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International Journal of Wildland Fire International Journal of Wildland Fire Society
Journal of the International Association of Wildland Fire
RESEARCH ARTICLE

Likelihood and frequency of recurrent fire ignitions in highly urbanised Mediterranean landscapes

Mario Elia A C , Vincenzo Giannico A , Giuseppina Spano A , Raffaele Lafortezza A B and Giovanni Sanesi A
+ Author Affiliations
- Author Affiliations

A Department of Agricultural and Environmental Sciences, University of Bari A. Moro, Via Amendola 165/A, 70126 Bari, Italy.

B Department of Geography, The University of Hong Kong, Centennial Campus, Pokfulam Road, Hong Kong.

C Corresponding author. Email: mario.elia@uniba.it

International Journal of Wildland Fire 29(2) 120-131 https://doi.org/10.1071/WF19070
Submitted: 8 May 2019  Accepted: 26 November 2019   Published: 16 January 2020

Abstract

Fire recurrence plays a key role in shaping landscapes in Mediterranean ecosystems. Short-term recurrent fires, in particular, are increasingly affecting highly urbanised landscapes. Studies worldwide have addressed fire recurrence by analysing environmental, climatic and human-driven factors. Current models use fire recurrence polygons as the dependent variable; yet no published study has focused its analysis on fire recurrence considering recurrent ignition points as the response variable. To fill this gap, remote sensing and available local data were combined to analyse the influence of human and biophysical variables in predicting both the likelihood and frequency of recurrent fire ignition points over a 9-year period (2004–12) in southern Italy. For this purpose, we used the Negative Binomial Hurdle model owing to the stochastic nature of the phenomenon of fire recurrence and the (large) number of non-occurrences. Results on the likelihood and frequency of recurrent fire ignition points (dependent variables) suggested that road distance was the strongest predictor, followed by the presence of shrublands and grasslands. The response variable showed a negative relationship with population density and road distance and a positive relationship with land-cover variables. Vegetation indices were also good predictors of fire recurrence. More broadly, this study is intended to be a further experimental step in fire-management analysis characterised by the continuous interaction between human and natural systems. Constant changes between these systems due to causes such as urban sprawl and climate change can create the conditions for short-term-interval recurrent fires.

Additional keywords: fire drivers, fire ignition points, fire recurrence, hurdle models, remote sensing.


References

Ager AA, Preisler HK, Arca B, Spano D, Salis M (2014) Wildfire risk estimation in the Mediterranean area. Environmetrics 25, 384–396.
Wildfire risk estimation in the Mediterranean area.Crossref | GoogleScholarGoogle Scholar |

Akaike H (1974) Stochastic theory of minimal realization. IEEE Transactions on Automatic Control 19, 667–674.
Stochastic theory of minimal realization.Crossref | GoogleScholarGoogle Scholar |

Amraoui M, Pereira MG, Da Camara CC, Calado TJ (2015) Atmospheric conditions associated with extreme fire activity in the western Mediterranean region. The Science of the Total Environment 524, 32–39.
Atmospheric conditions associated with extreme fire activity in the western Mediterranean region.Crossref | GoogleScholarGoogle Scholar | 25889542PubMed |

Anderson LO, Malhi Y, Aragão LEOC, Ladle R, Arai E, Barbier N, Phillips O (2010) Remote sensing detection of droughts in Amazonian forest canopies. New Phytologist 187, 733–750.
Remote sensing detection of droughts in Amazonian forest canopies.Crossref | GoogleScholarGoogle Scholar | 20659255PubMed |

Arens AM, Gaher RM, Simons JS, Dvorak RD (2014) Child maltreatment and deliberate self-harm: a negative binomial hurdle model for explanatory constructs. Child Maltreatment 19, 168–177.
Child maltreatment and deliberate self-harm: a negative binomial hurdle model for explanatory constructs.Crossref | GoogleScholarGoogle Scholar | 25189325PubMed |

