Dr. Marina ManeaDownload PDF_RODownload PDF_EN | ABSTRACTE
Numarul de Abstracte gasit in baza de date: 65♦ Manea, M., Manea, V.C., and Kostoglodov, V., 2002. Accretionary Prism in the Mexican Subduction Zone Inferred from Gravity Modeling, GEOS, UGM, 22, No.2, Abstract GET-21, 154.♦ Manea, V.C., Kostoglodov, V., Curie, C.A., Manea, M., and Wang, K., 2002. Temperature Models for the Mexican Subduction Zone, GEOS, UGM, 22, No.2, Abstract GET-22, 155.♦ Mortera-Gutierez, C.A., Bandy, W.L., Prol-Ledezma, R.M., Canet-Miguel, C., Cruz-Ocampo, J.C., Perez-Mortera, H., Pelaez-Gaviria, J.R., Pardo-Castro, G., Serrato-Diaz, G.S., Mendoza-Cervantes, K., Rodrigues-Chavez, F., Manea, M., Manea, V.C., Urrutia-Fucugauchi, J., Molina-Cruz, A., Machain-Castillo, M.L., Arellano-Torres, E., and Flores-Ruiz, J.H., 2002. Evidencia batimétrica y magnética de no existencia de volcanes marinos en el talud continental del Golfo de México enfrente de la Costa de Veracruz, GEOS, UGM, 22, No.2, Abstract GEOM-02, 223;♦ Manea, M., Manea, V.C., and Kostoglodov, V., 2002. Accretionary Prism in the Mexican Subduction Zone Inferred from Gravity Modeling. Eos Trans. AGU, 83(47), Fall Meet. Suppl., Abstract T62B-1304.♦ Manea, V.C., Kostoglodov, V., Currie, C., Manea, M., and Wang, K., 2002. Temperature Models for the Mexican Subduction Zone. Eos Trans. AGU, 83(47), Fall Meet. Suppl., Abstract T62B-1303♦ Mortera-Gutierez, C.A., Bandy, W.L., Prol-Ledezma, R.M., Canet-Miguel, C., Ortega-Ramirez, J.R., Urrutia-Fucugauchi, J., Perez-Mortera, H., Pelaez-Gaviria, J.R., Pardo-Castro, G., Serrato-Diaz, G.S., Mendoza-Cervantes, K., Rodrigues-Chavez, F., Manea, M., Manea, V.C., Cruz-Ocampo, J.C., Molina-Cruz, A., Machain-Castillo, M.L., Arellano-Torres, E., and Flores-Ruiz, J.H., 2002. 3D Bathymetry and Magnetic Evidence of no Existence of Volcanic Edifices on the Gulf of Mexico Continental Slope Offshore the Veracruz Coast, Mexico. Eos Trans. AGU, 83(47), Fall Meet. Suppl., Abstract V11A-1362.♦ Manea, M., Manea, V.C., and Kostoglodov, V., 2003. Sediment fill in the Middle America Trench inferred from gravity. Paper no. 31-12, Cordilleran Section 99th Annual 1-3, 2003, Puerto Vallarta, Jalisco♦ Manea, V.C., Kostoglodov, V., Manea, M., Currie, C., and Wang, K., 2003. Thermal models, coupling and metamorphism for the Mexican subduction zone beneath Guerrero. Paper no. 20-2, Cordilleran Section 99th Annual 1-3, 2003, Puerto Vallarta, Jalisco.♦ Manea, V.C., Manea, M., Kostoglodov, V., Sewell, G., Currie, C.A., and Wang, K., 2003. Mantle wedge flow and thermal models for the Central Mexican subduction zone, Geophysical Research Abstracts, EGU 2003, vol. 5, 07450.♦ Manea, V.C., Manea, M., Kostoglodov, V., and Sewell, G., August 2003. Mantle wedge flow and thermal models fro the Central Mexican subduction zone. The hotspot handbook, Proceedings of Penrose Conference Plume IV, Beyond the Plume Hypothesis, Hveragerdi, Iceland.♦ Manea, M., Manea, V.C., and Kostoglodov, V., 2003. Elastic thickness of the lithosphere below the Tehuantepec ridge, GEOS, UGM, 23, No.2, Abstract GETT-18, 118.♦ Manea, V.C., Manea, M., Kostoglodov, V., and Sewell, G., 2003. Thermal, mantle wedge flow and blob tracing models for the Mexican subduction zone. GEOS, UGM, 23, No.2, Abstract TSSZ-5, 218.♦ Manea, V.C., Manea, M., Kostoglodov, V., and Sewell, G. 2003. Thermal model for the Kamchatka subduction zone, UGM, in special session: "La estructura termica de las zonas de subduccion";♦ Manea, M., Manea, V.C., and Kostoglodov, V., 2003. Elastic Thickness of the lithosphere below the Tehuantepec ridge. Eos Trans. AGU, 84(46), Fall Meet. Suppl., Abstract T51F-0213.