field, Carpathian-Pannonian region (northern Hungary–southern Slovakia). TECTONOPHYSICS, 393, 137-161

4.                Cvetkovic V, Downes H, Prelevic D, et al. 2007. Geodynamic significance of ultramafic xenoliths from Eastern Serbia: Relics of sub-arc oceanic mantle?  JOURNAL OF GEODYNAMICS 43 (4-5): 504-527

5.                Lustrino M, Wilson M. 2007. The circum-Mediterranean anorogenic Cenozoic igneous province  EARTH-SCIENCE REVIEWS 81 (1-2): 1-65

6.                Coltorti M, Bonadiman C, Faccini B, et al. 2007  Slab melt and intraplate metasomatism in Kapfenstein mantle xenoliths (Styrian Basin, Austria) LITHOS 94 (1-4): 66-89

7.                Rivalenti G, Zanetti A, Girardi VAV, et al. 2007. The effect of the Fernando de Noronha plume on the mantle lithosphere in north-eastern Brazil  LITHOS 94 (1-4): 111-131

8.                Falus G, Szabo C, Kovacs I, et al. 2007. Symplectite in spinel lherzolite xenoliths from the Little Hungarian Plain, Western Hungary: A key for understanding the complex history of the upper mantle of the Pannonian Basin  LITHOS 94 (1-4): 230-247

9.                Konečny P, Ulrych J, Schovanek P, et al. 2006. Upper mantle xenoliths from the Pliocene Kozakov volcano (NE Bohemia): P-T-f(O2) and geochemical constraints  GEOLOGICA CARPATHICA 57 (5): 379-396

10.            Gasperini D, Bosch D, Braga R, et al. 2006. Ultramafic xenoliths from the Veneto Volcanic Province (Italy): Petrological and geochemical evidence for multiple metasomatism of the SE Alps mantle lithosphere  GEOCHEMICAL JOURNAL 40 (4): 377-404

11.            Berly TJ, Hermann J, Arculus RJ, et al. 2006. Supra-subduction zone pyroxenites from San Jorge and Santa Isabel (Solomon Islands)  JOURNAL OF PETROLOGY 47 (8): 1531-1555

12.            Etxebarria M, Chalot-Prat F, Apraiz A, et al. 2006. Birth of a volcanic passive margin in Cambrian time: Rift paleogeography of the Ossa-Morena Zone, SW Spain  PRECAMBRIAN RESEARCH 147 (3-4): 366-386

13.            Foley SF, Andronikov AV, Jacob DE, et al. 2006. Evidence from Antarctic mantle peridotite xenoliths for changes in mineralogy, geochemistry and geothermal gradients beneath a developing rift  GEOCHIMICA ET COSMOCHIMICA ACTA 70 (12): 3096-3120

14.            Kovacs I, Szabo C 2005. Petrology and geochemistry of granulite xenoliths beneath the Nograd-Gomor Volcanic Field, Carpathian-Pannonian Region (N-Hungary/S-Slovakia)  MINERALOGY AND PETROLOGY 85 (3-4): 269-290

15.            Abraham AC, Francis D, Polve M. 2005. Origin of Recent alkaline lavas by lithospheric thinning beneath the northern Canadian Cordillera  CANADIAN JOURNAL OF EARTH SCIENCES 42 (6): 1073-1095

16.            Prelevic D, Foley SF, Romer RL, et al. 2005. Tertiary ultrapotassic volcanism in Serbia: Constraints on petrogenesis and mantle source characteristics  JOURNAL OF PETROLOGY 46 (7): 1443-1487

17.            Marchev P, Raicheva R, Downes H, et al. 2004. Compositional diversity of Eocene-Oligocene basaltic magmatism in the Eastern Rhodopes, SE Bulgaria: implications for genesis and tectonic setting  TECTONOPHYSICS 393 (1-4): 301-328

18.            Downes H, Beard A, Hinton R 2004. Natural experimental charges: an ion-microprobe study of trace element distribution coefficients in glass-rich hornblendite and clinopyroxenite xenoliths LITHOS 75 (1-2): 1-17

19.            Beccaluva L, Bianchini G, Bonadiman C, et al. 2004. Coexisting anorogenic and subduction-related metasomatism in mantle xenoliths from the Betic Cordillera (southern Spain) LITHOS 75 (1-2): 67-87

20.            Xu YG, Bodinier JL. 2004. Contrasting enrichments in high- and low-temperature mantle xenoliths from Nushan, eastern China: Results of a single metasomatic event during lithospheric accretion?  JOURNAL OF PETROLOGY 45 (2): 321-341

21.            Falus G, Drury MR, van Roermund HLM, et al. 2004. Magmatism-related localized deformation in the mantle: a case study CONTRIBUTIONS TO MINERALOGY AND PETROLOGY 146 (4): 493-505

22.            Macera P, Gasperini D, Piromallo C, et al. 2003. Geodynamic implications of deep mantle upwelling in the source of Tertiary volcanics from the Veneto region (South-Eastern Alps) JOURNAL OF GEODYNAMICS 36 (5): 563-590

23.            Grachev AF. 2003. Final volcanism in Europe and its geodynamic implications 
IZVESTIYA-PHYSICS OF THE SOLID EARTH 39 (8): 618-652

24.            Chalot-Prat F, Ganne J, Lombard A. 2003. No significant element transfer from the oceanic plate to the mantle wedge during subduction and exhumation of the Tethys lithosphere (Western Alps) LITHOS 69 (3-4): 69-103

