SciELO - Scientific Electronic Library Online

SciELO - Scientific Electronic Library Online

Referencias del artículo

DAVILA-HERNANDEZ, Norma; LIRA, Jorge; CAPRA-PEDOL, Lucia  y  ZUCCA, Francesco. A normalized difference lahar index based on Terra/Aster and Spot 5 images: an application at Colima Volcano, Mexico. Rev. mex. cienc. geol [online]. 2011, vol.28, n.3, pp.630-644. ISSN 2007-2902.

    Balbridge, A.M., Hook, S.J., Rivera, G., 2009, The ASTER spectral library version 2.0: Remote Sensing of Environment, 113, 711–715. [ Links ]

    Capra, L., Borselli, L., Varley, N., Norini, G., Gavilanes, J.C., Sarocchi, D., Caballero, L., 2010, Rainfall–triggered lahars at Volcán de Colima, Mexico: surface hydro–repellency as initiation process: Journal of Volcanology and Geothermal research, 189(1–2), 105–117. [ Links ]

    Chorowicz, J., López, E., Garcia, F., Parrot, J.F., Rudant, J.P., Vinluan, R., 1997, Keys to analyze active lahars from Pinatubo on SAR ERS imagery: Remote Sensing of Environment, 62, 20–29. [ Links ]

    De la Cruz–Reyna, C., 1993, The historical eruptive activity of Colima Volcano, Mexico: Journal of Volcanology and Geothermal Research, 55, 51–58. [ Links ]

    Flynn, L.P., Mouginis–Mark, P.J., Horton, K.A., 1994, Distribution of thermal areas on an active lava flow field: Landsat observations of Kilauea, Hawaii, July 1991: Bulletin of Volcanology, 56, 284–296. [ Links ]

    Flynn, L.P., Harris, A.J.L., Wright, R., 2001, Improved identification of volcanic features using Landsat 7 ETM+: Remote Sensing of Environment, 78, 180–193. [ Links ]

    Hubbard, B.E., Sheridan, M.F., Carrasco–Núñez, G., Díaz–Castellón, R., Rodríguez, S.R., 2007, Comparative lahar hazard mapping at Volcán Citlaltépetl, Mexico using SRTM, ASTER and DTED–1 Digital Topographic Data: Journal of Volcanology and Geothermal Research, 60, 99–124. [ Links ]

    Huggel, C., Schneider, D., Miranda, J., Delgado, H., Kääb, A., 2008, Evaluation of ASTER and SRTM DEM data for lahar modeling: A case study on lahars from Popocatépetl Volcano, Mexico; Journal of Volcanology and Geothermal Research, 170, 99–110. [ Links ]

    Kauth, R.J., Lambeck, P.F., Richardson, W., Thomas, G.S., Pentland, A.P., 1979, Feature extraction applied to agricultural crops as seen by Landsat, in Proceedings of the Large Area Crop Inventory Experiment (LACIE) Symposium, Houston TX, NASA/Johnson Space Center, 705–721. [ Links ]

    Kerle, N., Oppenheimer, C., 2002, Satellite Remote Sensing as a Tool in Lahar Disaster Management: Disasters, 26(2), 140–160. [ Links ]

    Kerle. N., Van Wyk de Vries, V., Oppenheimer. C., 2003, New insight into the factors leading to the 1998 flank collapse and lahar disaster at Casita Volcano, Nicaragua: Bulletin of Volcanology, 65, 331–345. [ Links ]

    Lira, J., 2006, Segmentation and morphology of open water bodies from multispectral images: International Journal of Remote Sensing, 27 (18), 4015–4038. [ Links ]

    Lira, J., 2010, Tratamiento digital de imágenes multiespectrales: Universidad Nacional Autónoma de México, 632 pp. [ Links ]

    Lira, J., García, E., 2003, Characterization of vegetation in the south of Mexico by means of a canonical expansion: International Journal of Remote Sensing, 24, 1083–1093. [ Links ]

    López, E.D., Chorowicz, J., García, F., Parrot, J.F., Vinluan, R.J.N., 1996, Mount Pinatubo lahar damage assessment using ERS–1 synthetic aperture radar data: International Archives of Photogrammetry and Remote Sensing, 31, part B7, 434–447. [ Links ]

    López, E.D., Vinluan, R. J. N., Paringit, E. C., 1998, Lahar damage assessment using satellite remote sensing: The Mount Pinatubo experience, in Proceedings of the Workshop on Information Technology Tools for Natural Disaster Risk Management, Bangkok, February 4–6: International Center for Disaster–Mitigation Engineering (INCEDE) of the University of Tokio, United Nations University (UNU). Asian Center for Research on Remote Sensing (ACRoRS), 175–182. [ Links ]