Baeza MJ, Valdecantos A, Alloza JA, Vallejo VR (2007) Human disturbance and environmental factors as drivers of long‐term post‐fire regeneration patterns in Mediterranean forests. Journal of Vegetation Science 18, 243–252.
Human disturbance and environmental factors as drivers of long‐term post‐fire regeneration patterns in Mediterranean forests.Crossref | GoogleScholarGoogle Scholar |

Bar Massada A, Syphard AD, Stewart SI, Radeloff VC (2013) Wildfire ignition-distribution modelling: a comparative study in the Huron–Manistee National Forest, Michigan, USA. International Journal of Wildland Fire 22, 174–183.
Wildfire ignition-distribution modelling: a comparative study in the Huron–Manistee National Forest, Michigan, USA.Crossref | GoogleScholarGoogle Scholar |

Barbati A, Corona P, D’amato E, Cartisano R (2015) Is landscape a driver of short-term wildfire recurrence? Landscape Research 40, 99–108.
Is landscape a driver of short-term wildfire recurrence?Crossref | GoogleScholarGoogle Scholar |

Bento-Gonçalves AJ, Vieira A, Ferreira-Leite F, Malta PA, da Vinha L (2013) Climate change and forest fires in the Ave region (NW of Portugal). In ‘Woodlands: structure, species diversity and sustainable management’. (Ed. L Manzanares) pp. 75–98. (Nova Science Publishers: Hauppauge, NY, USA)

Cardille JA, Ventura SJ, Turner MG (2001) Environmental and social factors influencing wildfires in the Upper Midwest, United States. Ecological Applications 11, 111–127.
Environmental and social factors influencing wildfires in the Upper Midwest, United States.Crossref | GoogleScholarGoogle Scholar |

Catry FX, Rego FC, Bação FL, Moreira F (2009) Modeling and mapping wildfire ignition risk in Portugal. International Journal of Wildland Fire 18, 921–931.
Modeling and mapping wildfire ignition risk in Portugal.Crossref | GoogleScholarGoogle Scholar |

Certini G (2005) Effects of fire on properties of forest soils: a review. Oecologia 143, 1–10.
Effects of fire on properties of forest soils: a review.Crossref | GoogleScholarGoogle Scholar | 15688212PubMed |

Chen JM (1996) Optically based methods for measuring seasonal variation of leaf area index in boreal conifer stands. Agricultural and Forest Meteorology 80, 135–163.
Optically based methods for measuring seasonal variation of leaf area index in boreal conifer stands.Crossref | GoogleScholarGoogle Scholar |

Chuvieco E, Riaño D, Van Wagtendok J, Morsdof F (2003) Fuel loads and fuel type mapping. In ‘Wildland fire danger estimation and mapping: the role of remote sensing data’. (Ed E Chuvieco) pp. 119–142. (World Scientific Publishing Co. Pte Ltd: Singapore)

Costafreda-Aumedes S, Comas C, Vega-Garcia C (2017) Human-caused fire occurrence modelling in perspective: a review. International Journal of Wildland Fire 26, 983–998.
Human-caused fire occurrence modelling in perspective: a review.Crossref | GoogleScholarGoogle Scholar |

Cuevas-González M, Gerard F, Balzter H, Riano D (2009) Analysing forest recovery after wildfire disturbance in boreal Siberia using remotely sensed vegetation indices. Global Change Biology 15, 561–577.
Analysing forest recovery after wildfire disturbance in boreal Siberia using remotely sensed vegetation indices.Crossref | GoogleScholarGoogle Scholar |

Curt T, Borgniet L, Bouillon C (2013) Wildfire frequency varies with the size and shape of fuel types in south-eastern France: implications for environmental management. Journal of Environmental Management 117, 150–161.
Wildfire frequency varies with the size and shape of fuel types in south-eastern France: implications for environmental management.Crossref | GoogleScholarGoogle Scholar | 23369835PubMed |

