Estudio comparativo de los regímenes de fuego en tres espacios naturales del oeste peninsular mediante imágenes Landsat

Lozano Cantero, Francisco Javier; Suárez Seoane, Susana; Luis Calabuig, Estanislao de

Estudio comparativo de los regímenes de fuego en tres espacios naturales del oeste peninsular mediante imágenes Landsat

Lozano Cantero, Francisco Javier
Suárez Seoane, Susana
Luis Calabuig, Estanislao de

Journal:

Revista de teledetección: Revista de la Asociación Española de Teledetección

ISSN: 1133-0953

Year of publication: 2006

Issue: 26

Pages: 77-86

Type: Article

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More publications in: Revista de teledetección: Revista de la Asociación Española de Teledetección

Bibliographic References

BAKER, W. L., 1992. Effects of Settlement and Fire Suppression on Landscape Structure. Ecology, 73, 1879-1887.
CALLE, A., CASANOVA, J. L. y ROMO, A., 2005. An integrated system for fire detection and monitoring, in real time, using MSG and MODIS data. En De la Riva, J., Pérez-Cabello, F. & Chuvieco, E. (Eds.), Proceedings of the 5th International Workshop on Remote Sensing and GIS Applications to Forest Fire Management: Fire Effects Assessment, 153-156. Universidad de Zaragoza.
CHAVEZ, P. S., JR., 1996. Image-based atmospheric correctionsrevisited and improved. Photogrammetric Engineering and Remote Sensing, 62(9): 1025-1036.
COCKE, A. E., FULÉ, P. Z. y CROUSE, J. E., 2005. Comparison of burn severity assessments using Differenced Normalized Burn Ratio and ground data. International Journal of Wildland Fire, 14: 189-198.
DÍAZ-DELGADO, R., SALVADOR, R., VALERIANO, J. y PONS, X., 1998. Detección de superficies forestales quemadas en Cataluña mediante imágenes de satélite durante el período 1975-1995. Aplicación para la caracterización del régimen de incendios y los procesos de regeneración de la vegetación. Serie Geográfica, 7: 129- 138.
FERNÁNDEZ, A., ILLERA, P. y CASANOVA, J. L., 1997. Automatic mapping of surfaces affected by forest fires in Spain using AVHRR NDVI composite image data. Remote Sensing of Environment, 60(2): 153-162.
GILABERT, M.A., CONESE, C. y MASELLI, F., 1994. An atmospheric correction method for the automatic retrieval of surface reflectances from TM images. International Journal of Remote Sensing, 15: 2065-2086.
HALL, F.G., STREBEL, D.E., NICKESON, J.E. Y GOETZ, S.J., 1991. Radiometric rectification: toward a common radiometric response among multidate, multitsensor images. Remote Sensing of Environment, 35:11-27.
HEREDIA LACLAUSTRA, A., MARTÍNEZ SÁNCHEZ, S., CHUVIECO SALINERO, E., PIÑEROS, W. y QUINTERO, E., 2003. Comparación de distintas técnicas de análisis digital para la cartografía de áreas quemadas con imágenes LANDSAT ETM. Geofocus: Revista Internacional de Ciencia y Tecnología de la Información Geográfica, 3: 216-234.
KEELEY, JON E. & FOTHERINGHAM, C. J. (2001) Historic Fire Regime in Southern California shrublands. Conservation Biology, 15 (6), 1536-1548.
KEY, C. H. y BENSON, N. C., 1999. Measuring and remote sensing of burn severity. In L. F. Neuenschwander, & K. C. Ryan (Eds.), Proceedings Joint Fire Science Conference and Workshop, vol. II (p. 284). Moscow, ID: University of Idaho and International Association of Wildland Fire.
KEY, C. H. y BENSON, N. C., 2002. Remote sensing measure of severity, the normalized burn ratio. Fire effects monitoring and inventory protocol, Landscape Assessment. Systems for Environmental Management and USDA Fire Sciences Laboratory, Rocky Mountain Research Station.
LÓPEZ GARCÍA, M. J. y CASELLES, V., 1991. Mapping burns and natural reforestation using Thematic Mapper data. Geocarto International, 1, 31-37.
