Abstract
The Mohorovicic discontinuity (Moho) is the surface that limits the Earth’s crust and mantle. It is of paramount importance in understanding and investigating the dynamics of the Earth’s interior. The GEMMA project (GOCE Exploitation for Moho Modeling and Applications), funded by the European Space Agency and Politecnico di Milano, has provided a high resolution map of the Moho surface (GEMMA Model), based on the inversion of homogeneous, well-distributed gravimetric data measured by the Steady-State Ocean Circulation Explorer (GOCE), which ensures a global coverage using gravity field. In the current paper, this Moho depth estimation (Riccardo Barzaghi, personal communication, April 20, 2012) is compared with other models based on both seismic and gravity observations, under the North Patagonian Massif (NPM). Said massif is an Argentinean plateau that stands out 500 to 700 m higher in altitude than the surrounding topography and was created by a sudden uplift without noticeable internal deformation (Aragón et al. (2011b) Upper mantle geodynamic constrains beneath the north patagonian massif, Argentina). The features described led us to analyze the crustal thickness in the area. The work describes different Moho models available in the area under study and their comparison with the GEMMA Model. The aim is to validate this well distributed, homogeneous data model in this area with sparse seismic data and check its usefulness to get more information about the Moho. According to comparisons with the different models, the crustal thickness in the study area varies between 36 and 46 km. The good agreement between the GEMMA Model and some of the other Moho models may account for the use of such model to study this little known area.
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References
Aragón E, Aguilera Y, Cavarozzi CE, Ribot A (2010) The north patagonian altiplano and the somún curá basaltic plateau. Geociencias 29:527–532. Doi:10.1016/j.tecto.2011.06.012
Aragón E, Brunelli D, Castro A, Rivalenti G, Varela R, Rabbia O, Spackman W, Cavarozzi CE, Aguilera Y, Ribot A, Mazzucchelli M, D‘Eramo F, Demartis ML (2011a) Tectono-magmatic response to major convergence changes in the north patagonian suprasubduction system: the paleogene subduction-transcurrent plate margin transition. Tectonophysics. http://dx.doi.org/101016/jtecto201106012
Aragón E, Tassara A, Tocho C, Mendoza LPM, Spackman W, Rabbia O, Perdomo R, Bertotto WG (2011b) Upper mantle geodynamic constrains beneath the north patagonian massif, Argentina
Assumpção M, Feng M, Tassara A, Julià J (2012) Models of crustal thickness for south america from seismic refraction, receiver functions and surface wave tomography. Tectonophysics (0), Doi:http://dx.doi.org/10.1016/j.tecto.2012.11.014, URL http://www.sciencedirect.com/science/article/pii/S0040195112007330
Barzaghi R, Reguzzoni M, Borghi A, De Gaetani C, Sampietro D, Marotta AM (2014) Global to local Moho estimate based on GOCE geopotential model and local gravity data. In: Proceedings of the VIII Hotine-Marussi Symposium - IAG Symposia, Springer
Bassin C, Laske G, Masters G (2000) The current limits of resolution for surface wave tomography in North America, vol 81, p F897
Braitenberg C, Wienecke S, Ebbing J, Born W, Redfield T (2007) Joint gravity and isostatic analysis for basement studies - a novel tool. Extend ended abstracts
Castro A, Aragón E, Díaz-Alvarado J, Blanco I, García-Casco A, Vogt K, Liuf DY (2011) Age and composition of granulite xenoliths from paso de indios, chubut province, Argentina. J S Am Earth Sci. http://dx.doi.org/101016/jjsames201106001
Feng M, Van der Lee S, Assumpção M (2007) Upper mantle structure of south america from joint inversion of waveforms and fundamental mode group velocities of rayleigh waves. J Geophys Res 112 Doi:10.1029/2006JB004449
Gómez Dacal ML (2012) Modelado gravimétrico tridimensional del macizo norpatagónico. Degree thesis. Facultad de ciencias astronómicas y geofísicas, Universidad Nacional de La Plata
Götze HJ (1978) Ein numerisches verfahren zur berechnung der gravimetrischen feldgröben dreidimensionaler modellköper. TU Clausthal
Götze HJ (1984) Uber den einsatz interaktiver computergrafik in rahmen3 dimensionaler interpretationstechniken in gravimetrie und magnetik habiltationsschrift. Arch Meteorol Geophys Bioklimatol A
Götze HJ, Lahmeyer B (1988) Application of three-dimensional interactive modeling in gravity and magnetict. Geophysics 53:1096–1108. http://dx.doi.org/10.1190/1.1442546
Kliger FL (2010) Estudio gravi-magnetométrico en el macizo norpatagónico. PhD thesis, Universidad Nacional de San Juan
Kostadinoff J, Gelós EM (1994) Análisis de las mediciones gravimagnetométricas realizadas entre el fuerte y arroyo verde, provincia de río negro. Rev Asoc Geol Arg 49:19–25
Kostadinoff J, Schillizi R (1996) Características geofísicas del litoral atlántico entre el rio chubut y puerto camarones. Rev Asoc Geol Arg 51:387–392
Lowrie W (2007) Fundamentals of geophysics. Cambridge University Press, Cambridge. http://dx.doi.org/10.1017/CBO9780511807107
Pavlis NK, Holmes SA, Kenyon SC, Factor JK (2012) The development and evaluation of the earth gravitational model 2008 (egm2008). J Geophys Res. http://dx.doi.org/101029/2011JB008916117
Reguzzoni M, Sampietro D, Sanso F (2013) Global Moho from the combination of the CRUST2.0 model and GOCE data. Geophys J Int. Doi:10.1093/gji/ggt247.
Sampietro D, Reguzzoni M (2011) Global Moho from the combination of the CRUST 2.0 model and GOCE data. GNGTS
Schmidt S, Götze HJ (1998) Interactive visualization and modification of 3d models using gis functions. Phys Chem Earth. http://dx.doi.org/101016/S0079-1946(98)00027-523
Tassara A, Echaurren A (2012) Anatomy of the chilean subduction zone: Three-dimensional density model upgraded and compared against global-scale models. Geophys J Int. Doi:10.1111/j.1365-246X.2012.05397.x
Acknowledgements
We would like to thank Dr. Riccardo Barzaghi for providing the global Moho model using GOCE data (GEMMA Model).
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Dacal, M.L.G., Tocho, C., Aragón, E. (2015). Mohorovicic Discontinuity Depth Analysis Beneath North Patagonian Massif. In: Rizos, C., Willis, P. (eds) IAG 150 Years. International Association of Geodesy Symposia, vol 143. Springer, Cham. https://doi.org/10.1007/1345_2015_89
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DOI: https://doi.org/10.1007/1345_2015_89
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