Revisión de las técnicas de identificación cartográfica de áreas quemadas

Barra de artigos

PDF (Español)
Publicado 11-09-2018

Contido principal do artigo

Angela De Santis
INSA, Ingeniería y Servicios Aeroespaciales, S.A.
España
Patrick Vaughan
INSA, Ingeniería y Servicios Aeroespaciales, S.A.
España
No 5 (2009), Artigos orixinais, páxinas 93-100
DOI https://doi.org/10.15304/rr.id5305
Recibido: 12-07-2018 Publicado: 11-09-2018
Copyright Como citar

Resumo

La cartografía y discriminación de áreas quemadas por incendios forestales constituye una fuente de información clave para las tareas de gestión post-incendio. La teledetección ha demostrado ser una herramienta cada vez más operativa para desempeñar este tipo de trabajo. Este artículo reúne y explica las últimas aplicaciones y técnicas de teledetección usadas para la cartografía de área quemada centrándose en aspectos de viabilidad espectral, escala y precisión.

Palabras chave

Área quemada · Discriminación · Índice espectral · Cartografía
Citado por

Detalles do artigo

Citas

Barbosa, P., Kucera, J., Strobl, P., Vogt, P., Camia, A. y San-Miguel-Ayanz, J. (2006).European Forest Fire information System (EFFIS) – rapid damage assessment: appraisal of burnt area maps in southern Europe using MODIS data (2003 to 2005).Forest Ecololy and Management, 232, Supp. 1, pS218.

Barbosa, P.M., San-Miguel Ayanz, J., Martínez, B. & Schmuck, G. (2002). Burnt area mapping in southern Europe using irs-wifs. In: Forest Fire Research & Wildland Fire Safety (Viegas, Ed.) Millpress. Rotterdam.

Bastarrika Izaguirre, A. & Chuvieco Salinero, E. (2006). Cartografía de área quemada mediante crecimiento de regiones: aplicación en entornos mediterráneos con imágenes TM y ETM+. Geofocus (Artículos). 6: 182-204.

Boschetti, L., Flasse, S.P. & Brivio, P. A. (2004). Analysis of the conflict between omission and commission in low spatial resolution dichotomic thematic products: The Pareto Boundary. Remote Sensing of Environment, 91: 280-292.

Brewer, C.K., Winne, J.C., Redmond, R.L., Opitz, D. W. & Mangrich, M.V. (2005), Classifying and Mapping Wildfire Severity: A Comparison of Methods, Photogrammetric Engineering and Remote Sensing, 71(11): 1311-1320.

Camacho, M.T., (1993). Use of remote sensing in the visible spectrum for the study of burnt areas: the example of the Madres Massif (eastern Pyrenees, France). In: P.J. Kennedy and M. Karteris (Eds.). International Workshop: Satellite Technology and GIS for Mediterranean Forest Mapping and Fire Management. Thessaloniki. Greece. 85-95.

Chuvieco, E. (2002). Teledetección Ambiental: La observación de la Tierra desde el Espacio. Ariel Ciencia. Barcelona.

Chuvieco, E. & Martín, M.P. (1999). Performance Assessment in the Fire Post-fire Phase. Final Report. FOQ-132-CT-05-1a. Department of Geography. Alcalá de Henares.

Chuvieco, E., Martín, M.P. & Palacios, A. (2002a). Assessment of different spectral indices in the red-near-infrared spectral domain for burned land discrimination. International Journal of Remote Sensing. 23(23): 5103-5110.

Chuvieco, E., Martín, M.P. & Ventura, G., (2002b). Evaluación de imágenes NOAA-AVHRR y Terra-MODIS para cartografía regional de áreas quemadas. X Simposio Internacional de la Sociedad de Expertos Latinoamericanos en Percepción Remota (SELPER). Cochabamba. Bolivia.

Cochrane, M.A. & Souza, C.M. (1998). Linear mixture model classification of burned forests in the Eastern Amazon. International Journal of Remote Sensing. 19(17): 3433-3440.

