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  • Print publication year: 2014
  • Online publication date: May 2014

3 - Intraplate seismicity in Brazil


Almeida, F. F. M., Neves, B. B. B., and Carneiro, C. D. R. (2000). The origin and evolution of the South American platform. Earth-Science Reviews, 50, 77–111.
Assumpção, M. (1983). A regional magnitude scale for Brazil. Bulletin of the Seismological Society of America, 73, 237–246.
Assumpção, M. (1992). The regional intraplate stress field in South America. Journal of Geophysical Research, 97, 11,889–11,903.
Assumpção, M. (1998). Seismicity and stresses in the Brazilian passive margin. Bulletin of the Seismological Society of America, 78(1), 160–169.
Assumpção, M., and Araujo, M. (1993). Effect of the Altiplano-Puna plateau, South America, on the regional intraplate stress. Tectonophysics, 221, 475–496.
Assumpção, M., and Riccomini, C. (2011). Seismicity and neotectonics in the coastal ranges of SE Brazil (Serra do Mar): a case of activity migration?Seismological Society of America Annual Meeting, Memphis, USA, Abstract 11–148.
Assumpção, M., and Suárez, G. (1988). Source mechanisms of moderate size earthquakes and stress orientation in mid-plate South America. Geophysics Journal, 92, 253–267.
Assumpção, M., and Sacek, V. (2013). Intra-plate seismicity and flexural stresses in Central Brazil. Geophysical Research Letters, 40, 487–491, doi:10.1002/grl.50142, 2013.
Assumpção, M., Schimmel, M., Escalante, C., et al. (2004). Intraplate seismicity in SE Brazil: stress concentration in lithospheric thin spots. Geophysical Journal International, 159, 390–399.
Assumpção, M., Dourado, J. C., Ribotta, L. C., et al. (2011). The São Vicente earthquake of April 2008 and seismicity in the continental shelf off SE Brazil: further evidence for flexural stresses. Geophysical Journal International, doi: 10.1111/j.1365–246X.2011.05198.x.
Assumpção, M., Feng, M., Tassara, A., and Julià, J. (2013). Models of crustal thickness for South America from seismic refraction, receiver functions and surface wave dispersion. Tectonophysics, doi: 10.1016/j.tecto.2012.11.014.
Barros, L. V., Assumpção, M., Quinteros, R., and Caixeta, D. (2009). The intraplate Porto dos Gaúchos seismic zone in the Amazon craton – Brazil. Tectonophysics, 469, 37–47, doi: 10.1016/j.tecto.2009.01.006.
Barros, L. V., Chimpliganond, C. N., von Huelsen, M. G., et al. (2012). The Mara Rosa, Goiás state, Brazil, recent seismicity and its relationship with the Transbrasiliano Lineament. Peruvian Geological Congress, Lima, extended abstracts, September 23–26, 2012.
Berrocal, J., Assumpção, M., Antezana, R., et al. (1983). Seismic activity in Brazil in the period 1560–1980. Earthquake Prediction Research, 2, 191–208.
Berrocal, J., Assumpção, M., Antezana, R., et al. (1984). Sismicidade do Brasil. IAG/USP and Comissão Nacional de Energia Nuclear, Brazil.
Bezerra, F. H. R., and Vita-Finzi, C. (2000). How active is a passive margin? Paleoseismicity in northeastern Brazil. Geology, 28, 591–594.
Bezerra, F. H. R., Fonseca, V. P., Vita-Finzi, C., Lima Filho, F. P., and Saadi, (2005). Liquefaction-induced structures in Quaternary alluvial gravels and gravels sediments, NE Brazil. In Paleoliquefaction and Appraisal of Seismic Hazards, ed. S. F. Obermeier. Engineering Geology, 76, 191–208.
Bezerra, F. H. R., Ferreira, J. M., and Sousa, M. O. M. (2006). Review of the seismicity and Neogene tectonics in northeastern Brazil. Revista de la Asociación Geológica Argentina, 61, 525–535.
Bezerra, F. H. R., Takeya, M., Sousa, M. O. M., and do Nascimento, A. F. (2007). Coseismic reactivation of the Samambaia fault, Brazil, Tectonophysics, 430, 27–39.