Darques R (2015) Mediterranean cities under fire: a critical approach to the WUI. Applied Geography 59, 10–21.
Mediterranean cities under fire: a critical approach to the WUI.Crossref | GoogleScholarGoogle Scholar |

de Bem PP, de Carvalho Júnior OA, Matricardi EAT, Guimarães RF, Gomes RAT (2019) Predicting wildfire vulnerability using logistic regression and artificial neural networks: a case study in Brazil’s Federal District. International Journal of Wildland Fire 28, 35–45.
Predicting wildfire vulnerability using logistic regression and artificial neural networks: a case study in Brazil’s Federal District.Crossref | GoogleScholarGoogle Scholar |

DeBano LF, Neary DG, Ffolliott PF (2005) Soil physical properties. In ‘Wildland fire in ecosystems. Effects of fire on soil and water’. (Eds DG Neary DG, Ryan KC, DeBano LF) USDA Forest Service, Rocky Mountain Research Station, General Technical Report RMRSGTR- 42-Vol 4, p. 250.

Delitti W, Ferran A, Trabaud L, Vallejo VR (2005) Effects of fire recurrence in Quercus coccifera L. shrublands of the Valencia region (Spain): I. Plant composition and productivity. Plant Ecology 177, 57–70.
Effects of fire recurrence in Quercus coccifera L. shrublands of the Valencia region (Spain): I. Plant composition and productivity.Crossref | GoogleScholarGoogle Scholar |

Díaz-Delgado R, Lloret F, Pons X (2004) Spatial patterns of fire occurrence in Catalonia, NE, Spain. Landscape Ecology 19, 731–745.
Spatial patterns of fire occurrence in Catalonia, NE, Spain.Crossref | GoogleScholarGoogle Scholar |

Eklundh L, Harrie L, Kuusk A (2001) Investigating relationships between Landsat ETM+ sensor data and leaf area index in a boreal conifer forest. Remote Sensing of Environment 78, 239–251.
Investigating relationships between Landsat ETM+ sensor data and leaf area index in a boreal conifer forest.Crossref | GoogleScholarGoogle Scholar |

Elia M, Lafortezza R, Lovreglio R, Sanesi G (2015) Developing custom fire behavior fuel models for Mediterranean wildland–urban interfaces in southern Italy. Environmental Management 56, 754–764.
Developing custom fire behavior fuel models for Mediterranean wildland–urban interfaces in southern Italy.Crossref | GoogleScholarGoogle Scholar | 25962800PubMed |

Elia M, Lovreglio R, Ranieri NA, Sanesi G, Lafortezza R (2016) Cost-effectiveness of fuel removals in Mediterranean wildland–urban interfaces threatened by wildfires. Forests 7, 149
Cost-effectiveness of fuel removals in Mediterranean wildland–urban interfaces threatened by wildfires.Crossref | GoogleScholarGoogle Scholar |

Elia M, Lafortezza R, Tarasco E, Sanesi G (2017) Response of beetle communities five years after wildfire in Mediterranean forest ecosystems. Redia Giornale di Zoologi 99, 107–116.

Elia M, Giannico V, Lafortezza R, Sanesi G (2019) Modeling fire ignition patterns in Mediterranean urban interfaces. Stochastic Environmental Research and Risk Assessment 33, 169–181.
Modeling fire ignition patterns in Mediterranean urban interfaces.Crossref | GoogleScholarGoogle Scholar |

Eugenio M, Lloret F, Alcañiz JM (2006) Regional patterns of fire recurrence effects calcareous soils of Mediterranean Pinus halepensis communities. Forest Ecology and Management 221, 313–318.
Regional patterns of fire recurrence effects calcareous soils of Mediterranean Pinus halepensis communities.Crossref | GoogleScholarGoogle Scholar |

EUROSTAT (2011) Background – Eurostat. Available at https://ec.europa.eu/eurostat/web/degree-of-urbanisation/background [Verified 15 July 2019]