25.            Lee CTA, Brandon AD, Norman M. 2003. Vanadium in peridotites as a proxy for paleo-fO(2) during partial melting: Prospects, limitations, and implications  GEOCHIMICA ET COSMOCHIMICA ACTA 67 (16): 3045-3064

 

Lucrarea Szakacs A. & Seghedi I. (1995) The Calimani-Gurghiu-Harghita volcanic chain, East Carpathians, Romania: Volcanological features. Acta Vulcanologica, 7(2), 145-153 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, 125

 

Lucrarea Pecskay Z., Lexa J., Szakacs A., Balogh Kad., Seghedi I., Konecny V., Kovacs M., Marton E., Kaliciak M., Szeky-Fux V., Poka T., Gyarmati P., Edelstein O., Rosu E., Zec B.(1995) space and time evolution of Neogene- Quaternar volcanism in the Carpatho-Pannonian Region. Acta Vulcanologica, 7(2), 15-28 este citata de:

1.      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, 179-189.

2.      Tischler, M., Gröger H. R., Fügenschuh B. and S. M. Schmid (2006) Miocene tectonics of the Maramures area (Northern Romania): implications for the Mid-Hungarian fault zone. INT. J. EARTH SCI. (GEOL. RUNDSCH.) DOI 10.1007/s00531-006-0110-x

 

Lucrarea Pecskay Z., Edelstein O., Seghedi I., Szakacs A., Kovacs M., Crihan M., Bernad A. (1995) K-Ar datings of Neogene-Quaternary calc-alkaline volcanic rocks in Romania. Acta Vulcanologica, 7(2), 53-61 este citata de:

1.         Har N. 2005 Reaction coronas around quartz xenocrysts in the basaltic andesite from Detunata (Apuseni Mountains, Romania). GEOLOGICA CARPATHICA 56, 4, 369-378.

 

Lucrarea Downes H., Vaselli O., Seghedi I., Ingram G., Rex D., Caradossi N., Pecskay Z., Pinarelli L (1995) Geochemistry of Late Cretaceous-Early Tertiary magmatism in Poiana Rusca-Romania. Acta Vulcanologica, 7, 209-217 este citata de:

1.      Cvetkovic V., Downes H. Prelevic D., Jovanovic M., Lazarov M. 2004. Characteristics of the lithosphere mantle beneath East Serbia inferred from ultramafic xenoliths CONTRIB. MINERAL. PETROL. 148, 335-357

 

Lucrarea Szakacs A., Seghedi I. (1996) Volcaniclastic sequences around andesitic stratovolcanoes, East Carpathians, Romania, workshop guide, of the IAVCEI, CEV and CVS commisions.Rom Jour. of Petrology, 77, supplement 1, 55p 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 Mason P., Downes H., Thirlwall M.F., Seghedi I., Szakacs A., Lowry D., Mattey D. (1996) Crustal assimilation as a major petrogenetic process in the East Carpathian Neogene and Quaternary continental margin arc, Journal of Petrology, 37, 4, 927-959 este citata de:

1.         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

2.         Trua, T., Serri G., Birkenmajer K., Pécskay Z. (2006) Geochemical and Sr–Nd–Pb isotopic compositions of Mts Pieniny dykes and sills (West Carpathians): Evidence for melting in the lithospheric mantle. LITHOS 90, 57-76

3.           Lustrino M, Wilson M. 2007. The circum-Mediterranean anorogenic Cenozoic igneous province  EARTH-SCIENCE REVIEWS 81 (1-2): 1-65

4.         Gmeling K, Kasztovszky Z, Szentmiklosi L, et al., 2007. Boron concentration measurements by prompt gamma activation analysis: Application on miocene-quaternary volcanics of the Carpathian-Pannonian Region . JOURNAL OF RADIOANALYTICAL AND NUCLEAR CHEMISTRY 271 (2): 397- 403

5.         Demeny A, Vennemann TW, Harangi S, et al. 2006. H2O-delta D-Fe-III relations of dehydrogenation and dehydration processes in magmatic amphiboles  RAPID COMMUNICATIONS IN MASS SPECTROMETRY 20 (5): 919-925

6.           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

7.         Gmeling K, Harangi S, Kasztovszky Z. 2005. Boron and chlorine concentration of volcanic rocks: An application of prompt gamma activation analysis 
JOURNAL OF RADIOANALYTICAL AND NUCLEAR CHEMISTRY 265 (2): 201-212

8.           Harangi S, Mason PRD, Lukacs R. 2005. Correlation and petrogenesis of silicic pyroclastic rocks in the Northern Pannonian Basin, Eastern-Central Europe: In situ trace element data of glass shards and mineral chemical constraints  JOURNAL OF VOLCANOLOGY AND GEOTHERMAL RESEARCH 143 (4): 237-257

9.           Grachev AF. 2003. Final volcanism in Europe and its geodynamic implications 
IZVESTIYA-PHYSICS OF THE SOLID EARTH 39 (8): 618-652

10.     Dobosi G, Kempton PD, Downes H, et al. 2003. Lower crustal granulite xenoliths from the Pannonian Basin, Hungary, Part 2: Sr-Nd-Pb-Hf and O isotope evidence for formation of continental lower crust by tectonic emplacement of oceanic crust  CONTRIBUTIONS TO MINERALOGY AND PETROLOGY 144 (6): 671-683

 

Lucrarea Moriya I., Okuno M., Nakamura T., Ono K., Szakacs A., Seghedi I. (1996) Radiocarbon ages of charcoal fragments from the pumice flow deposits of the last eruption of Ciomadul Volcano, Romania. Summaries of Research using AMS at Nagoya University, VII, 252-255 este citata de:

1.         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 Mason P. R.D., Seghedi I., Szakacs A., Downes H. (1998) Magmatic constraints on geodynamic models of subduction in East Carpathains, Romania, Tectonophysics, 297, 157-176 este citata de:

1.        Tischler, M., Gröger H. R., Fügenschuh B. and S. M. Schmid (2006) Miocene tectonics of the Maramures area (Northern Romania): implications for the Mid-Hungarian fault zone. INT. J. EARTH SCI. (GEOL. RUNDSCH.) DOI 10.1007/s00531-006-0110-x

2.        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

3.        Dilek Y, Altunkaynak S. 2007. Cenozoic crustal evolution and mantle dynamics of post-collisional magmatism in western Anatolia  INTERNATIONAL GEOLOGY REVIEW 49 (5): 431-453

4.        Lustrino M, Wilson M. 2007. The circum-Mediterranean anorogenic Cenozoic igneous province  EARTH-SCIENCE REVIEWS 81 (1-2): 1-65

5.        Pallares C, Maury RC, Bellon H, et al. 2007. Slab-tearing following ridge-trench collision: Evidence from Miocene volcanism in Baja California, Mexico 
JOURNAL OF VOLCANOLOGY AND GEOTHERMAL RESEARCH 161 (1-2): 95-117

6.        Panaiotu CE, Vasiliev I, Panaiotu CG, et al. 2007. Provenance analysis as a key to orogenic exhumation: a case study from the East Carpathians (Romania)  TERRA NOVA 19 (2): 120-126

7.        Ivan M. 2007. Attenuation of P and pP waves in Vrancea area - Romania  JOURNAL OF SEISMOLOGY 11 (1): 73-85

8.        Leever KA, Bertotti G, Zoetemeijer R, et al. 2006. The effects of a lateral variation in lithospheric strength on foredeep evolution: Implications for the East Carpathian foredeep  TECTONOPHYSICS 421 (3-4): 251-267

9.        Mucuta D.M., Knapp C.C., Knapp J.H. 2006. Constraints from Moho geometry and crustal thickness on the geodynamic origin of the Vrancea Seismogenic Zone (Romania)  TECTONOPHYSICS 420 (1-2): 23-36 Sp. Iss.

10.    Oszczypko N. 2006. Late Jurassic-Miocene evolution of the Outer Carpathian fold-and-thrust belt and its foredeep basin (Western Carpathians, Poland)  GEOLOGICAL QUARTERLY 50 (1): 169-193

11.    Guivel C, Morata D, Pelleter E, et al. 2006. Miocene to Late Quaternary Patagonian basalts (46-47 degrees S): Geochronometric and geochemical evidence for slab tearing due to active spreading ridge subduction  JOURNAL OF VOLCANOLOGY AND GEOTHERMAL RESEARCH 149 (3-4): 346-370

12.    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

13.    Knapp J.H., Knapp C.C., Raileanu V., et al. 2005. Crustal constraints on the origin of mantle seismicity in the Vrancea zone, Romania: The case for active continental lithospheric delamination TECTONOPHYSICS 410 (1-4): 311-323

14.    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

15.    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

16.    Dupont-Nivet G, Vasiliev I, Langereis CG, et al. 2005. Neogene tectonic evolution of the southern and eastern Carpathians constrained by paleomagnetism  EARTH AND PLANETARY SCIENCE LETTERS 236 (1-2): 374-387

17.    Harangi S, Mason PRD, Lukacs R. 2005. Correlation and petrogenesis of silicic pyroclastic rocks in the Northern Pannonian Basin, Eastern-Central Europe: In situ trace element data of glass shards and mineral chemical constraints  JOURNAL OF VOLCANOLOGY AND GEOTHERMAL RESEARCH 143 (4): 237-257

18.    Brouwer FM, Van de Zedde DMA, Wortel MJR, et al. 2004. Late-orogenic heating during exhumation: Alpine PTt trajectories and thermomechanical models  EARTH AND PLANETARY SCIENCE LETTERS 220 (1-2): 185-199

19.     Cloetingh SAPL, Burov E, Matenco L, et al. 2004. Thermo-mechanical controls on the mode of continental collision in the SE Carpathians (Romania)  EARTH AND PLANETARY SCIENCE LETTERS 218 (1-2): 57-76

20.    Grachev AF. 2003. Final volcanism in Europe and its geodynamic implications 
IZVESTIYA-PHYSICS OF THE SOLID EARTH 39 (8): 618-652

 

Lucrarea Seghedi I., Balintoni I., Szakacs A. (1998) Interplay of tectonics and neogene post-collisional magmatism in the intracarpathian region, Lithos, 45, 483-497 este citata de:

1. Wallier, S.  Rey, R. Kouzmanov, K., Pettke, T.,  Heinrich, Ch. A., Leary, S., O’Connor, G., Tamas, C. G., Vennemann, T. & T. Ullrich (2006) Magmatic Fluids in the Breccia-Hosted Epithermal Au-Ag Deposit of Rosia Montana, Romania. Economic Geology, 101, 923–954

2. Trua, T., Serri G., Birkenmajer K., Pécskay Z. (2006) Geochemical and Sr–Nd–Pb isotopic compositions of Mts Pieniny dykes and sills (West Carpathians): Evidence for melting in the lithospheric mantle. Lithos 90, 57-76

3. 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

4. Ivan M. 2007. Attenuation of P and pP waves in Vrancea area - Romania  JOURNAL OF SEISMOLOGY 11 (1): 73-85

5. Krezsek C, Bally AW. 2006. The Transylvanian Basin (Romania) and its relation to the Carpathian fold and thrust belt: Insights in gravitational salt tectonics  MARINE AND PETROLEUM GEOLOGY 23 (4): 405-442

