References: South American Database

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57E.3 Ewing, J.I., Officer, C.B., Johnson, H.R., Edwards, R.S. (1967) Geophysical investigations in the Eastern Caribbean: Trinidad Shelf, Tobago Trough, Barbados Ridge, Atlantic Ocean. Bulletin of the Geological Society of America, 58, 897–912.
59O.1 Officer, C.B., Ewing, J.I., Hennion, J.F., Harkrider, D.G., Miller, D.E. 1959. Geophysical investigations in the eastern Caribbean: Summery of 1955 and 1956 Cruises. In: Ahrens, L.H., and others, eds., Physics and chemistry of the earth, 3, 17-109.
60E.1 Ewing, J., Antoine, J.W. and Ewing, W.M., 1960. Geophysical measurements in the western Caribbean Sea and in the Gulf of Mexico. Journal of Geophysical Research, vol.65, 4087-4126.
60W.2 Woollard, G.P, 1960. Seismic crustal studies during the IGY. II. Continental Program, IGY Bulletin, no.34.
61S.4 G.G. Shor, Jr. and R.L. Fisher, Bull. Geol. Soc. Am., v.72, 721-?
63E.2 Ewing, M., Ludwig, W.J., and Ewing, J.I. 1963. Geophysical Investigations in the Submerged Argentine coastal plain, Geol. Soc. Am. Bull. 74, 275-292.
64P.2 Papazachos, B.C. (1964) Dispersion of Rayleigh Waves in the Gulf of Mexico and Caribbean Sea. Bulletin of Seismological Society of America, 54, 3, 909–925. 65L.1 Le Pichon, X., Drake, C.L., Holtz, R.E. and Nafe, J.E., 1965. Crustal structure of the mid-ocean ridges. Journal of Geophysical Research, vol.70, no.2, p.319.
65L.2 Ludwig, W.J., Ewing, J.I., and Ewing, M., 1965. Seismic refraction measurements in the Magellan Straits. Journal of Geophysical Research, vol.70, no.8,p.1855.
65W.3 Worzel, J.L. 1965. Deep structure of Coast Margins and Mid-Oceanic Ridges, Lamont Geological Observatory (Palisades NY) Contribution N. 820. p. 335-359.
68H.4 Houtz, R., Ewing, J., and X. Le Pichon, 1968. Velocity of deep-sea sediments from sonobuoy data, J. Geophys. Res., 73, 8, 2615-2641.
68L.2 Ludwig, W., Ewing, J., and Ewing, M., 1968. Structure of Argentina continental margin, Am. Assoc. Pet. Geol. Bull. 52, 2337-2368.
70H.4 Houtz, R., Ewing, J., and Buhl, P., 1970. Seismic Data from Sonobuoy stations in the northern and equatorial pacific. Journal of Geophysical Research, vol.75, p.5093-5111.
71E.1 Edgar, N.T., Ewing, J.I., and Hennion, J., 1971. Seismic refraction and reflection in Caribbean Sea. Am. Assoc. Petr. Geol., Bull., vol.55, no.6, p.833-870.
71E.2 Ewing, J.I., Ludwig, W.J., Ewing, M., and Eittreim, S.L., 1971. Structure of the Scotia Sea and Falkland Plateau. Journal of Geophysical Research, vol.76, no.29, p.7118.
71J.1 James, D.E., 1971. Andean crustal and upper mantle structure. Journal of Geophysical Research, vol.76, no.14, p.3246.
71L.4 Leyden, R., Ludwig, W., and Ewing, M. 1971. Structure of continental margin off Punta del Este, Uruguay, and Rio de Janeiro, Brazil. AAPG Bull. 55, 2161-2173.
71S.3 Shor, G.G., et al., 1971. II. Regional observations, I. Structure of the Pacific basin. In: A.E. Maxwell, ed., The Sea John Wiley & Sons, New York, p.3.
72O.1 Ocola, L.C. and Meyer, R.P., 1972. Crustal low-velocity zones under the Peru-Bolivia Altiplano. Geophysical Journal International, vol.30, p.199-209.
75L.2 Ludwig, W.J., Houtz, R.E. and Ewing, J.I., 1975. Profiler-Sonobuoy measurements in Colombia and Venezuela basins, Caribbean Sea. Am. Assoc. Pet. Geol. Bull., vol.59, p.115.
75O.1 Ocola, L.C., Aldrich, L.T., Gettrust, J.F., Meyer, R.P. and Raminez, J., 1975. Project Narino I: Crustal structure under southern Colombian- Northern Ecuador Andes from seismic refraction data. Bulletin of the Seismological Society of America, vol.65, p.1681-1695.
76M.5 Meissner, R.O., Flueh, E.R., Stibane, F., and Berg, E., 1976. Dynamics of the active plate boundary in southwest Colombia according to recent geophysical measurements. Tectonophysics, 35, pp 115-136.
76M.6 Meyer, R.P., Mooney, W.D., Hales, A.L., Helsley, C.E., Woollard, G.P., Hussong, D.M., and Ramirez, J.E. 1976, Refraction Observation Across a Leading Edge, Malpelo Island to the Colombia Cordillera Occidental. The Geophysics of the Pacific Ocean Basin and Its Margin, Geophysical Monograph 19, p. 105-132.
76U.1 Urien, C.M., Martins, L.R., and Zambrano, J.J. 1976. The Geology and Tectonic Framework of Southern Brazil, Uruguay and Northern Argentina Continental Margin: Their behavior during the southern Atlantic opening. A. Acad. Bras. Cienc. 48, Supplemento, 365-376.
76U.2 Uchupi, E., Emery, K.O., Bowin, C.O., and Phillips, J.D. 1976. Continental margin off Western Africa: Senegal to Portugal. Am. Assoc. Petroleum Geol. Bull. 60, 809-878.