Faivre N, Jin Y, Goulden ML, Randerson JT (2014) Controls on the spatial pattern of wildfire ignitions in southern California. International Journal of Wildland Fire 23, 799–811.
Controls on the spatial pattern of wildfire ignitions in southern California.Crossref | GoogleScholarGoogle Scholar |

Ferreira-Leite F, Bento-Gonçalves A, Vieira A, Nunes A, Lourenço L (2016) Incidence and recurrence of large forest fires in mainland Portugal. Natural Hazards 84, 1035–1053.
Incidence and recurrence of large forest fires in mainland Portugal.Crossref | GoogleScholarGoogle Scholar |

Galiana-Martin L, Herrero G, Solana J (2011) A wildland–urban interface typology for forest fire risk management in Mediterranean areas. Landscape Research 36, 151–171.
A wildland–urban interface typology for forest fire risk management in Mediterranean areas.Crossref | GoogleScholarGoogle Scholar |

Gallego FJ (2010) A population density grid of the European Union. Population and Environment 31, 460–473.
A population density grid of the European Union.Crossref | GoogleScholarGoogle Scholar |

Ganteaume A, Marielle J, Corinne LM, Thomas C, Laurent B (2009) Fuel characterization and effects of wildfire recurrence on vegetation structure on limestone soils in south-eastern France. Forest Ecology and Management 258, 15–23.
Fuel characterization and effects of wildfire recurrence on vegetation structure on limestone soils in south-eastern France.Crossref | GoogleScholarGoogle Scholar |

Ganteaume A, Camia A, Jappiot M, San-Miguel-Ayanz J, Long-Fournel M, Lampin C (2013) A review of the main driving factors of forest fire ignition over Europe. Environmental Management 51, 651–662.
A review of the main driving factors of forest fire ignition over Europe.Crossref | GoogleScholarGoogle Scholar | 23086400PubMed |

Gellrich M, Baur P, Koch B, Zimmermann NE (2007) Agricultural land abandonment and natural forest regrowth in the Swiss mountains: a spatially explicit economic analysis. Agriculture, Ecosystems and Environment 118, 93–108.
Agricultural land abandonment and natural forest regrowth in the Swiss mountains: a spatially explicit economic analysis.Crossref | GoogleScholarGoogle Scholar |

Genton MG, Butry DT, Gumpertz ML, Prestemon J (2006) Spatiotemporal analysis of wildland fire ignitions in the St Johns River Water Management District, Florida. International Journal of Wildland Fire 15, 87–97.
Spatiotemporal analysis of wildland fire ignitions in the St Johns River Water Management District, Florida.Crossref | GoogleScholarGoogle Scholar |

Gómez C, White JC, Wulder MA (2011) Characterizing the state and processes of change in a dynamic forest environment using hierarchical spatiotemporal segmentation. Remote Sensing of Environment 115, 1665–1679.
Characterizing the state and processes of change in a dynamic forest environment using hierarchical spatiotemporal segmentation.Crossref | GoogleScholarGoogle Scholar |

Gonzalez-Olabarria JR, Brotons L, Gritten D, Tudela A, Teres JA (2012) Identifying location and causality of fire ignition hotspots in a Mediterranean region. International Journal of Wildland Fire 21, 905–914.
Identifying location and causality of fire ignition hotspots in a Mediterranean region.Crossref | GoogleScholarGoogle Scholar |

Guo F, Su Z, Wang G, Sun L, Tigabu M, Yang X, Hu H (2017) Understanding fire drivers and relative impacts in different Chinese forest ecosystems. The Science of the Total Environment 605, 411–425.
Understanding fire drivers and relative impacts in different Chinese forest ecosystems.Crossref | GoogleScholarGoogle Scholar | 28672230PubMed |