 6. Sun GH, Li JY, Yang TN, et al. 2006. Permian post-collisional NS-compression deformation in Tianshan orogen: example from Koumenzi ductile shear zone of thrusting-type in northern slope of Harlik mountains.  ACTA PETROLOGICA SINICA 22 (5): 1359-1368

7. Schellart WP, Lister GS, Toy VG. 2006. A Late Cretaceous and Cenozoic reconstruction of the Southwest Pacific region: Tectonics controlled by subduction and slab rollback processes EARTH-SCIENCE REVIEWS 76 (3-4): 191-233

8. Tamas CG, Bailly L, Ghergari L, et al. 2006 . New occurrences of tellurides and argyrodite in Rosia Montana, Apuseni Mountains, Romania, and their metallogenic significance  CANADIAN MINERALOGIST 44: 367-383 Part 2

9. 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

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

12. Dupont-Nivet G, Vasiliev I, Langereis CG, et al. 2005. Neogene tectonic evolution of the southern and eastern Carpathians constrained by paleomagnetism  EARTH AND PLANETARY SCIENCE LETTERS 236 (1-2): 374-387

 13. Harangi S, Mason PRD, Lukacs R. 2005. Correlation and petrogenesis of silicic pyroclastic rocks in the Northern Pannonian Basin, Eastern-Central Europe: In situ trace element data of glass shards and mineral chemical constraints  JOURNAL OF VOLCANOLOGY AND GEOTHERMAL RESEARCH 143 (4): 237-257

14. Hao TY, Liu JH, Guo F, et al. 2004. Research on crustal structure and lithosphere property in the Okinawa Trough area  CHINESE JOURNAL OF GEOPHYSICS-CHINESE EDITION 47 (3): 462 +.

15. Landes M, Fielitz W, Hauser F, et al. 2004. 3-D upper crustal tomographic structure across the Vrancea seismic zone, Romania TECTONOPHYSICS 382 (1-2): 85-102

16. Cloetingh SAPL, Burov E, Matenco L, et al. 2004. Thermo-mechanical controls on the mode of continental collision in the SE Carpathians (Romania)  EARTH AND PLANETARY SCIENCE LETTERS 218 (1-2): 57-76 JAN 30

 

Lucrarea Seghedi I., Downes H., Pécskay Z., Thirlwall M.F., Szakács A., Prychodko M., Mattey D. (2001) Magmagenesis in a subduction-related post-collisional volcanic arc segment: The Ukrainian Carpathians. Lithos 57 (4), 237-262 a fost citata de:

1.      Qu XM, Hou ZQ, Zaw K, et al. 2007. Characteristics and genesis of Gangdese porphyry copper deposits in the southern Tibetan Plateau: Preliminary geochemical and geochronological results  ORE GEOLOGY REVIEWS 31 (1-4): 205-223

2.      Lustrino M, Wilson M. 2007. The circum-Mediterranean anorogenic Cenozoic igneous province  EARTH-SCIENCE REVIEWS 81 (1-2): 1-65

3.      Ghorbani MR 2006. Lead enrichment in Neotethyan volcanic rocks from Iran: The implications of a descending slab  GEOCHEMICAL JOURNAL 40 (6): 557-568

4.      Rostovtseva YV, Parfenova OV. 2006. Middle-upper Miocene volcanic ashes of the Kerch-Taman region  LITHOLOGY AND MINERAL RESOURCES 41 (5): 440-449

5.      Trua, T., Serri G., Birkenmajer K., Pécskay Z. (2006) Geochemical and Sr–Nd–Pb isotopic compositions of Mts Pieniny dykes and sills (West Carpathians): Evidence for melting in the lithospheric mantle. LITHOS 90, 57-76

6.       Hao JR, Zhou DW, Liu YQ, et al. 2006. Geochemistry and tectonic settings of Permian volcanic rocks in Santanghu basin, Xinjiang.  ACTA PETROLOGICA SINICA 22 (1): 189-198

7.      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

8.      Qu XM, Hou ZQ, Li YG. 2004. Melt components derived from a subducted slab in late orogenic ore-bearing porphyries in the Gangdese copper belt, southern Tibetan plateau LITHOS 74 (3-4): 131-148

 

Lucrarea Udubasa, G., Rosu, E., Seghedi, I., and Ivascanu, P.M., 2001, The “Golden Quadrangle” in the Metaliferi Mts., Romania: What does it mean? Romanian Journal of Mineral Deposits, 79, 24–34 este citata de:

1.      Wallier, S.  Rey, R. Kouzmanov, K., Pettke, T.,  Heinrich, Ch. A., Leary, S., O’Connor, G., Tamas, C. G., Vennemann, T. & T. Ullrich (2006) Magmatic Fluids in the Breccia-Hosted Epithermal Au-Ag Deposit of Rosia Montana, Romania. ECONOMIC GEOLOGY, 101, 923–954

 

Lucrarea Vaselli O., Minissale A., Tassi F., Magro G., Seghedi I., Ioane D., Szakács A. (2002) A geochemical traverse across the Eastern Carpathians (Romania): constraints on the origin and evolution of the mineral water and gas discharges. Chemical Geology, 182, 637-654 este citata de:

1.      Forrest MJ, Ledesma-Vazquez J, Ussler W, et al. 2005. Gas geochemistry of a shallow submarine hydrothermal vent associated with the El Requeson fault zone, Bahia Concepcion, Baja California Sur, Mexico  CHEMICAL GEOLOGY 224 (1-3): 82-95