77H.3 Houtz, R.E., Ludwig, W.J., Milliman, J.D. and Grow, J.A., 1977. Structure of the northern Brazilian continental margin. Geol. Soc. Am. Bull., vol.88, p.711-719.
77H.5 Hales, A.L., Helsley,C.E., Nation,J.B., 1977. Observations made by the university of Texas at Dallas in progect Narino, In: Narino; proyecto cooperativo internacional, 1973; la transicion oceano-continente en el suroeste de Colombia, Ramirez, J.E. and Aldrich, L.T. (Eds.) p. 281-307.
77H.6 Houtz, R.E. and Ludwig, W.J., 1977. Structure of Colombia Basin, Caribbean Sea, from profiler-sonobuoy measurements, J. Geophys. Res. 82, 4861-4867.
77K.5 Kowsmann, R., Leyden, R., and Francisconi, O., 1977. Marine Seismic Investigations, Southern Brazil Margin, AAPG Bull. 61 (4), 546-557.
77L.5 Leeds, A.R., 1977. Mantle Velocities in the Colombia-Ecuador Region. In: Narino; proyecto cooperativo internacional, 1973; la transicion oceano-continente en el suroeste de Colombia, Ramirez, J.E. and Aldrich, L.T. (Eds.) p. 237-242.
77M.2 Matumoto, T., Ohtake, M., Latham, G. and Umana, J., 1977. Crustal structure in southern central America. Bulletin of the Seismological Society of America, vol.67, p.121-134.
77M.4 Meeder, C.A.,Lewis, B.T.R. and McClain, J., 1977. The structure of the oceanic crust off southern Peru determined from an ocean bottom seismometer. Earth Plan. Sci. Lett., vol.37, no.1, p.13-28.
77W.4 Wade, U.S., Lister, C.R.B., Lewis, B.T.R., Seismic Refraction over Malpelo Ridge in the Panama Basin. In: Narino; proyecto cooperativo internacional, 1973; la transicion oceano-continente en el suroeste de Colombia, Ramirez, J.E. and Aldrich, L.T. (Eds.) p. 209-235.
79C.3 Cloetingh, S., Nolet, G., and Wortel, R., 1979. On the use of Rayleigh wave group velocities for the Analysis of Continental Margins, Tectonophys. 59, 335-346.
79L.2 Ludwig, W.J., Ewing, J., Windisch, C.C., Lonardi, A.G., and Rios, F.F. 1979. Structure of Colorado Basin and Continent-Ocean crust boundary off Bahia Blanca, Argentina, AAPG Mem., 29, 113-124.
79L.3 Ludwig, W.J., Windisch, C.C., Houtz, R., and Ewing, J. 1979. Structure of Falkland Plateau and offshore Tierra del Fuego, Argentina, AAPG Mem., 29, 125-137.
79M.2 Mooney, W.D., Meyer, R.P., Laurence, J.P., Meyer, H., Ramirez, J.E., 1979, Seismic refraction studies of the western cordillera Colombia. Bulletin of the Seismological Sociciety of America, Vol.69, No.6, pp. 1745-1761.
80G.2 Giese, P. and Schutte, K.G.: in Nuevos resultados de la invetigacion geoscientifica alemana en Latinoamerica. Boppard: H. Boldt Verlag. 1980. p.44-50.
81D.1 Diebold, J.B., Stoffa, P.L., Buhl, P., and Truchan, M. 1981. Venezuela Basin Crustal Structure. J. Geophys. Res. 86, 7901-7923.
82K.1 Kim, J.J., Matumoto, T. and Latham, G., 1982. A crustal section of Northern Central America as inferred from wide-angle reflections from shallow earthquakes. Bull. Seis. Soc. Am., vol.72, p.925.
82W.2 Weigel, W., Wissmann, G. and Goldflam, P., 1982. Deep seismic structure(Mauritania and central Morocco). In: Geology of the northwest African continental margin, edited by U. von Rad, K. Hinz, M. Sarnthein, E. Seibold, Springer-Verlag, p.132-159.
84G.2 Grange, F., Hatzfeld, D., Cunningham, P., Molnar, P., Roecker, S.W., Suarez, G., Rodrigues, A., and Ocola, L., 1984. Tectonic Implications of the Microearthquake Seismicity and fault plane solutions in Southern Peru, Journal of Geophysical Research, Vol. 89, p. 6139-6152.
84K.2 Kinze, S., Berrocal, J., Ovliveria, D.M., 1984, Modelo Preliminar de Velocidades Sismicas da Crosta Atraves de Explosoes Locais Registradas Pelo Rede Sismografica de Sobradinho-ba. Revista Brasileria de Geofiscisca, Vol.2, pp.95-104.
85G.3 Gomez, C.C., 1985. Consejo Consultivo De Directores De Servicios Geologicos De Latinoamerica Y El Caribe, Sexto Congreso Latinoamericano De Geologia Bogota-Colombia, Memorias. P.271-292.
85P.3 Pardo, M., and Acevedo, P., 1985. Sismicidad Superficial en Chile Central, In: Simposio Sobre el Peligro y Riesgo Sismico y Volcanico en America del sur, Ceresis, vol. 14, 193-199.
86C.3 Cunningham, P.S. and Roecker, S.W., 1986. Three-dimensional p and s wave velocity structures of southern Peru and their tectonic implications. Journal of Geophysical Research, vol. 91, no. B9, p.9517-9532.
87F.3 Ferreira, J.M., Takeya, M., Costa, J.M., Moreira, J.A., Assumpcao, M., Veloso, J.A.V., and Pearce, R.G. 1987. A continuing intraplate earthquake sequence near Joao Camara, Northeastern Brazil—Preliminary Results, Geophys. Res. Lett, 14, 1042-1045.