Hosseinpour M, Yahaya AS, Sadullah AF (2014) Exploring the effects of roadway characteristics on the frequency and severity of head-on crashes: case studies from Malaysian Federal roads. Accident; Analysis and Prevention 62, 209–222.
Exploring the effects of roadway characteristics on the frequency and severity of head-on crashes: case studies from Malaysian Federal roads.Crossref | GoogleScholarGoogle Scholar | 24172088PubMed |

Hu MC, Pavlicova M, Nunes EV (2011) Zero-inflated and hurdle models of count data with extra zeros: examples from an HIV-risk reduction intervention trial. The American Journal of Drug and Alcohol Abuse 37, 367–375.
Zero-inflated and hurdle models of count data with extra zeros: examples from an HIV-risk reduction intervention trial.Crossref | GoogleScholarGoogle Scholar | 21854279PubMed |

Justice CO, Giglio L, Korontzi S, Owens J, Morisette JT, Roy D, Descloitres J, Alleaume S, Peticolin F, Kaufman Y (2002) The MODIS fire products. Remote Sensing of Environment 83, 244–262.
The MODIS fire products.Crossref | GoogleScholarGoogle Scholar |

Koltunov A, Ustin SL, Asner GP, Fung I (2009) Selective logging changes forest phenology in the Brazilian Amazon: evidence from MODIS image time series analysis. Remote Sensing of Environment 113, 2431–2440.
Selective logging changes forest phenology in the Brazilian Amazon: evidence from MODIS image time series analysis.Crossref | GoogleScholarGoogle Scholar |

Koutsias N, Allgöwer B, Conedera M (2002) What is common in wildland fire occurrence in Greece and Switzerland? Statistics to study fire occurrence pattern. In ‘Proceedings of the 4th international conference on forest fire research’, Luso, Portugal, 18–23 November. (Ed. DX Viegas) pp. 264. (Millpress Science Publishers: Rotterdam, the Netherlands)

Krawchuk MA, Moritz MA (2011) Constraints on global fire activity vary across a resource gradient. Ecology 92, 121–132.
Constraints on global fire activity vary across a resource gradient.Crossref | GoogleScholarGoogle Scholar | 21560682PubMed |

Lafortezza R, Sanesi G, Chen J (2013) Large-scale effects of forest management in Mediterranean landscapes of Europe. iForest-Biogeosciences and Forestry 6, 342–346.
Large-scale effects of forest management in Mediterranean landscapes of Europe.Crossref | GoogleScholarGoogle Scholar |

Lafortezza R, Tanentzap AJ, Elia M, John R, Sanesi G, Chen J (2015) Prioritizing fuel management in urban interfaces threatened by wildfires. Ecological Indicators 48, 342–347.
Prioritizing fuel management in urban interfaces threatened by wildfires.Crossref | GoogleScholarGoogle Scholar |

le Maire G, Marsden C, Nouvellon Y, Grinand C, Hakamada R, Stape JL, Laclau JP (2011) MODIS NDVI time-series allow the monitoring of eucalyptus plantation biomass. Remote Sensing of Environment 115, 2613–2625.
MODIS NDVI time-series allow the monitoring of eucalyptus plantation biomass.Crossref | GoogleScholarGoogle Scholar |

Lippitt CL, Stow DA, O’Leary JF, Franklin J (2013) Influence of short-interval fire occurrence on post-fire recovery of fire-prone shrublands in California, USA. International Journal of Wildland Fire 22, 184–193.
Influence of short-interval fire occurrence on post-fire recovery of fire-prone shrublands in California, USA.Crossref | GoogleScholarGoogle Scholar |

Liu Z (2016) Effects of climate and fire on short-term vegetation recovery in the boreal larch forests of north-eastern China. Scientific Reports 6, 37572
Effects of climate and fire on short-term vegetation recovery in the boreal larch forests of north-eastern China.Crossref | GoogleScholarGoogle Scholar | 27857204PubMed |