Bezerra, F. H. R., do Nascimento, A. F., Ferreira, J. M., et al. (2011). Review of active faults in the Borborema Province, intraplate South America, integration of seismological and paleoseismological data. Tectonophysics, 510, 269–290.
Branner, J. C. (1912). Earthquakes in Brazil. Bulletin of the Seismological Society of America, 2(2), 105–117.
Byerlee, J. (1990). Friction, overpressure and fault normal compression. Geophysical Research Letters, 17, 2109–2112.
Calais, E., Freed, A. M., Van Arsdale, R., and Stein, S. (2010). Triggering of New Madrid seismicity by late-Pleistocene erosion. Nature, 466, 608–611.
Campbell, D. L. (1978). Investigation of the stress-concentration mechanism for intraplate earthquakes. Geophysical Research Letters, 5, 477– 479.
Chang, H. K., Kowsman, R., Figueiredo, A. M. F., and BenderA. A. (1992). Tectonics and stratigraphy of the east Brazil rift system: an overview. Tectonophysics, 213, 97–138.
Chimpliganond, C., Assumpção, M., von Huelsen, M., and França, G. S. (2010). The intracratonic Caraíbas-Itacarambi earthquake of December 09, 2007 (4.9 mb), Minas Gerais State, Brazil. Tectonophysics, 480, 48–56.
Cloetingh, S. A. P. L., Wortel, M. J. R., and Vlaar, N. J. (1984). Passive margin evolution, initiation of subduction and the Wilson cycle. Tectonophysics, 109, 147–163.
Coblentz, D. D., and Richardson, R. M. (1996). Analysis of the South American intraplate stress field. Journal of Geophysical Research, 101(B4), 8643–8657.
Cogné, N., Cobbold, P. R., Riccomini, C., and Gallagher, K. (2012). Tectonic setting of the Taubaté Basin (southeastern Brazil): insights from regional seismic profiles and outcrop data. Journal of South American Earth Science, 42, 194–204.
Ferreira, J. M., Oliveira, R. T., Takeya, M. K., and Assumpção, M. (1998). Superposition of local and regional stresses in NE Brazil: evidence from focal mechanisms around the Potiguar marginal basin. Geophysical Journal International 134, 341–355.
Ferreira, J. M., Bezerra, F. H. R., Sousa, M. O. L., et al. (2008). The role of Precambrian mylonitic belts and present-day stress field in the coseismic reactivation of the Pernambuco lineament, Brazil. Tectonophysics, 456, 111–126.
Gangopadhyay, A., and Talwani, P. (2003). Symptomatic features of intraplate earthquakes. Seismological Research Letters, 74, 863–883.
Gangopadhyay, A., and Talwani, P. (2007). Two-dimensional numerical modeling suggests that there is a preferred geometry of intersecting faults that favors intraplate earthquakes. In Continental Intraplate Earthquakes: Science, Hazard, and Policy Issues, ed. S. Stein, and S. Mazzotti. Geological Society of America Special Paper 425, pp. 87–99.
Gomes, B. S. (1992). Preliminary integration of marine gravimetric data of Petrobras and Leplac project: Campos, Santos and Pelotas basins. In Proceedings of the 37th Brazilian Geological Congress, São Paulo, SP, Brazil, 1, 559–560 (in Portuguese).
Holdsworth, R. E., Hand, M., Miller, J. A., and Buick, I. S. (2001). Continental reactivation and reworking: an introduction. In Continental Reactivation and Reworking, ed. J. A. Miller, R. E. Holdsworth, I. S. Buick, and M. Hand. Geological Society, London, Special Publication, 184, pp. 1–12.
Houtz, R. E., Ludwig, W. J., Milliman, J. D., and Grow, J. A. (1977). Structure of the northern Brazilian continental margin. Geological Society of America Bulletin, 88, 711–719.
Johnston, A. C. (1996). Seismic moment assessment of earthquakes in stable continental regions: I. Instrumental seismicity. Geophysical Journal International, 124, 381–414.
Johnston, A. C., and Kanter, L. R. (1990). Earthquakes in stable continental crust. Scientific American, 262, 68–75.