87H.1 Hwang, H.J., and Mitchell, B.J., 1987. Shear velocities and the frequency dependence of in stable and tectonically active regions from surface wave observations. Geophys. J. Int., 90, pp. 575-613.
88A.3 Assumpção, M. and Suárez, G., 1988. Source mechanisms of moderate-size earthquakes and stress orientation in mid-plate South America. Geophysical Journal, vol. 92, p.253-267.
88B.1 Berrocal, J., 1988, Sismologia: Estrutura da Crosta E Manto Superior. Revista Boasileiva de Geofisica, 7 (1), p. 44.
88B.2 Bollinger, G.A., Langer, C.J, 1988. Development of velocity model for locating aftershocks in the Sierra Pie de Palo Region of western Argentina. U.S. Geological Survey Bulletin, No. 1795, 1-13.
88N.1 Neprochnov, Yu.P. et al., 1988. New data on crustal structure and seismicity of Atlantic and India ocean basins. Scripta Technica, Inc., p.141-144.
90J.1 James, D.E., Snoke, J.A., 1990. Seismic evidence for continuity of the deep slab beneath central and eastern Peru. J. Geophys. Res. 95, 4989-5001.
90S.3 Snyder, D.B., Ramos, V.A., and Allmendinger, R.W. 1990. Thick-skinned deformation observed on deep seismic reflection profiles in western Argentina, Tectonics, 9, 773-788.
91H.4 Hayes, D.E., Manley, P.L., Malin, J.W., and Houtz, R.E. 1991. Crustal Structure: Circum-Antarctic to 30° S, in: Marine Geological and Geophysical Atlas of the Circum-Antarctic to 30° S, Hayes, D.E. (Ed.), Antarctic Research Series, V. 54, AGU, Washington DC.
91R.1 Ramos, C., 1991, Boletin Sismologico De Venezuela. Vol.8, N. 1.
91S.3 Souza, J.L. de, 1991, Crustal and upper mantle structures of the Brazilian coast. Pageoph, Vol.136, No.2/3, 245-264.
92C.2 Cahill, T., Isacks, B.L., Whitman, D., Chatelain, J-L., Perez, A., and Chiu, J.M. 1992, Seismicity and tectonics in Jujuy Province, northwestern Argentina. Tectonics 11, No.5, pp. 944-959.
92K.1 Kostadinoff, J. 1992. Estudio Geofisico de la Peninsula de Valdes y los golfos nordpatagonicos, Revista de la Asociacion Geologica Argentina, 47, 229-236.
92L.1 Lindo, R., Dorbath, C., Cisternas, A., Dorbath, L., Ocola, L., and Morales, M., 1992. Subduction Geometry in central Peru from a microseismicity survey: first results. Tectonophysics, 205, 23-29.
92N.1 Norabuena, E.O. 1992. Velocity Structure of the subducting Nazca plate beneath central Peru as inferred from travel time anomalies, Master’s Thesis, Virginia Polytechnic Institute.
93F.1 Fan, G., Beck, S. and Wallace, T., 1993. The seismic source parameters of the 1991 Costa Rica aftershock sequence: Evidence for a transcurrent plate boundary. J. Geophys. Res., vol.98, p.15759.
93J.1 James, D.E., Assumpcao, M., Snoke, J.A., Ribotta, L.C., and Kuehnel, R., 1993. Seismic studies of continental lithosphere beneath SE Brazil. An. Acad. Bras. Ci. 65 (Suppl. 2)227-250.
93S.4 Spathopoulos, F., and Jones, E.J.W., 1993. Seismic evidence for anomalous crustal structure beneath Mesozoic fracture zones in the Gambia Basin, eastern equatorial Atlantic. Tectonphys., 225, 205-217.
93S.6 Smalley, Jr. R. Pujol, J., Regnier, M., Chiu, J.-M., Chatelain, J.-L., Isacks, B.L., Araujo, M., and Puebla, N. 1993. Basement Seismicity beneath the Andean Precordillera thin-skinned thrust belt and implications for crustal and lithospheric behavior, Tectonics, 12, 63-76.
94J.2 James, D.E., and Snoke, J.A. 1994, Structure and tectonics in the region of flat subduction beneath central Peru: Crust and uppermost mantle. J. Geophys. Res., Vol. 99, No. B4, pp. 6899-6912.
94R.1 Regnier, M., Chiu, J.M., Smalley, R., Isacks, B.L., and Araujo, M. 1994, Crustal Thickness Variation in the Andean Foreland, Argentina, from Converted Waves. Bulletin of the Seismology Society of America, Vol. 84, No.4, pp. 1097-1111.
94R.3 Russo, R.M., James, D.E., Franke, M., Gajardo, E., Ambeh, W., Latchman, J., and Lynch, L., 1994. Receiver functions and crustal and upper mantle velocity strucutes in northeastern Venezuela and Trinidad. 1994 Spring Meeting, 243, S53A-9.
94S.2 Schmitz, M., 1994. A balanced model of the southern Central Andes. Tectonics,vol.13, no.2, p.484-492.
94W.1 Wigger, P.J. et al., 1994. Variation in the crustal structure of the southern central Andes deduced from seismic refraction investigations. In: K.-J. Reutter, E. Scheuber, P.J. Wigger, eds., Tectonics of the southern central Andes (structure and evolution of an active continental margin), Springer Verlag.
94W.3 Woods, N.T., and Okal, E.A.,1994. The structure of the Nazca ridge and Sala y Gomez seamount chain from the dispersion Rayleigh waves. Geophys. J. Int., 117, 205-222.