López-Merino L, López-Sáez JA, Alba-Sánchez F, Pérez-Díaz S, Carrión JS (2009) 2000 years of pastoralism and fire shaping high-altitude vegetation of Sierra de Gredos in central Spain. Review of Palaeobotany and Palynology 158, 42–51.
2000 years of pastoralism and fire shaping high-altitude vegetation of Sierra de Gredos in central Spain.Crossref | GoogleScholarGoogle Scholar |

Lovreglio R, Leone V, Giaquinto P, Notarnicola A (2010) Wildfire cause analysis: four case-studies in southern Italy. iForest-Biogeosciences and Forestry 3, 8–15.
Wildfire cause analysis: four case-studies in southern Italy.Crossref | GoogleScholarGoogle Scholar |

Maingi JK, Henry MC (2007) Factors influencing wildfire occurrence and distribution in eastern Kentucky, USA. International Journal of Wildland Fire 16, 23–33.
Factors influencing wildfire occurrence and distribution in eastern Kentucky, USA.Crossref | GoogleScholarGoogle Scholar |

Mancini LD, Barbati A, Corona P (2017) Geospatial analysis of woodland fire occurrence and recurrence in Italy. Annals of Silvicultural Research 41, 41–47.

Mancini LD, Elia M, Barbati A, Salvati L, Corona P, Lafortezza R, Sanesi G (2018) Are wildfires knocking on the built-up areas’ door? Forests 9, 234
Are wildfires knocking on the built-up areas’ door?Crossref | GoogleScholarGoogle Scholar |

Marcos B, Gonçalves J, Alcaraz-Segura D, Cunha M, Honrado JP (2019) Improving the detection of wildfire disturbances in space and time based on indicators extracted from MODIS data: a case study in northern Portugal. International Journal of Applied Earth Observation and Geoinformation 78, 77–85.
Improving the detection of wildfire disturbances in space and time based on indicators extracted from MODIS data: a case study in northern Portugal.Crossref | GoogleScholarGoogle Scholar |

Mollicone D, Eva HD, Achard F (2006) Human role in Russian wildfires. Nature 440, 436–437.
Human role in Russian wildfires.Crossref | GoogleScholarGoogle Scholar | 16554800PubMed |

Morvan D (2007) A numerical study of flame geometry and potential for crown fire initiation for a wildfire propagating through shrub fuel. International Journal of Wildland Fire 16, 511–518.
A numerical study of flame geometry and potential for crown fire initiation for a wildfire propagating through shrub fuel.Crossref | GoogleScholarGoogle Scholar |

Mouillot F, Ratte JP, Joffre R, Moreno JM, Rambal S (2003) Some determinants of the spatiotemporal fire cycle in a Mediterranean landscape (Corsica, France). Landscape Ecology 18, 665–674.
Some determinants of the spatiotemporal fire cycle in a Mediterranean landscape (Corsica, France).Crossref | GoogleScholarGoogle Scholar |

Mundo IA, Wiegand T, Kanagaraj R, Kitzberger T (2013) Environmental drivers and spatial dependency in wildfire ignition patterns of north-western Patagonia. Journal of Environmental Management 123, 77–87.
Environmental drivers and spatial dependency in wildfire ignition patterns of north-western Patagonia.Crossref | GoogleScholarGoogle Scholar | 23583868PubMed |

Murthy KK, Sinha SK, Kaul R, Vaidyanathan S (2019) A fine-scale state-space model to understand drivers of forest fires in the Himalayan foothills. Forest Ecology and Management 432, 902–911.
A fine-scale state-space model to understand drivers of forest fires in the Himalayan foothills.Crossref | GoogleScholarGoogle Scholar |

Narayanaraj G, Wimberly MC (2012) Influences of forest roads on the spatial patterns of human-and lightning-caused wildfire ignitions. Applied Geography 32, 878–888.
Influences of forest roads on the spatial patterns of human-and lightning-caused wildfire ignitions.Crossref | GoogleScholarGoogle Scholar |