2.      Rao U, Hollocher K, Sherman J, et al. 2005. The use of Cl-36 and chloride/bromide ratios in discerning salinity sources and fluid mixing patterns: A case study at Saratoga Springs  CHEMICAL GEOLOGY 222 (1-2): 94-111

3.      Hartmann J, Berner Z, Stuben D, et al. 2005. A statistical procedure for the analysis of seismotectonically induced hydrochemical signals: A case study from the Eastern Carpathians, Romania TECTONOPHYSICS 405 (1-4): 77-98

4.      Redondo R, Yelamos JG. 2005. Determination of CO2 origin (natural or industrial) in sparkling bottled waters by C-13/O-12 isotope ratio analysis  FOOD CHEMISTRY 92 (3): 507-514

5.      Satake H, Murata M, Hayashi H. 2003. Chemical characteristics of groundwater around the Mozumi-Sukenobu fault and the implication for fault activity 
GEOPHYSICAL RESEARCH LETTERS 30 (7): Art. No. 1356

 

Lucrarea Seghedi I., Szakács A., Snelling N. J., Pécskay Z. (2004) Evolution of the Gurghiu Mountains Neogene Volcanic Range (East Carpathians, Romania), based on K-Ar geochronology. Geologica Carpathica 55, 4, 325-332 a fost citata de:

1. Feher O, Langohr R, Fuleky G, et al. Late glacial-holocene genesis of andosols from the Seaca-Tatarca (South Gurghiu Mountains, Romania)  EUROPEAN JOURNAL OF SOIL SCIENCE 58 (2): 405-418 APR 2007

2. Panaiotu C.E., Vasiliev I., Panaiotu C.G., et al. 2007. Provenance analysis as a key to orogenic exhumation: a case study from the East Carpathians (Romania)  TERRA NOVA 19 (2): 120-126

 

Lucrarea Seghedi, I., Downes, H., Szakács, A., Mason, P.R.D., Thirlwall, M.F., Roşu, E., Pécskay, Z., Marton, E., Panaiotu, C., 2004. Neogene– Quaternary magmatism and geodynamics in the Carpathian–Pannonian region: a synthesis. Lithos 72, 117– 146. este citata de:

1 . 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, 179-189.

2 . Wallier, S.  Rey, R. Kouzmanov, K., Pettke, T.,  Heinrich, Ch. A., Leary, S., O’Connor, G., Tamas, C. G., Vennemann, T. & T. Ullrich (2006) Magmatic Fluids in the Breccia-Hosted Epithermal Au-Ag Deposit of Rosia Montana, Romania. ECONOMIC GEOLOGY, 101, 923–954

3 . Trua, T., Serri G., Birkenmajer K., Pécskay Z. (2006) Geochemical and Sr–Nd–Pb isotopic compositions of Mts Pieniny dykes and sills (West Carpathians): Evidence for melting in the lithospheric mantle. LITHOS 90, 57-76

4 . Cvetkovic V, Poli G, Christofides G, et al. 2007. The Miocene granitoid rocks of Mt. Bukulja (central Serbia): evidence for pannonian extension-related granitoid magmatism in the northern Dinarides  EUROPEAN JOURNAL OF MINERALOGY 19 (4): 513-532

5 . Jahangiri A. 2007. Post-collisional Miocene adakitic volcanism in NW Iran: Geochemical and geodynamic implications  JOURNAL OF ASIAN EARTH SCIENCES 30 (3-4): 433-447

6 . Dilek Y, Altunkaynak S. 2007. Cenozoic crustal evolution and mantle dynamics of post-collisional magmatism in western Anatolia  INTERNATIONAL GEOLOGY REVIEW 49 (5): 431-453

7 . Bali E, Falus G, Szabo C, et al. 2007. Remnants of boninitic melts in the upper mantle beneath the central Pannonian Basin?  MINERALOGY AND PETROLOGY 90 (1-2): 51-72

8 . Lustrino M, Wilson M. 2007. The circum-Mediterranean anorogenic Cenozoic igneous province  EARTH-SCIENCE REVIEWS 81 (1-2): 1-65

9 . Lustrino M, Morra V, Fedele L, et al. 2007.The transition between 'orogenic' and 'anorogenic' magmatism in the western Mediterranean area: the Middle Miocene volcanic rocks of Isola del Toro (SW Sardinia, Italy)  TERRA NOVA 19 (2): 148-159

10 . Coltorti M, Bonadiman C, Faccini B, et al. 2007  Slab melt and intraplate metasomatism in Kapfenstein mantle xenoliths (Styrian Basin, Austria) LITHOS 94 (1-4): 66-89

11 . Falus G, Szabo C, Kovacs I, et al. 2007. Symplectite in spinel lherzolite xenoliths from the Little Hungarian Plain, Western Hungary: A key for understanding the complex history of the upper mantle of the Pannonian Basin  LITHOS 94 (1-4): 230-247

12 . Harris CR, Rosu E, Pettke T, et al. 2006. Pb, Sr, and Nd isotopes and geochemistry of miocene magmas in the Apuseni mountains, Romania GEOCHIMICA ET COSMOCHIMICA ACTA 70 (18): A233-A233 Suppl. S

13 . Gmeling K, Nemeth K, Martin U, et al. 2007. Boron concentrations of volcanic fields in different geotectonic settings  JOURNAL OF VOLCANOLOGY AND GEOTHERMAL RESEARCH 159 (1-3): 70-84

14 . Altunkaynak S. 2007. Collision-driven slab breakoff magmatism in northwestern Anatolia, Turkey  JOURNAL OF GEOLOGY 115 (1): 63-82