94W.5 Whitman, D., 1994. Moho geometry beneath the eastern margin of the Andes, northwest Argentina, and its implications to the effective elastic thickness of the Andean foreland. Journal of Geophysical Research, vol. 99, no. B8, p.15,277-15,289.
94Z.3 Zandt, G., Velasco, A, and Beck, S. 1994. Composition and thickness of the Southern Altiplano crust, Bolivia. Geology, 22, 1003-1006.
95L.3 Langer, C.J., and Spence, W., 1995. The 1974 Peru earthquake series, Bull. Seis. Soc. Am., 85, 665-687.
95M.1 Mohriak, W.U., Rabelo, J.H.L., de Matos, R.D., and de Barros, M. 1995. Deep seismic reflection profiling on sedimentary basins offshore Brazil: Geological objectives and preliminary results in the Sergipe Basin, J. Geodynamics 20, 515-539.
95O.2 Ocola, L.C., Luetgert, J. H., Thomas Aldrich, L., Meyer, R.P., and Helsey, C.E. 1995. Velocity structure of the costal region of southern Peru from seismic refraction/wide-angle reflection data. J. Geodynamics, 20, p. 1-30.
95P.1 Protti, M. et al, 1995. The March 25, 1990(M(sub w)=7.0,M(sub L)=6.8) earthquake at the entrance of the Nicoya Gulf, Costa Rica, its prior activity, foreshocks, aftershocks, and triggered seismicity. J. Geophys. Res., vol.100, no.10, pp.20345-20358.
95S.3 Souza,J.L.de, 1995. 95hear-wave velocity in the south-eastern Brazilian continental shelf. Geophys. J. Int., 122, pp.691-702.
96A.1 Acosta, J., and Uchupi, E. Transtensional tectonics along the south Scotia Ridge, Antarctica. Tectonophysics 267, 31-56.
96B.4 Beck, S., Zandt, G., Myers, S., Wallace, T., Silver, P., and Drake, L. 1996. Crustal-thickness variations in the Central Andes, Geology, 24, 407-410.
96D.2 Dorbath, C., Paul, A., and the Lithoscope Andean Group, 1996. Tomography of the Andean crust and mantle at 20°S: first results of the Lithoscope Experiment. Phys. Earth Planet. Int., 97, 133-144.
96D.3 Dorbath, C., and Granet M. 1996. Local earthquake Tomography of the Altiplano and eastern Cordillera of northern Bolivia, Tectonophys. 259, 117-136.
96I.1 Izarra, C, 1996, Determination of velocity structure of western Venezuela using P and S arrival times. Abtsract S11A-5, EOS 11 #46.
96N.2 National Geophysical Committee, 1996. Deep Seismic Sounding of the Lithosphere on the Angola-Brazil Geotraverse, Results of Researches on the International Geopphysical Projects, Zverev, S.M. (Ed.) Russian Acad. Sci., Moscow.
96P.1 Protti, M., Schwartz, S. and Zandt, G., 1996. Simultaneous inversion for earthquake location and velocity structure beneath central Costa Rica.Bull. Seis. Soc. Am., vol.86, no.1, Part A, pp.19-31.
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96S.3 Souza, J.L., 1996. Shear wave velocities beneath the eastern part of Brazil. Geofiscia Internacional, Vol.35, No. 3, pp. 301-314.
96S.6 Souza, J.L. (1996) Crustal structure of the southeastern Brazilian continental margin from surface wave dispersion, Geophys. Int. 35, 285-300.
96Y.2 Ye, S., J. Bialas, E.R. Flueh, A. Stavenhagen, R. von Huene, G. Leandro, and K. Hinz, 1996. Crustal structure of the Middle American Trench off Costa Rica from wide-angle seismic data. Tectonics, vol.15, no.5, p.1006-1021.
96Z.3 Zandt, G. and 7 others. 1996. Anomalous crust of the Bolivian Altiplano, Central Andes: Constraints from Broadband regional seismic waveforms, Geophys. Res. Lett. 23, 1159-1162.
97B.1 Bosch, M. P-wave velocity tomography of the Venezuelan region from local arrival times, J. Geophys. Res. 102, 5455-5472.
97K.3 Kirchner, A., GÖtze, H.-J. and Schmitz, M., 1997. 3D-density modeling with seismic constraints in the central Andes. Phys. Chem. Earth, Vol.21, no.4, p.289-293.
97M.2 Mauffret, A., and Leroy, S. 1997. Seismic stratigraphy and structure of the Caribbean Igneous Province. Tectonophysics 283, 61-104.
97S.4 Snoke, J.A., and James, D.E. 1997. Lithospheric Structure of the Chaco and Parana Basins of South America from surface wave inversions, J. Geophys. Res. 102, 2939-2951.
97V.1 von Huene, R., J. Corvalan, E.R. Flueh, K. Hinz, J. Korstgard, C.R. Ranero, W. Weinrebe, and the CONDOR Scientists, 1997. Tectonic control of the subducting Juan Fernandez Ridge on the Andean margin near Valparaiso, Chile. Tectonics, vol.16(3), p.474-488.
98A.3 Assumpcao, M. 1998. Focal mechanisms of small earthquakes in the southeastern Brazilian shield: a test of stress models of the South American plate, Geophys. J. Int. 133, 490-498.
98F.4 Flueh, E.R., Vidal, N., Ranero, C.R., Hojka, A., Von Huene, R., Bialas, J., Hinz, K., Cordoba, D., Danobeitia, J.J., and Zelt, C., 1998. Seismic investigation of the continental margin off- and onshore Valparaiso, Chile. Tectonophys., 288, 251-263.
98F.5 Ferreira, J.M., Oliveira, R.T., Takeya, M.K., and Assumpcao, M., 1998. Superposition of local and regional stresses in northeast Brazil: evidence from focal mechanisms around the Potiguar marginal basin, Geophys. J. Int. 134, 341-355.