Oliveira S, Oehler F, San-Miguel-Ayanz J, Camia A, Pereira JM (2012) Modeling spatial patterns of fire occurrence in Mediterranean Europe using Multiple Regression and Random Forest. Forest Ecology and Management 275, 117–129.
Modeling spatial patterns of fire occurrence in Mediterranean Europe using Multiple Regression and Random Forest.Crossref | GoogleScholarGoogle Scholar |

Oliveira S, Zêzer JL, Queirós M, Pereira JM (2017) Assessing the social context of wildfire-affected areas. The case of mainland Portugal. Applied Geography 88, 104–117.
Assessing the social context of wildfire-affected areas. The case of mainland Portugal.Crossref | GoogleScholarGoogle Scholar |

Ollinger SV (2011) Sources of variability in canopy reflectance and the convergent properties of plants. New Phytologist 189, 375–394.
Sources of variability in canopy reflectance and the convergent properties of plants.Crossref | GoogleScholarGoogle Scholar | 21083563PubMed |

Pausas JG, Paula S (2012) Fuel shapes the fire–climate relationship: evidence from Mediterranean ecosystems. Global Ecology and Biogeography 21, 1074–1082.
Fuel shapes the fire–climate relationship: evidence from Mediterranean ecosystems.Crossref | GoogleScholarGoogle Scholar |

Pesola L, Cheng X, Sanesi G, Colangelo G, Elia M, Lafortezza R (2017) Linking above-ground biomass and biodiversity to stand development in urban forest areas: a case study in northern Italy. Landscape and Urban Planning 157, 90–97.
Linking above-ground biomass and biodiversity to stand development in urban forest areas: a case study in northern Italy.Crossref | GoogleScholarGoogle Scholar |

Plucinski M (2011) A review of wildfire occurrence research. Bushfire Cooperative Research Centre. (Melbourne, Vic., Australia).

Prestemon JP, Butry DT (2005) Time to burn: modelling wildland arson as an autoregressive crime function. American Journal of Agricultural Economics 87, 756–770.
Time to burn: modelling wildland arson as an autoregressive crime function.Crossref | GoogleScholarGoogle Scholar |

Regos A, Ninyerola M, Moré G, Pons X (2015) Linking land cover dynamics with driving forces in mountain landscape of the north-western Iberian Peninsula. International Journal of Applied Earth Observation and Geoinformation 38, 1–14.
Linking land cover dynamics with driving forces in mountain landscape of the north-western Iberian Peninsula.Crossref | GoogleScholarGoogle Scholar |

Reilly MJ, Elia M, Spies TA, Gregory MJ, Sanesi G, Lafortezza R (2018) Cumulative effects of wildfires on forest dynamics in the Eastern Cascade Mountains, USA. Ecological Applications 28, 291–308.
Cumulative effects of wildfires on forest dynamics in the Eastern Cascade Mountains, USA.Crossref | GoogleScholarGoogle Scholar | 29058765PubMed |

Ricotta C, Di Vito S (2014) Modeling the landscape drivers of fire recurrence in Sardinia (Italy). Environmental Management 53, 1077–1084.
Modeling the landscape drivers of fire recurrence in Sardinia (Italy).Crossref | GoogleScholarGoogle Scholar | 24705728PubMed |

Rodrigues M, de la Riva J, Fotheringham S (2014) Modeling the spatial variation of the explanatory factors of human-caused wildfires in Spain using geographically weighted logistic regression. Applied Geography 48, 52–63.
Modeling the spatial variation of the explanatory factors of human-caused wildfires in Spain using geographically weighted logistic regression.Crossref | GoogleScholarGoogle Scholar |

Romero-Calcerrada R, Novillo CJ, Millington JDA, Gomez-Jimenez I (2008) GIS analysis of spatial patterns of human-caused wildfire ignition risk in the SW of Madrid (central Spain). Landscape Ecology 23, 341–354.
GIS analysis of spatial patterns of human-caused wildfire ignition risk in the SW of Madrid (central Spain).Crossref | GoogleScholarGoogle Scholar |

Sağlam B, Bilgili E, Küçük Ö, Durmaz BD (2008) Fire behavior in Mediterranean shrub species (maquis). African Journal of Biotechnology 7, 4122–4129.