LOZANO, F. J., SUÁREZ-SEOANE, S. y LUIS, E., 2006. Assessment of several spectral indices derived from multi-temporal Landsat data for fire occurrence probability modeling. Remote Sensing of the Environment, in press.
MARKHAM, B. L. y BARKER, J. L., 1986. Landsat MSS and TM post-calibration dynamic ranges, exatmospheric reflectances and at-satellite temperatures. EOSAT Landsat Technical Notes (1) 3-8.
MARTÍN, M. P. y CHUVIECO, E., 1995. Cartografía y evaluación superficial de grandes incendios a partir de imágenes de satélite. Ecología, 9: 9-21.
MARTÍN, M. P. y CHUVIECO, E. 1998. Cartografía de grandes incendios forestales en la Península Ibérica a partir de imágenes NOAAAVHRR. Serie Geográfica, 7: 109-128.
MARTÍNEZ, B., MELIÁ, J., SAN-MIGUELAYANZ, J. y BARBOSA, P., 2002, An optimized burned area detection method based on the GESAVI. En Viegas X. (ed.) Forest Fire Research & Wildland Fire Safety, 2002 Millpress, Rotterdam, ISBN 90-77017-72-0.
MORAN, M. S., JACKSON, R. D., SLATER, P. N. Y TEILLET, P. M., 1992. Evaluation of simplified procedures for retrieval of land surface reflectance factors from satellite sensor output. Remote Sensing of Environment, 41: 169-184.
QUINTANO, C., FERNÁNDEZ-MANSO, O., FERNÁNDEZ-MANSO, A.y SHIMABUKURO Y. E., 2005. Mapping burned areas and estimating fire severity by means of spectral mixture and object oriented image analysis from an unitemporal perspective. En De la Riva, J., Pérez-Cabello, F. & Chuvieco, E. (Eds.), Proceedings of the 5th International Workshop on Remote Sensing and GIS Applications to Forest Fire Management: Fire Effects Assessment, 193-197. Universidad de Zaragoza.
PALÁ, V. y PONS, X., 1995. Incorporation of relief into geometric correction based on polynomials. Photogrammetric Engineering and Remote Sensing, 61 (7), 935-944.
PONS, X., 2002. MiraMon. Geographic Information System and Remote Sensing software. Centre de Recerca Ecològica i Aplicacions Forestals, CREAF. Bellaterra. ISBN: 84-931323-5-7.
RIAÑO, D., CHUVIECO, E., SALAS, J. y AGUADO, I., 2003. Assessment of different topographic corrections in Landsat-TM data for mapping vegetation types. IEEE Transactions on Geoscience and Remote Sensing Vol 41, No. 5: 1056-1061.
RECONDO GONZÁLEZ, C., PÉREZ MORANDEIRA, C.S. y WOZNIAK, E., 2002. Cartografía de zonas quemadas en Asturias durante el período 1991-2001 a partir de imágenes Landsat TM. Revista de Teledetección, 18: 47-55. ROUSE, J. W., HAAS, R. H., SCHELL, J. A. y DEERING, D. W., 1973 Monitoring vegetation systems in the great plains with ERTS, Third ERTS Symposium, NASA SP-351, vol. 1, pp.309- 317.
ROY, D.P., BOSCHETTI, L. y TRIGG, S., 2006. Remote Sensing of Fire Severity: Assessing the performance of the Normalized Burn Ratio. IEEE Geoscience and Remote Sensing Letters, 3:112- 116.
TEILLET, P.M., GUINDON, B., y GOODEONUGH, D.G., 1982. On the slope-aspect correction of multispectral scanner data. Canadian Journal of Remote Sensing Vol 8: 84-106.
VAN WAGTENDONK, J. W., ROOT, R.R. y KEY, C. H., 2004. Comparison of AVIRIS and Landsat ETM+ detection capabilities for burn severity. Remote Sensing of the Environment, 92: 397-408.
VÉLEZ, R., 2000. Los incendios forestales en la Cuenca Mediterránea. En Vélez, R. (Ed.), La defensa contra incendios forestales. Fundamentos y experiencias. 3.1-3.15. McGraw Hill. ISBN: 8448127420.
WHELAN, R. J., The ecology of fire. Cambridge studies in ecology. Cambridge University Press. ISBN 0521328721.
WHITE, J. D., RYAN, K. C., KEY, C. C. y RUNNING, S. W., 1996. Remote sensing of forest fire severity and vegetation recovery. International Journal of Wildland Fire, 6, 125-136.

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