98G.3 Gangui, A.H. 1998. A combined structural interpretation based on Seismic Data and 3-D Gravity Modeling in the Northern Puna / Eastern Cordillera, Argentina, Selbstverlag Fachbereich Geowissenschaften, FU Berlin, Germany.
98M.9 Myers, S.C., Beck, S., Zandt, G., and Wallace, T., 1998. Lithospheric- scale structure across the Bolivian Andes from tomographic images of velocity and attenuation for P and S waves. J. Geophys. Res., 103, 21233-21252.
98S.8 Stavenhagen, A.U., Flugh, E.R., Ranero, C., McIntosh, K.D., Shipley, T., Leandro, G., Schulze, A., and Danobeitia, J.J., 1998. Seismic wide-angle Investigations in Costa Rica- a crustal velocity model from the Pacific tothe Caribbean coast. Symposium on Latin-American Geosciences, 393-408.
99C.2 Christeson, G.L., McIntosh, K.D., Shipley, T.H., Flueh, E.R., and Godde, H. 1999. Structure of the Costa Rica convergent margin, offshore Nicoya Peninsula. J. Geophys. Res., 104, 25443-25468.
99H.1 Høgden, S., 1999. Seismotectonics and crustal structure of the Svalbard Region. Cand. Scient. thesis, Department of Geology, University of Oslo, Oslo.
99K.3 Kaila, K.L., Krishna, V.G., and Khandekar, G., 1999. Preliminary models of upper mantle p and s wave velocity structure in the western South American region. Geodynamics, 27, 567-583.
99P.1 Patzwahl, R., J. Mechie, A. Schulze and P. Giese, 1999. Two-dimensional velocity models of the Nazca plate subduction zone between 19.5 S and 25 S from wide-angle seismic measurements during the CINCA95 project. Journal of Geophysical Research, vol. 104, no. B4, p 7293 - 7317.
99S.2 Sallares, V., J.J. Danobeitia, E.R. Flueh, G. Leandro, 1999. Seismic velocity structure across the middle American landbridge in northern Costa Rica. Journal of Geodynamics, vol.27, p.327-344.
99S.4 Schurr, B., Asch, G., Rietbrock, A., Kind, R., Pardo, M., Heit, B., and Monfret T. 1999, Seismicity and Average Velocities beneath the Argentine Puna Plateau. Geophys. Res. Lett. 26, 3025-3028.
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00R.1 Rubio, E., Torne, M., Vera, E., and Diaz, A., 2000. Crustal structure of the southernmost Chilean margin from seismic and gravity data. Tectonophys., 323, 39-60.
00S.4 Swenson, J.L., Beck, S.L., and Zandt, G. 2000. Crustal structure of the Altiplano from broadband regional waveform modeling: implications for the composition of the continental crust. J. Geophys. Res., 105, 607-621.
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00Y.1 Yuan, X. and 21 others, 2000. Subduction and collision processes in the Central Andes constrained by converted seismic phases, Nature, 408, 958-961.
01B.2 Baumont, D., Paul, A., Zandt, G., and Beck, S.L., 2001. Inversion of Pn travel times for lateral variations of moho geometry beneath the Central Andes and comparison with the receiver functions. Geophys. Res. Lett., 28, 1663-1666.
01O.1 Ojeda, A. and Havskov, J. 2001. Crustal structure and ocal seismicity in Colombia, J. Seismology 5, 575-593.
01S.1 Sallares, V., Danobeitia, J.J., and Flueh, E.R. 2001. Lithospheric Structure of the Costa Rican Isthmus: effects of subduction zone magmanatism on an oceanic plateau. J. Geophys. Res., 106, 621-643.
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02C.1 Comte, D., Haessler, H., Dorbath, L., Pardo, M., Monfret, T., Lavenu, A., Pontoise, B., and Hello, Y., 2002. Seismicity and Stress Distribution in the Copiapo, northern Chile subduction zone using combined on- and off-shore seismic observations, Phys. Earth Planet. Int. 132, 197-217.
02F.2 Franke, D., Neben, S., Hinz, K., Meyer, H., and Schreckenberger, B. 2002. Deep crustal structure of the Argentine Continental Margin from seismic wide-angle and multichannel reflection seismic data. AAPG Hedberg Conference, Sep. 8-11, 2002, Stavanger, Norway.
02H.4 Hinsch, R., Krawczyk, C.M., Gaedicke, C., Giraudo, R., and Demuro, D., 2002. Basement control on oblique thrust sheet evolution: seismic imaging of the active deformation front of the Central Andes in Bolivia. Tectonophysics, vol. 355, p.23-39.
02K.1 Krueger, F., Scherbaum, F., Rosa, J.W.C., Kind, R., Zetsche, F., and Hohne J. 2002. Crustal and upper mantle structure in the Amazon region (Brazil) determined with broadband mobile stations. J. Geophys. Res., 107, 10, doi: 10.1029/2001JB000598.
02N.1 Nascimento, A.F., Pearce, R.G., and Takeya, M.K. 2002. Local shear wave observations in Joao Camera, Northeast Brazil. J. Geophys. Res., 107, 2232. 02O.1 Ojeda, A., and Ottemoleer, L., 2002. QLg tomography in Colombia. Phys. Earth. Planet. Int., 130, 253-270.
02P.1 Patzig, R., Shapiro, S., Asch, G., Giese, P., and Wigger, P. 2002. Seismogenic plane of the northern Andean Subduction Zone from aftershocks of the Antofagasta (Chile) 1995 earthquake. Geophys. Res. Lett., 29, 8.