15 .  Gmeling K, Kasztovszky Z, Szentmiklosi L, et al., 2007. Boron concentration measurements by prompt gamma activation analysis: Application on miocene-quaternary volcanics of the Carpathian-Pannonian Region . JOURNAL OF RADIOANALYTICAL AND NUCLEAR CHEMISTRY 271 (2): 397- 403

16 . Szakacs A, Krezsek C. 2006. Volcano-basement interaction in the Eastern Carpathians: Explaining unusual tectonic features in the Eastern Transylvanian Basin, Romania  JOURNAL OF VOLCANOLOGY AND GEOTHERMAL RESEARCH 158 (1-2): 6-20

17 . Krezsek C, Bally AW. 2006. The Transylvanian Basin (Romania) and its relation to the Carpathian fold and thrust belt: Insights in gravitational salt tectonics  MARINE AND PETROLEUM GEOLOGY 23 (4): 405-442

18 . Dererova J, Zeyen H, Bielik M, et al. 2006. Application of integrated geophysical modeling for determination of the continental lithospheric thermal structure in the eastern Carpathians  TECTONICS 25 (3): Art. No. TC3009

19 . Milsom J. 2005. The Vrancea seismic zone and its analogue in the Banda Arc, eastern Indonesia  TECTONOPHYSICS 410 (1-4): 325-336

20 . Oczlon MS, Onescu D. 2005. Late neogene low-angle thrusting on the northwestern margin of the South Carpathians (Poiana Rusca, West Romania) 
TECTONOPHYSICS 410 (1-4): 367-377

21 . 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

22 . Blundell D, Arndt N, Cobbold PR, et al. 2005 Processes of tectonism, magmatism and mineralization: Lessons from Europe ORE GEOLOGY REVIEWS 27 (1-4): 333-349

23 . Lukacs R, Harangi S, Ntaflos T, et al. 2005. Silicate melt inclusions in the phenocrysts of the Szomolya Ignimbrite, Bukkalja Volcanic Field (Northern Hungary): Implications for magma chamber processes  CHEMICAL GEOLOGY 223 (1-3): 46-67

24 . 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

25 . Harris CR, Pettke T, Rosu E, et al. 2005. Magma genesis and Cu-Au ore formation (Apuseni Mountains, Romania) in light of Pb, Sr and Nd isotopic and chemical trends  GEOCHIMICA ET COSMOCHIMICA ACTA 69 (10): A570-A570 Suppl. S

26 . Dupont-Nivet G, Vasiliev I, Langereis CG, et al. 2005. Neogene tectonic evolution of the southern and eastern Carpathians constrained by paleomagnetism  EARTH AND PLANETARY SCIENCE LETTERS 236 (1-2): 374-387

27 . Cardon O, Andre-Mayer AS, Sausse J, et al. 2005. The link between porphyry copper and low-sulfidation epithermal deposit: structural study and 3D representation of the sector of Bolcana, Apuseni Mountains, Romania.  COMPTES RENDUS GEOSCIENCE 337 (9): 824-831

28 . Gmeling K, Harangi S, Kasztovszky Z. 2005.  Boron and chlorine concentration of volcanic rocks: An application of prompt gamma activation analysis  JOURNAL OF RADIOANALYTICAL AND NUCLEAR CHEMISTRY 265 (2): 201-212

29 . Harangi S, Mason PRD, Lukacs R. 2005. Correlation and petrogenesis of silicic pyroclastic rocks in the Northern Pannonian Basin, Eastern-Central Europe: In situ trace element data of glass shards and mineral chemical constraints  JOURNAL OF VOLCANOLOGY AND GEOTHERMAL RESEARCH 143 (4): 237-257

 

Lucrarea Roşu, E., Seghedi, I., Downes, H., Alderton, D., Szakács, A., Pécskay, Z., Panaiotu, C. and Nedelcu, L., 2004, Extension-related Miocene calc-alkaline magmatism in the Apuseni Mountains, Romania: Origin of magmas: Schweizerische Mineralogische und Petrographische Mitteilungen, 84, 153–172 este citata de:

1. Wallier, S.  Rey, R. Kouzmanov, K., Pettke, T.,  Heinrich, Ch. A., Leary, S., O’Connor, G., Tamas, C. G., Vennemann, T. & T. Ullrich (2006) Magmatic Fluids in the Breccia-Hosted Epithermal Au-Ag Deposit of Rosia Montana, Romania. ECONOMIC GEOLOGY, 101, 923–954

2. Bojar HP, Walter F. 2006. Fluoro-magnesiohastingsite from Dealul Uroi (Hunedoara county, Romania): Mineral data and crystal structure of a new amphibole end-member  EUROPEAN JOURNAL OF MINERALOGY 18 (4): 503-508

3. Neubauer F, Lips A, Kouzmanov K, et al. 2005.Subduction, slab detachment and mineralization: The Neogene in the Apuseni Mountains and Catpathians ORE GEOLOGY REVIEWS 27 (1-4): 13-44

4. Kouzmanov K, Ivascanu P, O'Connor G. 2005. Porphyry Cu-Au and epithermal Au-Ag deposits in the southern Apuseni Mountains, Romania - South Apuseni Mountains district: Lat. 46 degrees 03' N, Long. 22 degrees 58' E  ORE GEOLOGY REVIEWS 27 (1-4): 46-47

5. Blundell D, Arndt N, Cobbold PR, et al. 2005 Processes of tectonism, magmatism and mineralization: Lessons from Europe ORE GEOLOGY REVIEWS 27 (1-4): 333-349