♦ Manea, V.C., Manea, M., and Kostoglodov, V., 2003. Blob Tracing Models for the Central Mexican Volcanic Belt. Eos Trans. AGU, 84(46), Fall Meet. Suppl., Abstract T41F-0246.♦ Manea, M., Manea, V.C., and Kostoglodov, V., 2004. Tehuantepec ridge as a compressional structure. Geophysical Reasearch Abstracts, vol. 6, 04465, Sref-ID: 1604-7962/gra/EGU04-A-04465.♦ Manea, V.C., Manea, M., Kostoglodov, V., and Sewell, G., 2004. New insights for the Kamchatka subduction zone: thermal models, magma transport and tomographic imaging. Geophysical Reasearch Abstracts, vol. 6, 04473, Sref-ID: 1607-7962/gra/EGU04-A-04473.♦ Manea, M., Manea, V.C., and Kostoglodov, V., 2004. Tehuantepec Ridge: a compressional structure?, Eos. Trans. AGU, 85(17), Joint Assembly Suppl., Abstract, T51A-12 POSTER, JA46.♦ Manea, V.C., Manea, M., Kostoglodov, V., Sewell, G., and Singh, S.K., 2004. Intraslab Seismicity and Thermal in the Subducted Cocos Plate beneath Central Mexico, Eos. Trans. AGU, 85(17), Joint Assembly Suppl., Abstract, G21A-07 POSTER, JA115.♦ Manea, M., Manea, V.C., Kostoglodov, V., and Ferrari, L., August 21-27, 2004. Tehuantepec ridge formation and Chiapas Volcanic Arc. Linkages among tectonics, seismicity, magma genesis, and eruption in volcanic arcs, IV International Biennial Workshop on Subduction Processes emphasizing the Japan-Kurile-Kamchatka-Aleutian Arcs, Petropavlovsk-Kamchatsky, 147.♦ Manea, V.C., Manea, M., and Kostoglodov, V., and Sewell, G., August 21-27, 2004. The thermal structure beneath southern Kamchatka inferred from numerical models. Linkages among tectonics, seismicity, magma genesis, and eruption in volcanic arcs, IV International Biennial Workshop on Subduction Processes emphasizing the Japan-Kurile-Kamchatka-Aleutian Arcs, Petropavlovsk-Kamchatsky, 147-148.♦ Manea, M., Manea, V.C., and Kostoglodov, V., 2004. Unsteady mantle wedge flow beneath southern Mexico, Chiapas Volcanic Arc and Tehuantepec ridge formation. GEOS, UGM, 23, No.2, Abstract GET-59, 181-182.♦ Manea, V.C., Manea, M., and Kostoglodov, V., 2004. Mantle wedge thermal models constrained by the seismic P-wave velocity anomalies. GEOS, UGM, 23, No.2, Abstract GET-58, 181.♦ Manea, V.C., Manea, M., Kostoglodov, V., and Granville, S., 2004. Thermo-mechanical of the mantle wedge in southern Kamchatka subduction zone and a blob tracing approach for the magma transport. G05.03(86), 130-8. 32nd IGC Florence, Italy, August 20-28♦ Manea, M., Manea, V.C., Kostoglodov,V., 2004. Tehuantepec Ridge: a compressional structure? G05.01(130) 130-13. 32nd IGC Florence, Italy, August 20-28.♦ Manea, M., Manea, V.C., and Kostoglodov, V., 2004. Thermal Models for Southern Mexico and Guatemala and the Position of the Volcanic Belt. Eos Trans. AGU, 84(46), Fall Meet. Suppl., Abstract T13B-1364.♦ Manea, V.C., Manea, M., and Kostoglodov, V., 2004. Thermal Models for Kamchatka and the Position of the Volcanic arc. Eos Trans. AGU, 84(46), Fall Meet. Suppl., Abstract T21B-0532.♦ Franco Sánchez, S.I., Kostoglodov, V., Larson, K.M., Manea, V.C., Manea, M., and Santiago, J.A., 2005. The 2001-2002 aseismic slow slip event and an interplate coupling in the Oaxaca subduction zone, Mexico. Geophysical Research Abstracts, vol. 7, 02218. SRef-ID: 1607-7962/gra/EGU05-A-02118.♦ Manea, M., and Manea, V.C., 2005. Thermal structure of the Cocos slab beneath southern Mexico and its relationship with the arc volcanism. AGU Chapman Conference on The Great Plume Debate: The Origin and Impact of LIPs and Hotspots, Fort William, Scotland.