Johnston, A. C., Coppersmith, K. J., Kanter, L. R., and CornellC. A. (1994). The Earthquakes of Stable Continental Regions: Assessment of Large Earthquake Potential, TR-102261, Vol. 1–5, ed. J. F. Schneider. Palo Alto, CA: Electric Power Research Institute.
Kirkpatrick, J. D., Bezerra, F. H. R., Shipton, Z. K., et al. (2013). Scale-dependent influence of pre-existing basement shear zones on rift faulting: a case study from NE Brazil. Journal of the Geological Society (London), 170, 237–247.
Lenardic, A., Moresi, L., and Mühlhaus, H. (2000). The role of mobile belts for the longevity of deep cratonic lithosphere: the crumple zone model. Geophysical Research Letters, 27, 1235–1238.
Li, Q. S., Liu, M. A., and Stein, S. (2009). Spatiotemporal complexity of continental intraplate seismicity: insights from geodynamic modeling and implications for seismic hazard estimation. Bulletin of the Seismological Society of America, 99(1), 52–60, doi:10.1785/0120080005.
Lima, C., Nascimento, E., and Assumpção, M. (1997). Stress orientations in Brazilian sedimentary basins from breakout analysis: implications for force models in the South American plate. Geophysical Journal International, 130(1), 112–124.
Lima-Neto, H. C., Ferreira, J. M., Bezerra, F. H. R., et al. (2013). Upper crustal earthquake swarms in São Caetano: reactivation of the Pernambuco shear zone and trending branches in intraplate Brazil. Tectonophysics, 608, 804–811. Doi:10.1016/j.tecto2013.08001.
Lopes, A. V., Assumpção, M., do Nascimento, A. F., et al. (2010). Intraplate earthquake swarm in Belo Jardim, NE Brazil: reactivation of a major neoproterozoic shear zone (Pernambuco Lineament). Geophysical Journal International, 180, 1302–1312, doi: 10.1111/j.1365–246X.2009.04485.x.
Mazzotti, S. (2007). Geodynamic models for earthquake studies in intraplate North America. In Continental Intraplate Earthquakes: Science, Hazard, and Policy Issues, ed. S. Stein, and S. Mazzotti. Geological Society of America Special Paper 425, pp. 17–33.
Mazzotti, S., James, T. S., Henton, J., et al. (2005). GPS crustal strain, postglacial rebound, and seismic hazard in eastern North America: the Saint Lawrence valley example. Journal of Geophysical Research, 110, B11301, doi:10.1029/2004JB003590.
Modenesi-Gauttieri, M. C., Hiruma, S. T., and Riccomini, C. (2002). Morphotectonics of a high plateau on the northwestern flank of the Continental Rift of southeastern Brazil. Geomorphology, 43, 257–271.
Mohriak, W. U., Mello, M. R., Bassetto, M., Vieira, I. S., and Koutsoukos, E. A. M. (2000). Crustal architecture, sedimentation, and petroleum systems in the Sergipe–Alagoas Basin, northeastern Brazil. In Petroleum Systems of South Atlantic Margins, ed. M. R. Mello and B. J. Katz. AAPG Memoir 73, pp. 273–300.
Mooney, W. D., Ritsema, J., and Hwang, Y. (2012). Crustal seismicity and maximum earthquake magnitudes (Mmax) in stable continental regions (SCRs): correlation with the seismic velocity of the lithosphere. Earth and Planetary Science Letters, 357–358, 78–83, doi:10.1016/j.epsl.2012.08.032.
Morrow, C., Radney, B., and Byerlee, J. D. (1992). Frictional strength and the effective pressure law of montmorillonite and illite clays: fault mechanics and transport properties of rocks. In Fault Mechanics and Transport Properties of Rocks, ed. B. Evans and T.-F. Wong. San Diego, California: Academic Press, pp. 69–88.
Moura, A. C., Oliveira, P., Ferreira, J. M., et al. (2013). Seismogenic faulting in the Meruoca granite, Borborema Province, Brazil. Annals of the Brazilian Academy of Sciences, submitted.
Nuttli, O. W., Bollinger, G. A., and Griffiths, D. W. (1979). On the relation between Modified Mercalli intensity and body-wave magnitude. Bulletin of the Seismological Society of America, 69(3), 893–909.