6. Harris CR, Rosu E, Pettke T, et al. 2006. Pb, Sr, and Nd isotopes and geochemistry of miocene magmas in the Apuseni mountains, Romania  GEOCHIMICA ET COSMOCHIMICA ACTA 70 (18): A233-A233 Suppl. S

 

Lucrarea Panaiotu, C.G., Pécskay, Z., Hambach, U., Seghedi, I., Panaiotu, C.E., Itaya, T., Orleanu, M., Szakács, A., 2004. Short-lived Quaternary volcanism in the Perşani Mountains (Romania) revealed by combined KAr and paleomagnetic data. Geologica Carpathica 55, 333339 a fost 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

2.      Lustrino M, Wilson M. 2007. The circum-Mediterranean anorogenic Cenozoic igneous province  EARTH-SCIENCE REVIEWS 81 (1-2): 1-65

 

Lucrarea Seghedi I., Downes H., Vaselli O., Szakács A., Kad. Balogh, Pécskay Z (2004) Post-collisional Tertiary–Quaternary mafic alkalic magmatism in the Carpathian–Pannonian region: a review. Tectonophysics 393, 43–62 a fost citata de:

1. 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

2. Nedli Z, Toth TM 2007.Origin and geodynamic significance of Upper Cretaceous lamprophyres from the Villany Mts (S Hungary)  MINERALOGY AND PETROLOGY 90 (1-2): 73-107

3. Lustrino M, Wilson M. 2007. The circum-Mediterranean anorogenic Cenozoic igneous province  EARTH-SCIENCE REVIEWS 81 (1-2): 1-65

4. Coltorti M, Bonadiman C, Faccini B, et al. 2007  Slab melt and intraplate metasomatism in Kapfenstein mantle xenoliths (Styrian Basin, Austria) LITHOS 94 (1-4): 66-89

5. Coban H. 2007. Basalt magma genesis and fractionation in collision- and extension-related provinces: A comparison between eastern, central and western Anatolia  EARTH-SCIENCE REVIEWS 80 (3-4): 219-238

6. Jurewicz E. 2005. Geodynamic evolution of the Tatra Mts. and the Pieniny Klippen Belt (Western Carpathians): problems and comments  ACTA GEOLOGICA POLONICA 55 (3): 295-338

 

Lucrarea Seghedi I., Szakács A., Pécskay Z., Mason P. R. D. (2005) Eruptive history and age of magmatic processes in the Calimani volcanic structure (Romania). Geologica Carpathica 56, 67-75 a fost citata de:

1. Panaiotu CE, Vasiliev I, Panaiotu CG, et al. 2007. Provenance analysis as a key to orogenic exhumation: a case study from the East Carpathians (Romania)  TERRA NOVA 19 (2): 120-126

2. 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

 

Lucrarea Fielitz, W., Seghedi, I., 2005. Late Neogene to Quaternary tectonic geomorphology and river drainage evolution in the Eastern Carpathian Bend area of Romania. Tectonophysics 410, 111136 a fost 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

2.      Dombradi E, Timar G, Bada G, et al. 2007. Fractal dimension estimations of drainage network in the Carpathian-Pannonian system  GLOBAL AND PLANETARY CHANGE 58 (1-4): 197-213

3.      Matenco L, Bertotti G, Leever K, et al. 2007. Large-scale deformation in a locked collisional boundary: Interplay between subsidence and uplift, intraplate stress, and inherited lithospheric structure in the late stage of the SE Carpathians evolution  TECTONICS 26 (4): Art. No. TC4011

4.      Leever KA, Matenco L, Bertotti G, et al. 2006. Late orogenic vertical movements in the Carpathian Bend Zone - seismic constraints on the transition zone from orogen to foredeep  BASIN RESEARCH 18 (4): 521-545

5.      Krezsek C, Bally AW. 2006. The Transylvanian Basin (Romania) and its relation to the Carpathian fold and thrust belt: Insights in gravitational salt tectonics 
MARINE AND PETROLEUM GEOLOGY 23 (4): 405-442

6.      Necea D, Fielitz W, Matenco L. 2005. Late Pliocene-Quaternary tectonics in the frontal part of the SE Carpathians: Insights from tectonic geomorphology  TECTONOPHYSICS 410 (1-4): 137-156

7.      Raileanu V, Bala A, Hauser F, et al. 2005. Crustal properties from S-wave and gravity data along a seismic refraction profile in Romania  TECTONOPHYSICS 410 (1-4): 251-272 DEC 9

 

Lucrarea Seghedi I., Downes H., Harangi Sz., Mason P., Pécskay Z. 2005. Geochemical response of magmas to Neogene-Quaternary continental collision in the Carpathian-Pannonian region: a review. Tectonophysics 410, 485-499 a fost citata de:

1. Lustrino M, Wilson M. 2007. The circum-Mediterranean anorogenic Cenozoic igneous province  EARTH-SCIENCE REVIEWS 81 (1-2): 1-65

 

Lucrarea Pécskay Z., Lexa J., Szakács A., Seghedi I., Balogh K., Konečný V., Zelenka T., Kovacs M., Póka T., Fülöp A., Márton E., Panaiotu C. and Cvetković V. 2006. Geochronology of Neogene-Quaternary magmatism in the Carpathian arc and Intra-Carpathian area: a Review. Geologica Carpathica, 57, 6, 511-530 a fost citata de:

1.Hurai V, Huraiova M, Konecny P, et al. 2007 Mineral-melt-fluid composition of carbonate-bearing cumulate xenoliths in Tertiary alkali basalts of southern Slovakia  MINERALOGICAL MAGAZINE 71 (1): 63-79

 

