Publicaciones seleccionadas (todas las publicaciones de los miembros del grupo pueden verse en las páginas web personales)

Selected Papers (all papers of the group members can be seen in their personal web pages)

se pueden obtener separatas de los autores previa petición

reprints available from the authors upon request

 

Cambrian-Ordovician magmatism of Iberia

  1. Bea, F., Montero, P., Talavera, C., and Zinger, T. 2006. A Revised Ordovician Age for the Oldest Magmatism of Central Iberia: U-Pb Ion Microprobe and LA-ICPMS Dating of the Miranda Do Douro Orthogneiss. Geologica Acta 4 395-401.

  2. Montero, P., Bea, F., González-Lodeiro, F., Talavera, C., and Whitehouse, M. 2007. Zircon Crystallization Age and Protolith History of the Metavolcanic Rocks and Metagranites of the Ollo De Sapo Domain in Central Spain. Implications for the Neoproterozoic to Early-Paleozoic Evolution of Iberia. Geological Magazine 144 (6): 963-76.

  3. Bea, F, Montero, P., Gonzalez Lodeiro, F., and Talavera, C. 2007. Zircon Inheritance Reveals Exceptionally Fast Crustal Magma Generation Processes in Central Iberia During the Cambro-Ordovician. Journal of Petrology 48 2327-39.

  4. Montero, M.P., Bea, F, Corretge, L.G., Floor, P., and Whitehouse, M.J. 2008. U-Pb Ion Microprobe Dating and Sr-Nd Isotope Geology of the Galiñeiro Igneous Complex. A Model for the Peraluminous/Peralkaline Duality of the Cambro-Ordovician Magmatism of Iberia. Lithos 107 227-38.

  5. Talavera, C., Montero, M.P., Bea, F, and Whitehouse, M. 2008. A Revised Ordovician Age for the Sisargas Orhogneiss, Galicia (Spain). Zircon U-Pb Ion-Microprobe and La-Icpms Dating. Geologica Acta 6 313-18.

  6. Montero, P., Talavera, C., Bea, F., González-Lodeiro, F., and Whitehouse, M. J. 2009. Zircon Geochronology and the Age of the Cambro-Ordovician Rifting in Iberia. Journal of Geology 117 174-91.

  7. Bea, F.; Montero, P.; Talavera, C.; Abu Anbar, M. M.; Scarrow, J. H.; Molina, J. F.; and Moreno, J. A 2010. The paleogeographic position of Central Iberia in Gondwana during the Ordovician: evidence from zircon chronology and Nd isotopes. Terra Nova, 22: 341-346.

  8. Talavera, C., Montero, P., Bea, F., González Lodeiro, F., Witehouse, M. (2013) U–Pb Zircon geochronology of the Cambro-Ordovician metagranites and metavolcanic rocks of central and NW Iberia. Int. J. Earth Sci. 102, 1-23.


Variscan magmatism of Iberia

  1. Bea, F., Montero, P., and Molina, J.F. 1999. Mafic Precursors, Peraluminous Granitoids, and Late Lamprophyres in the Avila Batholith: A Model for the Generation of Variscan Batholiths in Iberia. Journal of Geology 107: 399-419.

  2. Bea, F., Montero, P., and Zinger, T. 2003. The Nature and Origin of the Granite Source Layer of Central Iberia: Evidence From Trace Element, Sr and Nd Isotopes, and Zircon Age Patterns. Journal of Geology 111 579-95.

  3. Bea, F., Montero, P., González-Lodeiro, F., Talavera, C., Molina, J. F., Scarrow, J. H., Whitehouse, M. J., and Zinger, T. F. 2006. Zircon Thermometry and U-Pb Ion-Microprobe Dating of the Gabbros and Associated Migmatites of the Variscan Toledo Anatectic Complex, Central Iberia. Journal of the Geological Society, London 163 847-55.

  4. Scarrow, J. H., Molina Palma, J. F., Bea, F., and Montero, P. 2009. Within-Plate Calc-Alkaline Rocks: Insights From Alkaline Mafic Magma–Peraluminous Crustal Melt Hybrid Appinites of the Central Iberian Variscan Continental Collision. Lithos 110 50-64.