Cocke, A.E., Fule, P.Z. & 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.

Epting, J., Verbyla, D.L. & Sorbel, B. (2005). Evalation of remotely senses indices for assessing burn severity in interior Alaska using Landsat TM and ETM+. Remote Sensing of Environment. 96: 328-339.

Eva, H. & Lambin, E.F. (1998). Burnt area mapping in Central Africa using ATSR data. International Journal of Remote Sensing. 19(18): 3473-3497.

Fernández, A., Illera, P. & 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.

Fraser, R.H., Fernandes, R. & Latifovic, R. (2002), Multi-temporal burned area mapping using logistic regression analysis and change metrics. IEEE Transactions on Geoscience and Remote Sensing: 1486-1488.

Fuller, D.O. & Fulk, M. , (2001). Burned area in Kalimantan,Indonesia mapped with NOAA-AVHRR and Landsat TM imagery. International Journal of Remote Sensing. 22,4: 691-697.

Garcia, M. & Chuvieco, E. (2004). Assessment of the potential of SAC-C/MMRS imagery for mapping burned areas in Spain. Remote Sensing of Environment. 92: 414–423.

Gong, P., Pu, R., Li, Z. & Scarborough, J. (2001). An Integrated Approach for Wildland Fire Mapping in California, USA Using NOAA/AVHRR Data. 0-7803-7031-1/01, IEEE.

Heredia Laclaustra, A., Martínez Sánchez, S., Quintero, E., Piñeros, W. & Chuvieco, E. (2003). Comparación de distintas técnicas de análisis digital para la cartografía de áreas quemadas con imágenes LANDSAT ETM+. Geofocus (Artículos), 3: 216-234.

Huete, A.R. (1988). A soil-adjusted vegetation index (SAVI). Remote Sensing of Environment. 25: 295-309.

Hunt, E.R. & Rock, B.N. (1989). Detection of changes in leaf water content using near and middle-infrared reflectances. Remote Sensing of Environment. 30: 43-54.

Key, C. & Benson, N., (1999). The Normalized Burned Ratio, a Landsat TM radiometric index of burn severity incorporating multi-temporal differencing. U.S. Geological Survey.

Key, C.H. & Benson, N., (2004). Ground Measure of Severity: The Composite Burn Index. FIREMON Landscape Assessment V4.

Key, C.H. & Benson, N. (2005). Landscape Assessment: Ground measure of severity, the Composite Burn Index; and Remote sensing of severity, the Normalized Burn Ratio. In: D.C. Lutes, R.E. Keane, J.F. Caratti, C.H. Key, N.C. Benson & L.J. Gangi (Eds.). FIREMON: Fire Effects Monitoring and Inventory System. USDA Forest Service. Rocky Mountain Research Station, Gen. Tech. Rep. RMRS-GTR-164. Ogden. UT, pp. CD:LA1-LA51.

Koutsias, N. & Karteris, M. (2000). Burned area mapping using logistic regression modeling of a single post-fire Landsat-5 Thematic Mapper image. International Journal of Remote Sensing. 21(4): 673-687.

López García, M.J. & Caselles, V. (1991). Mapping Burns and Natural Reforestation Using Thematic Mapper Data. Geocarto International. 1: 31-37.

Martín, M.P. (1998). Cartografía e inventario de incendios forestales en la Península Ibérica a partir de imágenes NOAA-AVHRR. Tesis Doctoral Thesis. Universidad de Alcalá, Alcalá de Henares.

Martín, M.P. and Chuvieco, E. (1995). Cartografía y evaluación superficial de grandes incendios forestales a partir de imágenes de satélite. Ecología. 9: 9-21.

Martín, M.P., Díaz Delgado, R., Chuvieco, E. & Ventura, G. (2002). Burned land mapping using NOAA-AVHRR and TERRA-MODIS. In: D.X. Viegas (Ed.), IV International Conference on Forest Fire Research. 2002 Wildland Fire Safety Summit. Millpress. Luso. Coimbra. Portugal.