Pavlides, S. B. (1989). Looking for a definition of neotectonics. Terra Nova, 1, 233–235, doi:10.1111/j.1365–3121.1989.tb00362.x.
Riccomini, C., and M. Assumpção (1999). Quaternary tectonics in Brazil. Episodes, 22(3), 221–225.
Rossetti, D. F., Bezerra, F. H. R., Góes, A. M., et al. (2011). Late Quaternary sedimentation in the Paraíba Basin, Northeastern Brazil: landform, sea level and tectonics in Eastern South America passive margin. Palaeogeography, Palaeoclimatology, Palaeoecology, 191–204.
, N. C. (2004). O campo de gravidade, o geóide e a estrutura crustal na Amé́rica do Sul: novas estratégias de representação. Tese de Livre-Docência, Universidade de São Paulo.
Saadi, A., Machette, M. N., Haller, K. M., et al. (2002). Map and Database of Quaternary Faults and Lineaments in Brazil. USGS Open-File Report 02–230.
Sandiford, M., and Egholm, D. L. (2008). Enhanced intraplate seismicity along continental margins: Some causes and consequences. Tectonophysics, 457, 197–208.
Schulte, S. M., and Mooney, W. D. (2005). An updated global earthquake catalogue for stable continental regions: reassessing the correlation with ancient rifts. Geophysics Journal International, 161, 707–721.
Sibson, R. H. (1990). Rupture nucleation of unfavorably oriented faults. Bulletin of the Seismological Society of America, 80, 1580–1604.
Stein, S., Cloetingh, S., Sleep, N. H., and Wortel, R. (1989). Passive margin earthquakes, stresses and rheology. In Earthquakes at North-Atlantic Passive Margins: Neotectonics and Postglacial Rebound, ed. S. Gregersen and P. W. Basham. Boston: Kluwer Academic, 231–259.
Stein, S., Liu, M., Calais, E., and Qingsong, L. (2009). Mid-continent earthquakes as a complex system. Seismological Research Letters, 80, 551–553.
Stevenson, D., Gangopadhyay, A., and Talwani, P. (2006). Booming plutons: source of microearthquakes in South Carolina. Geophysics Research Letters, 33, L03316, doi:10.1029/2005GL024679.
Sykes, L. (1978). Intraplate seismicity, reactivation of pre-existing zones of weakness, alkaline magmatism, and other tectonism postdating continental fragmentation. Reviews of Geophysics and Space Physics, 16, 621–688.
Takeya, M., Ferreira, J. M., Pearce, R. G., et al. (1989). The 1986–1987 intraplate earthquake sequence near João Câmara, northeast Brazil: evolution of seismicity. Tectonophysics, 167, 117–131.
Talwani, P. (1999). Fault geometry and earthquakes in continental interiors. Tectonophysics 305, 371–379.
Veloso, J. A. V. (2012). The Earthquake that Shook Brazil. Brasilia, Brazil: Thesaurus Press (in Portuguese).
Veloso, J. A. V. (2013). On the footprints of a major Brazilian Amazon earthquake. Annals of the Brazilian Academy of Sciences, in press.
Watts, A. B., Rodger, M., Peirce, C., Greenroyd, C. J., and Hobbs, R. W. (2009). Seismic structure, gravity anomalies, and flexure of the Amazon continental margin, NE Brazil. Journal of Geophysical Research, 114, B07103, doi:10.1029/2008JB006259.
Weichert, D. H. (1980). Estimation of the earthquake recurrence parameters for unequal observation periods for different magnitudes. Bulletin of the Seismological Society of America, 70(4), 1337–1346.
Wessel, P., and Smith, W. H. F. (1998). New, improved version of Generic Mapping Tools released. Eos, Transactions, American Geophysical Union, 79(47), 579.
Zalan, P. V., Severino, M. C. G., Rigoti, C. A., et al. (2011). An entirely new 3D-view of the crustal and mantle structure of a South Atlantic passive margin: Santos, Campos and Espírito Santo Basins, Brazil. AAPG Annual Convention, Houston Texas, 2011, extended abstracts, Search and Discovery article 30177.
Zoback, M. L., and Richardson, R. M. (1996). Stress perturbation associated with the Amazonas and other ancient continental rifts. Journal of Geophysical Research, B101(3), 5459–5475.