  5. Molina Palma, J. F., Scarrow, J. H., Montero, P., and Bea, F. 2009. Petrognetic Significance of Ti-Rich Amphibole in Calc-Alkaline Mafic to Ultramafic Rocks: The Variscan Appinites of Central Iberia. Contributions to Mineralogy and Petrology 158 69-98.

  6. Scarrow, H., Molina Palma, J. F., Bea, F., Montero, P., Vaughan, A. P., 2011. Lamprophyre dikes as tectonic markers of late orogenic transtension timing and kinematics: A case study from the Central Iberian Zone. Tectonics. 30, doi:10.1029/2010TC002755.


Caribbean magmatism and metamorphism

  1. García Casco, A., Torres Roldán, R.L., Millán Trujillo G., Monié P., Haissen, F. 2001.  High-grade metamorphism and hydrous melting of metapelites in the Pinos Terrane (W Cuba): Evidence for crustal thickening and extension in the northern Caribbean collisional belt. Journal of Metamorphic Geology 19, 699-715

  2. García Casco, A., Torres Roldán, R.L., Millán Trujillo, G., Monié, P., Schneider, J.  2002. Oscillatory zoning in eclogitic garnet and amphibole, northern serpentinite melange, Cuba: A record of tectonic instability during subduction? Journal of Metamorphic Geology 20, 581-598

  3. García-Casco, A.  2007. Magmatic paragonite in trondhjemites from the Sierra del Convento mélange, Cuba. American Mineralogist 92, 1232-1237

  4. García-Casco, A., Lázaro, C., Rojas-Agramonte, Y., Kröner, A., Torres Roldán, R. L., Nuñez, K., Millán, G., Neubaurer, F., Quintero, I.  2008. Partial melting and counterclockwise P-T path of subducted oceanic crust (Sierra del Convento, E Cuba). Journal of Petrology 49, 129-161

  5. Lázaro, C., García-Casco, A. 2008. Geochemical and Sr-Nd isotope signatures of pristine slab melts and their residues (Sierra del Convento mélange, eastern Cuba). Chemical Geology. Chemical Geology, 255, 120-133.

  6. Rojas-Agramonte, Y., Kröner, A., Pindell, J., García-Casco, A., García-Delgado, D. Liu, D., Wang, Y.  2008. Detrital zircon geochronology of Jurassic sandstones of western Cuba (San Cayetano Formation): Implications for the Jurassic paleogeography of the NW Proto-Caribbean. American Journal of Science 308, 639-656

  7. Lázaro, C., García-Casco, A., Neubaurer, F., Rojas-Agramonte, Y., Kröner, A., Iturralde-Vinent, M.A. 2009. Fifty-five-million-year history of oceanic subduction and exhumation in the northern edge of the Caribbean plate (Sierra del Convento mélange, Cuba). Journal of Metamorphic Geology, 27, 19-40

  8. García-Casco, A., Rodríguez Vega, A., Cárdenas Párraga, J., Iturralde-Vinent, M. A., Lázaro, C., Blanco Quintero, I., Rojas- Agramonte, Y., Kröner, A., Núñez Cambra, K., Millán, G., Torres-Roldán, R. L., Carrasquilla, S.  2009. A new jadeitite jade locality (Sierra del Convento, Cuba): First report and some petrological and archaeological implications. Contributions to Mineralogy and Petrology, 158, 1-26

  9. van Hinsbergen, D.J.J., Iturralde-Vinent, M.A., Van Geffen, P.W., García-Casco, A., and van Benthem, S. 2009. Structure of the accretionary prism, and the evolution of the Paleogene northern Caribbean subduction zone in the region of Camagüey, Cuba. Journal of Structural Geology. 31, 1130-1144.


Uralian magmatism

  1. Fershtater, G.B., Montero, P., Borodina, N.S., Pushkarev, E.V., Smirnov, V.N., and Bea, F. 1997. Uralian Magmatism: An Overview. Tectonophysics 276 (1-4): 87-102.

  2. Bea, F., Fershtater, G., Montero, P., Smirnov, V., and Zinkova, E. 1997. Generation and Evolution of Subduction-Related Batholiths From the Central Urals: Constraints on the P-T History of the Uralian Orogen. Tectonophysics 276 (1-4): 103-16.