02S.1 Schmitz, M., Chalbaud, D., Castillo, J., and Izarra, C. 2002, The crustal structure of the Guayana Shield, Venezuela, from seismic refraction and gravity data. Tectonophysics, 345, p. 103-118.
02W.2 Walther, C., 2002. Crustal structure of the Cocos Ridge northeast of Cocos Island, Panamá Basin. Geophysical Research Letters, vol. 29, no. 20, doi: 10.1029/2001GL014267, 47-1 to 47-4.
02Y.1 Yuan, X., Sobolev, S.V., and Kind, R. 2002. Moho topography in the Central Andes and its geodynamic implications. Earth Planet. Sci. Lett., 199, 389-402.
03A.2 ANCORP Working Group. 2003. Seismic imaging of a convergent continental margin and plateau in the Central Andes (Andian Continental Research Project 1996). J. Geophys. Res., 108, 2328.
03B.3 Brazier, R.A., Park, Y., Nyblade, A.A., and Pasyanos, M.E. 2003. Ground-truth events from Northeastern Africa. 25th Seismic Res. Rev. 203-210.
03D.3 DeShon, H.R., Schwartz, S.Y., Bilek, S.L., Dorman, L.M., Gonzalez, B., Protti, J.M., Flueh, E.R., and Dixon, T.H. 2003. Seismic sound structure of the southern Middle American trench, Costa Rica. J. Geophys. Res., 108, 2491, doi:10.1029/2002JB002294.
03J.1 Jacome, M.I., Kusznir, N., Audemard, F., and Flint, S. 2003. Formation of the Maturin Foreland Basin, Eastern Venezuela: thrust sheet loading or subduction dynamic topography. Tectonics, 22, 1046.
03L.3 Li, X., Kind, R., and Yuan, X., 2003. Seismic study of upper mantle and transition zone beneath hot spots. Physics Earth Planet. Int., 136, 79-92.
03R.2 Robertson-Maurice, S.D., Wiens, D.A., Koper, K.D., and Vera, E., 2003. Crustal and upper mantle structure of southernmost South America inferred from regional waveform inversion. J.Geophys. Res., 108, 2038, doi:10.1029/2002JB001828.
03S.1 Sallares, V., Charvis, P., Flueh, E.R., and Bialas, J., 2003. Seismic structure of Cocos and Malpelo Volcanic Ridges and implications for hot spot- ridge interaction. J. Geophys. Res., 108, 2564, doi:10.1029/2003JB002431.
03W.1 Walther, C.H.E., 2003. The crustal structure of the Cocos ridge off Costa Rica. J. Geophys. Res., 108, 3, doi: 10.1029/2001JB000888.
04A.2 An, M., and Assumpcao, M.S., 2004. Multi-objective inversion of surface waves and receiver functions by competent genetic algorithms applied to the crustal structure of the Parana Basin, SE Brazil. Geophys. Res. Lett., 31, 5, 1-4.
04A.4 Assumoção, M., An, M., Bianchi, M., França, G.S.L., Rocha, M., Barbosa, J.R., and Berrocal, J., 2004. Seismic studies of the Brasília fold belt at the western border of the São Francisco Craton, Central Brazil, using receiver function, surface-wave dispersion and teleseismic tomography. Tectonophysics, vol. 388, p.173-185.
04B.1 Berrocal, J., Marangoni, Y., De Sa, N.C., Fuck, R., Soares, J.E.P., Dantas, E., Perosi, F., and Fernandes, C. 2004. Deep seismic refraction and gravity crustal model and tectonic deformation in Tocantins Province, Central Brazil, Tectonophysics, vol.388, pp.187-199.
04B.3 Baumbach, M., Grosser, H., Romero-Torres, G., Rojas-Gonzalez, J.L., Sobiesiak, M., and Welle, W. 2004. Aftershock pattern of the July 9, 1997 Mw = 6.9 Cariaco earthquake in northeastern Venezuela. Tectonophysics, 379, 1-23.
04F.2 Fromm, R., Zandt, G., and Beck, S.L. 2004. Crustal thickness beneath the Andes and Sierras pampeanas at 30°S inferred from Pn apparent phase Velocities. Geophys. Res. Lett., 31, L06625, doi:10.1029/2003GL019231.
04F.3 Feng, M., Assumoção, M., and Van der Lee, S., 2004. Group-velocity tomography and lithospheric s-velocity structure of the South American continent. Physics of the Earth and Planetary Interiors, vol. 147, p.315-331.
04F.4 Franca, G.S., Ferreira, J.M., and Takeya, M.K. 2004. Seismic Activity on Tucunduba Reservoir- Senador Sa-CE, Brazil, 1997-1998, arXiv:physics/0405145v1, George@dfte.ufrn.br, unpublished.
04F.5 Franca, G.S., and Assumpcao, M. 2004. Crustal structure of the Rebeira fold belt, SE Brazil, derived from receiver functions, J. South Am. Earth Sci. 16, 743-758.
04G.1 Graindorge, D., Colahorrano, A., Charvis, P., Collot, J-Y., and Bethoux, N., 2004. Deep structures of the Ecuador convergent margin and the Carnegie Ridge, possible consequence on great earthquakes recurrence Interval. Geophys. Res. Lett., 31. L04603, doi:10.1029/2003GL018803.
04H.2 Hampel, A., Kukowski, N., Bialas, J., Huebscher, C., and Heinbockel, R., 2004. Ridge subduction at an erosive magin: the collision zone of the Nazca Ridge in southern Peru. J. Geophys. Res., 109. B02101, doi:10.1029/2003JB002593.
04K.1 Krabbenhoft, A., Bialas, J., Kopp, H., Kukowski, N., and Hubscher, C. 2004. Crustal structure of the Peruvian continental margin from wide- Angle seismic studies. Geophys. J. Int., 159, 749-764.