    Mouginis–Mark, M.J., Rowland, K.S., Garbeil. H., Amelung. F., 2001, Topographic change on volcanoes from SRTM and other inteferometric radars, in International Geoscience and Remote Sensing Symposium (IGARSS), Sidney, July 9–13: Institute of Electrical and Electronics Engineers (IEEE) Conference Proceedings, no. 2, 757–758. [ Links ]

    Oppenheimer, C., 1991, Lava flow cooling estimated from Landsat Thematic Mapper infrared data: the Lonquimay eruption: Journal of Geophysical Research, 96, 21865–21878. [ Links ]

    Oppenheimer, C., Francis, P., 1997, Remote sensing of heat, lava, and fumarole emissions from Erta 'Ale Volcano, Ethiopia: International Journal of Remote Sensing, 18, 1661–1692. [ Links ]

    Pierson, T. C., 1985, Initiation and flow behavior of the 1980 Pine Creek and Muddy River lahars, Mount St. Helens, Washington: Geological Society of American Bulletin, 96, 1056–1069. [ Links ]

    Richards, J.A., Jia, X., 1999, Remote sensing digital image analysis: An introduction: Berlin, Heidelberg, Springer–Verlag, 363 pp. [ Links ]

    Robin, C., Mossand, P., Camus, G., Cantagrel, J.M., Gorgaud., A., Vincent, P.M., 1987, Eruptive history of the Colima volcanic complex (Mexico): Journal of Volcanology and Geothermal Research, 31, 99–113. [ Links ]

    Rothery, D.A., Borgia, A., Carlton, R.W., Oppenheimer, C.,1992, The 1992 Etna lava flow imaged by Landsat TM: International Journal of Remote Sensing, 13, 2759–2763. [ Links ]

    Saucedo–Girón, R., 2000, Erupciones de 1991 y 1998–1999 del Volcán de Colima: mecanismos de transporte y depositación de los flujos piroclásticos y de bloques y ceniza: Universidad Nacional Autónoma de México, Posgrado en Ciencias de la Tierra, Ph. D. Thesis, 132 pp. [ Links ]

    Scott, K.M., 1988, Origins, behavior, and sedimentology of lahars and lahar–runout flows in the Toutle–Cowlitz River System: United States Geological Survey, Professional Paper 1447–A, 74 pp. [ Links ]

    Stevens, N.F., Wadge, G., William, C. A., 2001, Post–emplacement lava subsidence and the accuracy of ERS InSAR digital elevation models of volcanoes: International Journal of Remote Sensing, 22(5), 819– 828. [ Links ]

    Tilton, J.C., 2006, RHSEG User's Manual: National Aeronautics and Space Administration, 53 pp. [ Links ]

    Tilton, J.C., Lawrence, W.T., Plaza, A.J., 2006, Utilizing hierarchical segmentation to generate water and snow masks to facilitate monitoring change with remotely sensed image data: GIScience and Remote Sensing, 43, 39–66. [ Links ]

    Torres, R.C., Self, S., Martínez, M.L., 1996, Secondary pyroclastic flows from the June 15, 1991, ignimbrite of Mount Pinatubo, in Newhall, C.G., Punongbayan, R.S. (eds.), Fire and mud: Eruptions and lahars of Mount Pinatubo, Philippines: Seattle, University of Washington Press and Philippine Institute of Volcanology and Seismology, 665– 678. [ Links ]

    Torres, R., Mouginis–Mark, P., Self, S., Garbeil, H., Kallianpur, K., Quiambao, R., 2004, Monitoring the evolution of the Pasig–Potrero alluvial fan, Pinatubo Volcano, using a decade of remote sensing data: Journal of Volcanology and Geothermal Research, 138, 371–392. [ Links ]

    Van Wyk de Vries, B., Kerle N., Petley, D., 2000, Sector collapse forming at Casita Volcano, Nicaragua: Geology, 28( 2), 167–170. [ Links ]

    Wooster, M.J., Rothery, D.A., 1997, Thermal monitoring of Lascar Volcano, Chile, using infrared data from the along–track scanning radiometer: a 1992 – 1995 time series: Bulletin of Volcanology, 58, 566–579. [ Links ]

    Wooster, M.J., Kaneko, T., Nakada, S., Shimizu, H., 2000, Discrimination of lava dome activity styles using satellite–derived thermal structures: Journal of Volcanology and Geothernal Reseach, 102, 97–118. [ Links ]