Geostatistics and multivariate analysis as a tool to characterize volcaniclastic deposits: Application to Nevado de Toluca volcano, Mexico
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Grain size analysis of volcaniclastic deposits is mainly used to study flow transport and depositional processes, in most cases by comparing some statistical parameters and how they change with distance from the source. In this work the geospatial and multivariate analyses are presented as a strong adaptable geostatistical tool applied to volcaniclastic deposits in order to provide an effective and relatively simple methodology for texture description, deposit discrimination and interpretation of depositional processes. We choose the case of Nevado de Toluca volcano (Mexico) due to existing knowledge of its geological evolution, stratigraphic succession and spatial distribution of volcaniclastic units. Grain size analyses and frequency distribution curves have been carried out to characterize and compare the 28-ka block-and-ash flow deposit associated to a dome destruction episode, and the El Morral debris avalanche deposit originated from the collapse of the south-eastern sector of the volcano. The geostatistical interpolation of sedimentological data allows to realize bidimensional maps draped over the volcano topography, showing the granulometric distribution, sorting and fine material concentration into the whole deposit with respect to topographic changes. In this way, it is possible to analyze a continuous surface of the grain size distribution of volcaniclastic deposits and better understand flow transport processes. The application of multivariate statistic analysis (discriminant function) indicates that this methodology could be useful in discriminating deposits with different origin or different depositional lithofacies within the same deposit. The proposed methodology could be an interesting approach to sustain more classical analysis of volcaniclastic deposits, especially where a clear field classification appears problematic because of a homogeneous texture of the deposits or their scarce and discontinuous outcrops. Our study is an example of the strong versatility of geospatial analysis to provide an effective and relatively clear methodology for the characterization of volcaniclastic deposits. © 2010 Elsevier B.V. All rights reserved.
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geostatistics; GIS applications; grain size analyses; multivariate analysis; Nevado de Toluca; volcaniclastic flow characterization Flow characterization; Geo-statistics; GIS application; Grain size analysis; Multi variate analysis; Nevado de Toluca; Volcaniclastics; Debris; Decision making; Deposits; Fault tolerant computer systems; Geographic information systems; Grain size and shape; Natural language processing systems; Size distribution; Stratigraphy; Textures; Volcanoes; Multivariant analysis; ash flow; debris avalanche; deposition; geostatistics; GIS; grain size; lithofacies; multivariate analysis; size distribution; spatial distribution; stratigraphic correlation; topography; volcaniclastic deposit; Mexico [Mexico (NTN)]; Mexico [North America]; Nevado de Toluca; Toluca
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