  3. Montero, P., Bea, F., Gerdes, A., Fershtater, G., Zinkova, E., Borodina, N., Osipova, T., and Smirnov, V. 2000. Single-Zircon Evaporation Ages and Rb-Sr Dating of 4 Major Variscan Batholiths of the Urals - a Perspective on the Timing of Deformation and Granite Generation. Tectonophysics 317 (1-2): 93-108.

  4. Bea, F., G. B. Fershtater, and P. G. Montero. 2002. Granitoids of the Uralides: Implications for the Evolution of the Orogen. In Mountain Building in the Uralides: Pangea to the Present (Geophysical Monograph: 132), edited by Dennis Brown, Christopher Juhlin, and Victor Puchkov. Washington: American Geophysical Union.

  5. Bea, F.; Fershtater, G. B.; Montero, P.; Whitehouse, M.; Levin, V. Y.; Scarrow, J. H.; Austrheim, H.; and Pushkariev, E. V. 2001. Recycling of continental crust into the mantle as revealed by Kytlym Dunite zircons, Urals Mts. Russia. Terranova, 13: 407-412.

  6. Bea, F., Fershtater, G. B., Montero, P., Smirnov, V.N., and Molina, J. F. 2005. Deformation-Driven Differentiation of Granitic Magma: The Stepninsk Pluton of the Uralides, Russia. Lithos 81 209-33.

  7. Brown, D., Juhlin, C., Ayala, C., Tryggvason, A., Bea, F, Alvarez-Marron, J., Carbonell, R., Seward, D., Glasmacher, U., Puchkov, V., and Perez-Estaún, A. 2008. Mountain Building Processes During Continent-Continent Collision in the Uralides. Earth Science Reviews 89 177-95.

  8. Fershtater, G. B.; Krasnobaev, A. A.; Bea, F.; Montero, P.; Levin, V. Y.; and Kholodnov, V. V. 2009. Isotopic–Geochemical Features and Age of Zircons in Dunites of the Platinum-Bearing Type Uralian Massifs: Petrogenetic Implications. Petrology, 17: 503-520.

  9. Fershtater, G. B.; Krasnobaev, A. A.; Bea, F.; Montero, P.; and Borodina, N. S. 2009. Intrusive Magmatism during Early Evolutionary Stages of the Ural Epioceanic Orogen: U-Pb Geochronology (LA ICP MS, NORDSIM, and SHRIMP II), Geochemistry, and Evolutionary Tendencies. GEOCHEMISTRY INTERNATIONAL, 47(2): 143-162.

  10. Fershtater, G. B., Krasnobaev, A. A., Bea, F., Montero, P., 2012. The geochemistry of  zircon  from  magmatic  and  metamorphic rocks  of the Urals. Lithosphere. 4, 13-30.

  11. Grabezhev, A. I., Bea, F., Montero, P., & Fershtater, G. (2013). The U-Pb SHRIMP age of zircons from diorites of the Tomino-Bereznyaki ore field (South Urals, Russia): evolution of porphyry Cu-epithermal Au-Ag system. Russian Geology and Geophysics, 54, 1332-1339.


Egypt

  1. Bea, F.; Abu Anbar, M. M.; Montero, P.; Peres, P.; and Talavera, C. 2009. The ∼844 Ma Moneiga quartz-diorites of the Sinai, Egypt: Evidence for Andean-type arc or rift-related magmatism in the Arabian-Nubian Shield? Precambrian Research, 175: 161-178.

  2. Bea, F., Montero, P., Abu Anbar, M., Talavera, C., 2011. SHRIMP dating and Nd isotope geology of the Archean terranes of the Uweinat-Kamil inlier, Egypt–Sudan–Libya. Precambrian Reearch 189, 328-346

  3. Bea, F., Montero, P., Abu Anbar, M., Molin, J. F., Scarrow, J., 2011. The Bir Safsaf Precambrian inlier of South West Egypt revisited. A model for ~ 1.5 Ga TDM late Pan-African granite generation by crustal reworking. Lithos 125, 897-914.