04K.2 Kopp, H., Flueh, E.R., Papenberg, C., and Klaeschen, D., 2004. Seismic investigators of the O’Higgins Seamount Group and Juan Fernández Ridge: Aseismic ridge emplacement and lithosphere hydration. Tectonics, vol. 23, TC2009, doi: 10.1029/2003TC001590, p.1-21.
04L.1 Lawrence, J.F., and Wiens, D.A., 2004. Combined receiver-function and surface wave phase-velocity inversion using a Niching Genetic Algorithm: Application to Potagonia. Bull. Seism. Soc. Am., 94, 977-987.
04N.2 Nascimento, A.F., Cowie, P.A., Lunn, R.J., and Pearc, R.G. 2004. Spatio-Temporal evolution of induced seismicity at ACU Resorvoir, NE Brazil. Geophys. J. Int., 158, 1041-1052.
04R.1 Ranero, C.R., and Sallares, V. 2004. Geophysical evidence for hydration of the crust and mantle of the Nazca Plate during bending at the north Chile trench. Geol. Soc. Am., 32, 549-552.
04S.2 Schmitz, M., Alvarado, L., and Luth, S. 2004. The velocity structure of the Cariaco Sedimentary Basin, Northeastern Venezuela, from wide-angle seismic data.
05A.1 Alvarado, P., Beck, S., Zandt, G., Araujo, M., and Triep, E. 2005. Crustal deformation in the south central Andes backarc terranes as viewed from regional broad-band seismic waveform modeling, Geophys. J. Int. 163, 580-598.
05S.1 Schmitz, M., Martins, A., Izarra, C., Jácome, M.I., Sánchez, J., and Rocabado, V., 2005. The major features of the crustal structure in north-eastern Venezuela from deep wide-angle seismic observations and gravity modeling. Tectonophysics, vol. 399, p.109-124.
05W.1 Wagner, L.S., Beck, S., and Zandt, G., 2005. Upper mantle structure in the south central Chilean subduction zone (30° to 36°S). Journal of Geophysical Research, vol. 110, B01308, doi: 10.1029/2004JB003238, p.1-20.
06D.1 Dias Cario, F., and de Souza, J.L. 2006. Crustal thickness beneath Rio de Janiero, Brazil, from spectra of SH waves at station RDJ, Geofisica Int. 45 (2), 115-128.
06G.1 Gilbert, H., Beck, S., Zandt, G., 2006. Lithospheric and upper mantle structure of central Chile and Argentina. Geophys. J. Int., 165, pp. 383–398.
06K.2 Krawczyk, C.M., Mechie, J., Luth, S., Tasarova, Z., Wigger, P., Stiller, M., Brasse, H., Echtler, H.P., Araneda, M., and Bataille, K. 2006. Geophysical Signatures and active Tectonics at the south-Central Chilean margin, In: The Andes, Oncken, O.; Chong, G.; Franz, G.; Giese, P.; Götze, H.-J.; Ramos, V.A.; Strecker, M.R.; Wigger, P. (Eds.), Springer, 171-192.
06L.1 Lodge, A., and Helffrich, G., 2006. Depleted swell root beneath the Cape Verde Islands, Geology 34, 449-452.
06L.2 Levander, A., Schmitz, M., Ave Lallemant, H.G., Zelt, Z.A., Sawyer, D.S., Magnani, M.B., Mann, P., Christeson, G., Wright, J., Pavlis, G., and Pindell, J. 2006. Evolution of the Southern Caribbean Plate Boundary, EOS Trans. Am. Geophys. Union, 87, p. 97-100.
06R.1 Rodger M., Watts, A.B., Greenroyd, C.J., Peirce, C., and Hobbs, R.W. 2006. Evidence for unusually thin oceanic crust and strong mantle beneath the Amazon fan. Geology, 34, 1081-1084.
06S.1 Scherwath, M., Flueh, E., Grevemeyer, I., Tilmann, F., Contreras-Reyes, E., and Weinrebe, W. 2006. Investigating subduction zone processes in Chile. EOS, 87, 265-269.
06T.1 Tavera, H., and 12 others, 2006. The southern region of Peru earthquake of June 23rd, 2001. J. Seismology, 10, 171-195.
06T.2 Tavera, H., Vilca, R., and Marin, G. 2006. Inferences on the Geometry of the Nazca plate in northwestern Peru based on dated collected by a local seismograph network, Earth Sci. Res. J. 10, 15-24.
06Y.1 Yuan, X., Asch, A., Bock, B.G., Bohm, M., Echtler, H., Kind, R., Oncken, O., and Wolbern, I. 2006, Deep seismic images of the southern Andes, Geol. Soc. Am. Spec. Papers 407, 61-72. 07A.2 Alvarado, P., Beck, S., and Zandt, G. 2007. Crustal structure of the south-central Andes Cordillera and backarc region from regional waveform modeling. Geophys. J. Int. 170, 858-875.
07A.4 Anderson, M., Alvarado, P., Zandt, G., and Beck, S. 2007. Geometry and Brittle Deformation of the subducting Nazca plate, Central Chile and Argentina, Geophys. J. Int. 171, 419-434.
07G.1 Greenroyd, C.J., Peirce, C., Rodger, M., Watts, A.B., Hobbs, R.W. (2007) Crustal structure of the French Guiana margin, West Equatorial Atlantic. Geophys. J. Int., 169, pp. 964–987.
07G.2 Greenroyd, C.J., Peirce, C., Rodger, M., Watts, A.B., Hobbs, R.W. (2007) Demerara Plateau—the structure and evolution of a transform passive margin. Geophys. J. Int., 172, pp. 549–564.