Lucrarea Nicolae I, Saccani E., Petrology and geochemistry of the late Jurassic calc-alkaline series associated to Middle Jurassic ophiolites in the South Apuseni Mountains (Romania), SCHWEIZERISCHE MINERALOGISCHE UND PETROGRAPHISCHE MITTEILUNGEN 83 (1): 81-96 2003

este citata in:

1.      Nicolae I, Saccani E., Preliminary geochemical data on volcanic rocks from the Olt nappe (Transylvanian nappes, Romania): Implication for their origin in the Transylvanides, OFIOLITI 30 (2): 103-106 DEC 2005

2.      Bortolotti V, Marroni M, Nicolae I, et al., An update of the Jurassic ophiolites and associated calc-alkaline rocks in the South Apuseni Mountains (western Romania).', OFIOLITI 29 (1): 5-18 Sp. Iss. SI JUN 2004

 

Saccani E, Seghedi A, Nicolae I., Evidence of rift magmatism from preliminary petrological data on Lower Triassic mafic rocks from the North Dobrogea Orogen (Romania)  OFIOLITI 29 (2): 231-241 DEC 2004

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  1. Pomonis P, Tsikouras B, Hatzipanagiotou K, Geological evolution of the Koziakas ophiolitic complex (Western Thessaly, Greece), OFIOLITI 30 (2): 75-84 DEC 2005
  2. Bortolotti V, Principi G., Tethyan ophiolites and Pangea break-up 
    ISLAND ARC 14 (4): 442-470 DEC 2005

 

Lucrarea V. Bortolotti, M. Marroni, I. Nicolae, L. Pandolfi, G. Principi and E. Saccani,  An update of the Jurassic ophiolites and associated calc-alkaline rocks in the South Apuseni Mountains (Western Romania). 29 (1): 5-18. 2004

este citata in:

  1. Krezsek C, Bally AW, The Transylvanian Basin (Romania) and its relation to the Carpathian fold and thrust belt: Insights in gravitational salt tectonics, MARINE AND PETROLEUM GEOLOGY 23 (4): 405-442 MAY 2006
  2. Bortolotti V, Principi G, Tethyan ophiolites and Pangea break-up 
    ISLAND ARC 14 (4): 442-470 DEC 2005
  3. Saccani E, Seghedi A, Nicolae I, Evidence of rift magmatism from preliminary petrological data on Lower Triassic mafic rocks from the North Dobrogea Orogen (Romania), OFIOLITI 29 (2): 231-241 DEC 2004

 

Lucrarea  Féménias O., Mercier J. C. C., Nkono C., Diot H., Berza T., Tatu M., Demaiffe D. Calcic amphibole growth and compositions in calc-alkaline magmas: Evidence from the Motru Dike Swarm (Southern Carpathians, Romania) . 2006. American Mineralogist 91: 73-81.

citată in Nkono C, Femenias O, Diot H, et al. Flowage differentiation in an andesitic dyke of the Motru Dyke Swarm (Southern Carpathians, Romania) inferred from AMS, CSD and geochemistry  JOURNAL OF VOLCANOLOGY AND GEOTHERMAL RESEARCH 154 (3-4): 201-221 JUN 15 2006

 

Lucrarea  Airinei, St., Stoenescu, Sc., Velcescu Georgeta, Romanescu, D., Visarion, M., Radan, S., Roth, M., Besutiu, L., Besutiu, G. (1985) Distributia anomaliilor magnetice DZa pe teritoriul României: St. cerc. geol. geofiz. geogr., GEOFIZICA, 23, p.12-19 a fost 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 Stanica D., Stanica M., 1988, 2D modelling of the geoelectric structure in the area of the deep-focus Vrancea earthquakes. In Sledzinski, J. (Ed.), reports on Geodesy. CEI CERGORP „South Carpathians” Monograph, vol. 7 (37). Politechnika, Warszawska, pp.193-203 a fost citata de:

1.      Michael Landes, W. Fielitz, F.Hauser, M. Popa, CALIXTO Group, 2004, 3-D upper crustal tomographic srtructure across the Vrancea seismic zone, Romania, in ELSEVIER,Tectonophysics 382 (2004), 85-102

Lucrarea Stanica D., Stanica M, Visarion M., 1986, The structureof the crust and upper mantle in Romania as deduced from magnetotelluric data. Rev.Roum.Geol. Geophys. Geogr., Ser. Geophys. 30, 25-35 a fost citata de:

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Lucrarea Visarion M., Sandulescu M., Stanica D., Atanasiu L., 1988, An improved geotectonic model of the East Carpathians. Rev. Roum.Geol. Geophys. Geogr., Ser. Geophys. 32, 43-52,  in ELSEVIER, a fost citata de:

  1. I. Panea, R. Stephenson, C. Knapp, V. Mocanu, G. Drijkoningen, L. Matenco, J. Knapp, K. Prodehl, 2005, Near-Vertical reflaction image using a novel acquisition technique across the Vrancea Zone and Focsani Basin, south-eastern Carpathians (Romania),  in ELSEVIER, Tectonophysics 410 (2005),  293-309

 

Lucrarea Visarion M., Sandulescu M., Stanica D., Veliciu, S., 1988, Contribution a la connaissance de la structure profonde de la platforme Moesienne en Roumanie. St.tehn. Econ., Ser. Geofiz., D 15, 211- 222 a fost citata de

  1. Michael Landes, W. Fielitz, F.Hauser, M. Popa, CALIXTO Group, 2004, 3-D upper crustal tomographic srtructure across the Vrancea seismic zone, Romania, in ELSEVIER, Tectonophysics 382 (2004), 85-102