  4. Moreno, J.A, Montero, P., Abu Anbar, M., Molina, J.F., Scarrow, J.H., Talavera, C., Cambeses, A., Bea F., 2011. SHRIMP U–Pb zircon dating of the Katerina Ring Complex: Insights into the temporal sequence of Ediacaran calc-alkaline to peralkaline magmatism in southern Sinai, Egypt. Gondwana Research  21, 887-900.


Iran

  1. Mazhari, S. A.; Bea, F.; Amini, S.; Ghalamghash, J.; Molina, J. F.; Montero, M. P.; Scarrow, J.; and Williams, I. S. 2009. The Eocene bimodalPiranshahr massif of the SanandajSirjan Zone, NW Iran: a marker of the end of the collision in the Zagros orogen. Journal of the Geological Society, 166: 53-69.

  2. Bea, F.; Scarrow, J. H.; Mazhari, S. A.; Molina, J. F.; Montero, P.; Amini, S.; and Ghalamghash, J. 2009. Reply to discussion on the Eocene bimodal Piranshahr massif of the Sanadaj– Sirjan Zone, West Iran: a marker of the end of collision in the Zagros orogen. Journal of the Geological Society, 166: 983-984.

  3. Mazhari, S. A.; Amini, S.; Ghalamghash, J.; and Bea, F. 2009. Petrogenesis of granite unit of the Naqadeh complex, Sanandaj-Sirjan Zone, Iran. Arabian Journal of Geosciences, : DOI 10.1007/s12517-009-0077-6.

  4. Bea, F.; Mazhari, S. A.; Montero, P.; Amini, S.; and Ghalamghash, J. 2010. Zircon dating, Sr and Nd isotopes, and element geochemistry of the Khalifan pluton, NW Iran: Evidence for Variscan Magmatism in a supposedly Cimmerian superterrane. Journal of Asian Earth Sciences, doi:10.1016/j.jseaes.2010.08.005.

  5. Mazhari, S. A., Amini, S., Ghalamghash, J., Bea, F., 2011. Metasomatic stages and scapolitization effects on chemical composition of Pasveh pluton, NW Iran. Journal of Earth Science 22, 619-631.

  6. Mazhari, S. A., Amini, S., Ghalamghash, J., Bea, F., 2011. Petrogenesis of granitic unit of Naqadeh complex, Sanandaj-Sirjan Zone, NW Iran. Arabian Journal of Geosciences 4, 59-67.


Morocco

  1. El Hadi, H.; Simancas, F.; Martinez Poyatos, D.; Azor, A.; Tahiri, A.; Montero, P.; Fanning, C. M.; Bea, F.; and Gonzalez Lodeiro, F. 2010. Structural and geochronological constraints on the evolution of the Bou Azer Neoproterozoic ophiolite (Anti-Atlas, Morocco). Precambrian Research, 182: 1-14.

  2. Bea, F., Montero, P., Haissen, F., El Archi, A., 2013. 2.46 Ga kalsilite and nepheline syenites from the Awsard pluton, Reguibat Rise of the West African Craton, Morocco. Generation of extremely K-rich magmas at the Archean–Proterozoic transition. Precambrian Research 224, 242-254.

  3. Montero, P., Haissen, F. El Archi, A., Rjimati, E., Bea, F. (2014). Timing of Archean crust formation and cratonization in the Awsard-Tichla zone of the NW Reguibat Rise, West African Craton: A SHRIMP, Nd–Sr isotopes, and geochemical reconnaissance study. Precambrian Research 242, 112-137.

  4. Bea, F., Montero, P., Haissen, F., Rjimati, E., Molina, J. F., Scarrow, J. H., 2014. Kalsilite-bearing plutonic rocks: The deep-seated Archean Awsard massif of the Reguibat Rise, South Morocco, West African Craton. Earth-Science Reviews. 138, 1-24.


Tematic papers

  1. Bea, F.; Fershtater, G.; and Corretge, L. G. 1992. The Geochemistry of Phosphorus in Granite Rocks and the Effect of Aluminum. Lithos, 29(1-2): 43-56.