♦ Manea, V.C. and Manea, M., 2005. Thermal structure beneath Kamchatka and plume to arc magmatism transition. AGU Chapman Conference on The Great Plume Debate: The Origin and Impact of LIPs and Hotspots, Fort William, Scotland.♦ Manea, V.C. and Manea, M., 2005. Thermal models beneath Kamchatka and the Pacific plate rejuvenation from a mantle plume impact. Interdisciplinary Workshop on Earth's Mantle Composition, Structure, and Phase Transitions, Saint Malo, France.♦ Manea, M., and Manea, V.C., 2005. Serpentinized cold mantle wedge beneath southern Mexico: new insights from thermal models and magnetic anomalies. Interdisciplinary Workshop on Earth's Mantle Composition, Structure, and Phase Transitions, Saint Malo, France.♦ Manea, V.C., and Manea, M., 2005. Pacific plate rejuvenation from plume impact in front of the Kamchatka trench: a mechanism to produce adakitic magmas for old and fast subduction zones, IVth National Meeting for Earth Sciences, Puerto Vallarta, Jalisco, Mexico;♦ Manea, M., and Manea, V.C., 2005. Low temperature and high amplitude magnetic anomaly beneath Chiapas: evidence for a highly serpentinized mantle wedge, IVth National Meeting for Earth Sciences, Puerto Vallarta, Jalisco, Mexico;♦ Kostoglodov, V., Franco-Sánchez, S.I., Larson, K., Manea, V.C., Manea, M., and Santiago, J.A., 2005. Propagation of the 2001-2002 silent earthquake in the Mexican subduction zone, IVth National Meeting for Earth Sciences, Puerto Vallarta, Jalisco, Mexico;♦ Manea, V.C. and Manea, M., 2006. Anomalous mantle wedge in southern Mexico (Chiapas): Observational constraints and numerical models. GSA Backbone of the Americas-Patagonia to Alaska, (3-7 April), Mendoza, Mendoza Province, Argentina. Session No. 9; T3. Shallowing and Steepening Subduction Zones II. Paper no. 9-8.♦ Manea, M., and Manea, V.C., Gurnis, M., and Turner, M., 2006. Magnetic quiet zone and flat subduction in central Mexico. GSA Backbone of the Americas-Patagonia to Alaska, (3-7 April), Mendoza, Mendoza Province, Argentina. Session No. 9; T3. Shallowing and Steepening Subduction Zones II. Paper no. 9-9.♦ Manea, M., and Manea, V.C., 2006. Flat subduction zone in Central Mexico: constraints from aeromagnetic anomalies. UGM ( ), Puerto Vallarta, Jalisco, Mexico, SE01-8, GEOS, Vol. 26, No.1., pp. 179. ♦ Guzman-Speziale, M., Kostoglodov, V., Manea, M., and Manea, V.C., 2006. Resultados de observaciones GPS: no hay evidencia de desplazamiento de la falla Polochic en el sureste de Mexico. UGM, SE03-13, GEOS, vol. 26, no.1, pp., 195.♦ Manea, M., and Manea, V.C., 2006. Flat slab seen from above: aeromagnetic data in Central Mexico. Eos Trans. AGU 87(52), Fall Meet, Suppl., Abstract T11B-0437.♦ Manea, M., and Manea, V.C., 2007. Adakitic-like volcanism in Southern Mexico and subduction of the Tehuantepec Ridge. Eos Trans. AGU, 88(23), Jt. Assem. Suppl., Abstract T32A-07.♦ Guzman-Speziale, M., Kostoglodov, V., Manea, M., and Manea, V.C., 2007. Results From GPS Observations: No Evidence for Displacement Along the Polochic Fault in Southeastern Mexico. Eos Trans. AGU, 88(23), Jt. Assem. Suppl., Abstract U53A-01.♦ Manea, M., and Manea, V.C., 2007. On the origin of El chichon volcano and subduction of Tehuantepec Ridge: a Geodynamical Perspective. SOTA, Termas Puyehue, Chile.♦ Manea, V.C., and Manea, M., 2007. Flat-slab subduction in Central Mexico: insights from numerical models. SOTA, Termas Puyehue, Chile.♦ Ferrari, L., Orozco, M.T., Manea, V.C., and Manea, M. 2007. Subduction dynamics, three dimensional flows and the geochemical evolution of the Trans-Mexican Volcanic Belt. MARGINS, Costa Rica.