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Mapping lightning/human-caused wildfires occurrence under ignition point location uncertainty

Author

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  • Amatulli, Giuseppe
  • Peréz-Cabello, Fernando
  • de la Riva, Juan

Abstract

Fire managers need to study fire history in terms of occurrence in order to understand and model the spatial distribution of the causes of ignition. Fire atlases are useful open sources of information, recording each single fire event by means of its geographical position. In such cases the fire event is considered as point-based, rather than area-based data, completely losing its surface nature. Thus, an accurate method is needed to estimate continuous density surfaces from ignition points where location is affected by a certain degree of uncertainty. Recently, the fire scientific community has focused its attention on the kernel density interpolation technique in order to convert point-based data into continuous surface or surface-data. The kernel density technique needs a priori setting of smoothing parameters, such as the bandwidth size. Up to now, the bandwidth size was often based on subjective choices still needing expert knowledge, eventually supported by empirical decisions, thus leading to serious uncertainties. Nonetheless, a geostatistical model able to describe the point concentration and consequently the clustering degree is required. This paper tries to solve such issues by implementing the kernel density adaptive mode. Lightning/human-caused fires occurrence was investigated in the region of Aragón's autonomy over 19 years (1983–2001) using 3428 and 4195 ignition points respectively for the two causes of fire origin. An analytical calibration procedure was implemented to select the most reliable density surfaces to reduce under/over-density estimation, overcoming the current drawbacks to define it by visual inspection or personal interpretation. Besides, ignition point location uncertainty was investigated to check the sensitivity of the proposed model. The different concentration degree and the dissimilar spatial pattern of the two datasets, allow testing the proposed calibration methodology under several conditions. After having discovered the slight sensitivity of the model to the exact point position, the obtained density surfaces for the two causes were combined to discover hotspot areas and spatial patterns of the two causes. Evident differences in spatial location of the origin causes were noted and described. The general trend follows the geographical features and the human activity of the study areas. The proposed technique should be promising to support decision-making in wildfire prevention actions, because of the occurrence map can be used as a response variable in fire risk predicting models.

Suggested Citation

  • Amatulli, Giuseppe & Peréz-Cabello, Fernando & de la Riva, Juan, 2007. "Mapping lightning/human-caused wildfires occurrence under ignition point location uncertainty," Ecological Modelling, Elsevier, vol. 200(3), pages 321-333.
    • Handle: RePEc:eee:ecomod:v:200:y:2007:i:3:p:321-333
    DOI: 10.1016/j.ecolmodel.2006.08.001
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    References listed on IDEAS

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    1. Philippe Van Kerm, 2003. "Adaptive kernel density estimation," Stata Journal, StataCorp LP, vol. 3(2), pages 148-156, June.
    2. de Bruin, R. & Salome, D. & Schaafsma, W., 1999. "A semi-Bayesian method for nonparametric density estimation," Computational Statistics & Data Analysis, Elsevier, vol. 30(1), pages 19-30, March.
    3. Albers, C. J. & Schaafsma, W., 2003. "Estimating a density by adapting an initial guess," Computational Statistics & Data Analysis, Elsevier, vol. 42(1-2), pages 27-36, February.
    4. Luc Devroye & Gábor Lugosi, 1998. "Variable Kernel estimates: On the impossibility of tuning the parameters," Economics Working Papers 325, Department of Economics and Business, Universitat Pompeu Fabra.
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    Citations

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    Cited by:

    1. José Ramón González‐Olabarria & Blas Mola‐Yudego & Lluis Coll, 2015. "Different Factors for Different Causes: Analysis of the Spatial Aggregations of Fire Ignitions in Catalonia (Spain)," Risk Analysis, John Wiley & Sons, vol. 35(7), pages 1197-1209, July.
    2. Ilaria Zambon & Artemi Cerdà & Pavel Cudlin & Pere Serra & Silvia Pili & Luca Salvati, 2019. "Road Network and the Spatial Distribution of Wildfires in the Valencian Community (1993–2015)," Agriculture, MDPI, vol. 9(5), pages 1-15, May.
    3. Feliu Serra-Burriel & Pedro Delicado & Fernando M. Cucchietti, 2021. "Wildfires Vegetation Recovery through Satellite Remote Sensing and Functional Data Analysis," Mathematics, MDPI, vol. 9(11), pages 1-22, June.
    4. Chaoxue Tan & Zhongke Feng, 2023. "Mapping Forest Fire Risk Zones Using Machine Learning Algorithms in Hunan Province, China," Sustainability, MDPI, vol. 15(7), pages 1-17, April.
    5. Ghafar Salavati & Ebrahim Saniei & Ebrahim Ghaderpour & Quazi K. Hassan, 2022. "Wildfire Risk Forecasting Using Weights of Evidence and Statistical Index Models," Sustainability, MDPI, vol. 14(7), pages 1-15, March.
    6. Kuter, Semih & Usul, Nurunnisa & Kuter, Nazan, 2011. "Bandwidth determination for kernel density analysis of wildfire events at forest sub-district scale," Ecological Modelling, Elsevier, vol. 222(17), pages 3033-3040.
    7. Nikos Koutsias & Panagiotis Balatsos & Kostas Kalabokidis, 2014. "Fire occurrence zones: kernel density estimation of historical wildfire ignitions at the national level, Greece," Journal of Maps, Taylor & Francis Journals, vol. 10(4), pages 630-639, October.
    8. Marshall, Jonathan C. & Hazelton, Martin L., 2010. "Boundary kernels for adaptive density estimators on regions with irregular boundaries," Journal of Multivariate Analysis, Elsevier, vol. 101(4), pages 949-963, April.
    9. James Gaboardi, 2020. "Validating Abstract Representations of Spatial Population Data while considering Disclosure Avoidance," Working Papers 20-5, Center for Economic Studies, U.S. Census Bureau.
    10. Benavent-Corai, J. & Rojo, C. & Suárez-Torres, J. & Velasco-García, L., 2007. "Scaling properties in forest fire sequences: The human role in the order of nature," Ecological Modelling, Elsevier, vol. 205(3), pages 336-342.
    11. James Gaboardi, 2020. "Validating Abstract Representations of Spatial Population Data while considering Disclosure Avoidance," Working Papers 20-05, Center for Economic Studies, U.S. Census Bureau.
    12. Jaime de Diego & Antonio Rúa & Mercedes Fernández, 2021. "Vulnerability Variables and Their Effect on Wildfires in Galicia (Spain). A Panel Data Analysis," Land, MDPI, vol. 10(10), pages 1-17, September.

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