  2. Bea, F.; Montero, P.; Garuti, G.; and Zacharini, F. 1997. Pressure-dependence of rare earth element distribution in amphibolite- and granulite-grade garnets. A LA-ICP-MS study. Geostandards Newsletters, 21(2): 253-270.

  3. Bea, F. 1996. Residence of REE, Y, Th and U in granites and crustal protoliths; Implications for the chemistry of crustal melts. Journal of Petrology, 37(3): 521-552.

  4. Bea, F.; and Montero, P. 1999. Behavior of accessory phases and redistribution of Zr, REE, Y, Th, and U during metamorphism and partial melting of metapelites in the lower crust: An example from the Kinzigite Formation of Ivrea-Verbano, NW Italy. Geochimica et Cosmochimica Acta, 63(7-8): 1133-1153.

  5. García Casco, A., Haissen, F, Castro, A., El-Hmidi, H., Torres Roldán, R.L., Millán Trujillo, G.  2003. Synthesis of staurolite in melting experiments of a natural metapelite: Consequences for the phase relations in low temperature pelitic migmatites. Journal of Petrology 44, 1727-1757.

  6. López, S., Castro, A., Carcía–Casco, A. 2005. Production of granodiorite melt by interaction between hydrous mafic magma and tonalitic crust. Experimental constraints and implications for the generation of Archaean TTG complexes. Lithos 79 (1-2), 229-250

  7. Bea, F.; Montero, P.; and Ortega, M. 2006. A LA-ICPMS evaluation of Zr reservoirs in common crustal rocks: implications for Zr and Hf geochemistry, and zircon-forming processes. Canadian Mineralogist, 44: 693-714.

  8. Castro, A., García-Casco, A., Fernández, C., Corretgé, L.G., Moreno-Ventas, I., Gerya, T., Löw. I.  2009.  Primary ferrosilicic magmas produced by near-total melting of metagreywackes within the mantle wedge. Gondwana Research,  16, Issues 3-4, 622-632

  9. Scarrow, J. H.; Bea, F.; Montero, P.; and Molina, J. F. 2009. Shoshonites, vaugnerites and potassic lamprophyres: similarities and differences between ‘ultra’-high-K rocks. Earth and Environmental Science Transactions of the Royal Society of Edinburgh, 99: 1-17.

  10. Bea, F. 2010. Crystallization Dynamics of Granite Magma Chambers in the Absence of Regional Stress: Multiphysics Modeling with Natural Examples. Journal of Petrology, 51: 1541-1569.

  11. Qiu, L., Rudnick, R. L., McDonough, W. F., Bea, F., 2011. The behavior of lithium in amphibolite- to granulite-facies rocks of the Ivrea–Verbano Zone, NW Italy. Chemical Geology 289, 76-85.

  12. Bea, F., Molina, J. F., Montero, P., Scarrow, J. H., 2012. On the Seventh Hutton Symposium on the origin of granites and related rocks. Lithos 153, 1-2.

  13. Bea, F. 2012. The sources of energy for crustal melting and the geochemistry of heat-producing elements. Lithos 153, 278-291.

  14. Clemens, J.D., Bea, F. (editors) (2012). Landmark Papers nº 4: Granite Petrogenesis. Mineralogical Society of Great Britain & Ireland

  15. Bea, F. Montero, P. (2013) Diffusion-induced disturbances of the U–Pb isotope system in pre-magmatic zircon and their influence on SIMS dating. A numerical study. Chemical Geology 349-350, 1-17.


Methodologic papers

  1. Bea, F.; Montero, P.; Stroh, A.; and Baasner, J. 1996. Microanalysis of minerals by an Excimer UV-LA-ICP-MS system. Chemical Geology, 133(1-4): 145-156.

  2. Montero, P.; and Bea, F. 1998. Accurate determination of 87Rb/86Sr and 147Sm/144Nd ratios by inductively-coupled-plasma mass spectrometry in isotope geoscience: an alternative to isotope dilution analysis. Analytica Chimica Acta, 358: 227-233.

  3. Torres Roldán R.L., García Casco A, García Sánchez P.A. 2000.  CSpace: An integrated workplace for the graphical and algebraic analysis of phase assemblages on 32-bit Wintel platforms. Computers and Geosciences 26, 779-793