Martínez, B., Meliá, J., San Miguel, J. & Barbosa, P., (2002). An optimized burned area detection method based on the GESAVI. In: D.X. Viegas (Ed.), IV International Conference on Forest Fire Research. 2002 Wildland Fire Safety Summit. Luso. Coimbra. Portugal.

Miller, H.J. & Yool, S.R. (2002). Mapping forest post-fire canopy consumption in several overstory types using multi-temporal Landsat TM and ETM data, Remote Sensing of Environment. 82: 481–496.

Oliva, P. & Martín, P. (2007). Mapping burned area by using Spectral Angle Mapper in MERIS images. 6th International workshop on advances in RS and GIS applications in forest fire management. Thessaloniki. Greece. 26-29 de septiembre 2007.

Patterson, M.W. & Yool, S.R. (1998). Mapping Fire-Induced Vegetation Mortality Using Landsat Thematic Mapper Data: A Comparison of Linear Transformation Techniques. Remote Sensing of Environment. 65: 132-142.

Pereira, J.M.C. (1999). A Comparative Evaluation of NOAA/AVHRR Vegetation Indexes for Burned Surface Detection and Mapping. IEEE Transactions on Geoscience and Remote Sensing. 37(1): 217-226.

Pereira, J.M.C., Sa, A.C.L., Sousa, A.M.O., Martín, M.P. & Chuvieco, E. (1999a). Regional-scale burnt area mapping in Southern Europe using NOAA-AVHRR 1 km data. In: E. Chuvieco (Ed.). Remote Sensing of Large Wildfires in the European Mediterranean Basin. Springer-Verlag, Berlin. 139-155.

Pereira, J.M.C., Sa, A.C.L., Sousa, A.M.O., Silva, J.M.N., Santos, T.N. & Carreiras, J.M.B. (1999b). Spectral characterisation and discrimination of burnt areas. In: E. Chuvieco (Ed.). Remote Sensing of Large Wildfires in the European Mediterranean Basin. Springer-Verlag, Berlin. 123-138.

Pinty, B. & Verstraete, M.M. (1992). GEMI: a non-linear index to monitor global vegetation from satellites. Vegetatio. 101: 15-20.

Rouse, J.W., Haas, R.W., Schell, J.A., Deering, D.H. & Harlan, J.C. (1974). Monitoring the vernal advancement and retrogradation (Greenwave effect) of natural vegetation. NASA/GSFC. Greenbelt, MD. USA.

Roy, D.P., Giglio, L., Kendall, J.D. & Justice, C.O. (1999). Multi-temporal active-fire based burn scar detection algorithm. International Journal of Remote Sensing. 20(5): 1031-1038.

Roy, D., Jin, Y., Lewis, P. & Justice, C. (2005). Prototyping a global algorithm for systematic fire-affected area mapping using MODIS time series data. Remote Sensing of Environment. 97: 137-162.

Salvador, R., Valeriano, J., Pons, X. & Díaz-Delgado, R. (2000). A semi-automatic methodology to detect fire scars in shrubs and evergreen forests with Landsat MSS time series. International Journal of Remote Sensing. 21(4): 655-671.

Trigg, S. & Flasse, S. (2001). An evaluation of different bi-spectral spaces for discriminating burned shrub-savannah. International Journal of Remote Sensing. 22(13): 2641–2647.

van Wagtendonk, J.W., Root, R.R. & Key, C.H. (2004). Comparison of AVIRIS and Landsat ETM+ detection capabilities for burn severity, Remote Sensing of Environment. 92(3): 397-408.

Vélez, R. (2000). Los incendios forestales en la cuenca mediterránea. In: Vélez, R. (Ed.) La defensa contra incendios forestales. Fundamentos y experiencias. Mc Graw Hill. Madrid.Capitulo 3.

White, J.D., Ryan, K.C., Key, C.C. & Running, S.W. (1996). Remote sensing of forest fire severity and vegetation recovery. International Journal of Wildland Fire. 6(3): 125-136.