♦ Ferrari, L., Manea, V.C., Manea, M., 2007. Fragmentacion de la placa de Norteamerica y nueva geometria del bloque Chortis: una posible explicacion de la tectonica del Neogeno en el sureste de Mexico. GC2007-07-1P Geochortis, Juriquilla, Queretaro, Mexico. ♦ Manea, V.C., Manea, M., 2007. Geodynamic modeling of subduction system in Southern Mexico. GC2007-10P, Geochortis, Juriquilla, Queretaro, Mexico. ♦ Manea, M., Manea, V.C., 2007.Mantle wedge serpentinization in Southern Mexico: the effect of Chortis Block movement. GC2007-11P, Geochortis, Juriquilla, Queretaro, Mexico. ♦ Manea, V.C., Manea, M., Leeman, W.P., and Schutt, D.L., 2007. Geodynamic modeling of plume-lithosphere interaction beneath the Yellowstone hotspot track. Session T117, no. 107-8.♦ Manea, M., 2007. Magnetic and Gravity Anomalies over the Mexican Subduction System as constraint for Geodynamic Models. Seminar Centro de Geociencias, UNAM.♦ Manea, M., 2009. The role of Tehuantepec ridge subduction on mantle hydration and young volcanism in Southern Mexico. 11th International Workshop on Modeling of Mantle Convection and Lithospheric Dynamics, Braunwald, Switzerland♦ Manea, V.C., Pérez-Gussinyé, M., Manea, M., Zlotnik, S., Fernandez, M., 2008. Influence of upper plate structure and mantle viscosity on subduction geometry in South America: insights from numerical modeling. EGU General Assembly, Vienna, Austria. EGU2008-A-04293.♦ Manea, V.C., Manea, M., Ferrari, L., 2008. 3D geodynamic modeling of slab detachment. EGU General Assembly, Vienna, Austria. EGU2008-A-05662 ♦ Manea, V.C., Manea, M., Besutiu, L., Tumanian, M., 2008. Thermal stress field and seismicity beneath the Vrancea relict subduction zone. EGU General Assembly, Vienna, Austria. EGU2008-A-04885.♦ Manea, M., Manea, V.C., 2008. Online Geodynamics: Understanding how the Earth works through an interactive web-based application. EGU General Assembly, Vienna, Austria. EGU2008-A-02943.♦ Manea, M., 2008. New Tools in understanding geoscience research: WEB-based applications, AGU, Eos Trans. AGU,89(23), Jt. Assem. Suppl., abstract ED31B-02.♦ Norini, G., Capra, L., Lagmay, A.M.F., Manea, M., Groppelli, G., Tengonciang, A.M.P., Cerca, M., 2008. Volcanoes in transtensional tectonic regimes, Geomod, Firenze.♦ Manea, V.C., Manea, M., 2008. State-of-the-art Geodynamic modeling of Subduction Zones: From Slab Edges to Flat and Steep Slabs, Goldschmidt, Vancouver, Canada.♦ Manea, V.C., Ferrari, L., Manea, M., 2008. 3D geodynamic modelling of Cenozoic slab detachment beneath western North America., Geomod, Firenze ♦ Manea, M. and Manea, V.C., 2009. Online Geodynamics: interactive web-applications for graduate students in Earth Sciences. EGU2009-3844
♦ Manea, V.C., Manea, M., W. Leeman, and D. Schutt, 2009. Numeric modeling of plume-lithosphere interaction and the magmatism associated with the Yellowstone hotspot track, EGU2009-3871.♦ G. Norini, L. Capra, A.M.F. Lagmay, Manea, M. and G. Groppelli, 2009. Tectonics control over instability of volcanic edifices in transtensional tectonic regimes. EGU2009-715♦ Manea, M., G. Norini, L. Capra, and Manea, V.C., 2009. The Colima Volcano WebGIS: system acquisition, application and database development in an open-source environment. EGU2009-3846♦ Manea, M., Perez-Gussinye, M., Manea, V.C., 2009. Numerical Modeling of Flat Slab Formation in Central Chile. AGU Fall Meeting, San Francisco, Session T23A-1890.♦ Manea, V.C., Manea, M., 2009. Thermally induced stresses beneath the Vrancea area, Integrated research on the intermediate depth earthquake genesis within Vrancea zone. AGU Fall Meeting, San Francisco, Session T51B-1519 |