07G.3 Gailler, A., Charvis, P., and Flueh, E.R. 2007. Segmentation fot he Nazca and South American Plates along the Ecuador Subduction zone from wide angle seismic profiles, Earth Planet Sci. Lett. 260, 444-464. 07L.1 Lange, D., Rietbrock, A., Haberland, C., Bataille, K., Dahm, T., Tilmann, F., and Fluh, E.R. 2007. Seismicity and geometry of the south Chilean subduction zone (41.5ºS-43.5ºS): Implications for controlling parameters. Geophys. Res. Lett. 34, 1-5.
07S.1 Schnabel, M. 2007. A deep seismic model for the Argentine continental margin. BGR. As of 12/22/2009.
08B.1 Bezada, Maximiliano J; Schmitz, Michael; Jacome, Maria Ines; Rodriguez, Josmat; Audemard, Franck; Izarra, Carlos, 2008, Crustal structure in the Falcon Basin area, northwestern Venezuela, from seismic and gravimetric evidence, J. Geodynamics 45, 191-200. 08C.1 Calahorrano, A.B., Sallares, V., Collot, J.-Y., Sage, F., and Ranero, C. Nonlinear variations of the physical properties along the southern Ecuador subduction channel: Results from depth-migrated seismic data, Earth Planet. Sci. Lett. 267, 453-467.
08C.2 Contreras-Reyes, E., Grevemeyer, I., Flueh, E.R., and Reichart, C., 2008. Upper lithospheric structure of the subduction zone offshore of southern Arauco peninsula, Chile, at ~38 degrees S, J. Geophys. Res. 113, doi10.1029/2007JB005569.
08C.3 Clark, S.A., Zelt, C.A., Magnani, M.B., and Levander, A. 2008. Characterizing the Caribbean-South American plate boundary at 64 degrees West using wide-angle seismic data, J. Geophys. Res. 113, doi:10.1029/2007JB005329.
08J.1 Julia, J., Assumpcao, M., and Rocha, M.P., 2008. Deep Crustal structure of the Parana Basin from Receiver Functions and Rayleigh wave-dispersion: Evidence for a fragmented cratonic root, J. Geophys. Res. 113, doi:10.1029/2007JB005374.
08S.1 Schmitz, M; Avila, J; Bezada, M; Vieira, E; Yanez, M; Levander, A; Zelt, C A; Jacome, Maria I; Magnani, M B, 2008. Crustal thickness variations in Venezuela from deep seismic observations, Tectonophy. 459, 14-26.
09A.1 Alvarado, P., Barrientos, S., Saez, M., Astroza, M., Beck, S., 2009. Source study and tectonic implications of the historic 1958 Las Melosas crustal earthquake, Chile, compared to earthquake damage. Physics of the Earth and Planetary Interiors, 175, pp. 26–36
09A.3 Agudelo, W., Ribodetti, A., Collot, J.-Y., and Operto, S. 2009. Joint Inversion of Multi-Channel Seismic Reflection and wide-angle seismic data: Improved imaging and refined velocity model of the crustal structure of the north Ecuador-south Colombia convergent margin, J/ Geophys. Res., 114, B02306, doi:10.1029/2008JB005690.
09B.2 Barros, L.V., Assumpcao, M., Quintero, R., Caixeta, D. 2009. The intraplate Porto dos Gauchos seismic zone in the Amazon Craton—Brazil, Tectonophys. 469, 37-47.
09D.1 Delouis, B., Pardo, M., Legrand, D., and Monfret, T. 2009. The Mw 7.7 Tocopilla Earthquake of 14 November 2007 at the Southern Edge of the Northern Chile seismic gap: Rupture in the Deep Part of the Coupled Plate Interface, Bull. Seis. Soc. Am. 99, 87-94. 09L.2 Leyton, P., Ruiz, J., Campos, J., Kausel, E., 2009. Intraplate and interpolate earthquakes in Chilean subduction zone: A theoretical and observational comparison. Physics of the Earth and Planetary Interiors, 175, pp. 37–46
09L.3 Lebedev, S., Boonen, J., and Trampert, J. 2009. Seismic structure of Precambrian lithosphere: New constraints from broad-band surface-wave dispersion, Lithos 109, 96-111.
09W.1 Wolbern, I., Heit, B., Yuan, X., Asch, G., Kind, R., Viramonte, J., Tawackoli, S., Wilke, H., 2009. Receiver function images from the Moho and the slab beneath the Altiplano and Puna plateaus in the Central Andes. Geophys. J. Int., 177, 296–308
09W.2 Watts, A.B., Rodger, M., Peirce, C., Greenroyd, C.J., Hobbs, R.W., 2009. Seismic structure, gravity anomalies, and flexure of the Amazon continental margin, NE Brazil. Journal of Geophysical Research, 114, doi: 10.1029/2008JB006259
10L.1 Lopes, A.E.V., Assumpcao, M., do Nascimento, A.F., Ferreira, J.M., Menezes, E.A.S., and Barbosa, J.R. 2010. Intraplate earthquake swarm in Belo Jardim, NE Brazil: reactivation of a major Neoproterozoic shear zone (Pernambuco Lineament), Geophys. J. Int. 180, 1303-1312.
11D.1 de Vasconcelos Lopes, A.E. de, and Assumpcao, M. 2011. Genetic algorithm inversion of the average 1D crustal structure using local and regional earthquakes, Computers & Geosciences, doi:10.1016/j.cageo.2010.11.006.
11M.1 Moscoso, E., Grevemeyer, I., Contreras-Reyes, E., Flueh, E.R., Dzierma, Y., Rabbel, W., and Thorwart, M. 2011. Revealing the deep structure and rupture plane of the 2010 Maule, Chile earthquake (Mw-8.8) using wide angle seismic data, Earth Planet. Sci. Lett. 307, 147-155.