Salis M, Ager AA, Finney MA, Arca B, Spano D (2014) Analyzing spatiotemporal changes in wildfire regime and exposure across a Mediterranean fire-prone area. Natural Hazards 71, 1389–1418.
Analyzing spatiotemporal changes in wildfire regime and exposure across a Mediterranean fire-prone area.Crossref | GoogleScholarGoogle Scholar |

San-Miguel-Ayanz J, Durrant T, Boca R, Libertà G, Branco A, de Rigo D, Ferrari D, Maianti P, Vivancos TA, Costa H, Lana F, Löffler P, Nuijten D, Ahlgren AC, Leray T (2018) Forest fires in Europe, Middle East and North Africa 2017. Joint Research Centre Technical Report. Publications Office of the European Union. (Luxembourg)10.2760/663443

Satir O, Berberoglu S, Donmez C (2016) Mapping regional forest fire probability using artificial neural network model in a Mediterranean forest ecosystem. Geomatics, Natural Hazards and Risk 7, 1645–1658.
Mapping regional forest fire probability using artificial neural network model in a Mediterranean forest ecosystem.Crossref | GoogleScholarGoogle Scholar |

Spano G, Caffò AO, Lopez A, Mallia L, Gormley M, Innamorati M, Bosco A (2019) Validating driver behavior and attitude measure for older Italian drivers and investigating their link to rare collision events. Frontiers in Psychology 10, 368
Validating driver behavior and attitude measure for older Italian drivers and investigating their link to rare collision events.Crossref | GoogleScholarGoogle Scholar | 30846960PubMed |

Syphard AD, Radeloff VC, Keuler NS, Taylor RS, Hawbaker TJ, Stewart SI, Clayton MK (2008) Predicting spatial patterns of fire on a southern California landscape. International Journal of Wildland Fire 17, 602–613.
Predicting spatial patterns of fire on a southern California landscape.Crossref | GoogleScholarGoogle Scholar |

Tessler N, Sapir Y, Wittenberg L, Greenbaum N (2016) Recovery of Mediterranean vegetation after recurrent forest fires: insight from the 2010 forest fire on Mount Carmel, Israel. Land Degradation and Development 27, 1424–1431.
Recovery of Mediterranean vegetation after recurrent forest fires: insight from the 2010 forest fire on Mount Carmel, Israel.Crossref | GoogleScholarGoogle Scholar |

Vasilakos C, Kalabokidis K, Hatzopoulos J, Kallos G, Matsinos J (2007) Integrating new methods and tools in fire danger rating. International Journal of Wildland Fire 16, 306–316.
Integrating new methods and tools in fire danger rating.Crossref | GoogleScholarGoogle Scholar |

Viegas DX, Almeida MF, Ribeiro LM, Raposo J, Viegas MT, Oliveira R, Alves D, Pinto C, Jorge H, Rodrigues A, Lucas D, Lopes S, Silva LF (2017) ‘O complexo de incêndios de Pedrógão Grande e concelhos limítrofes, iniciado a 17 de junho de 2017.’ (Centro de Estudos sobre Incêndios Florestais da Faculdade de Ciências e Tecnologia da Universidade de Coimbra) Coimbra

Vilà-Cabrera A, Saura-Mas S, Lloret F (2008) Effects of fire frequency on species composition in a Mediterranean shrubland. Ecoscience 15, 519–528.
Effects of fire frequency on species composition in a Mediterranean shrubland.Crossref | GoogleScholarGoogle Scholar |

Vilar L, Garrido J, Echavarría P, Martínez-Vega J, Martín MP (2019) Comparative analysis of CORINE and climate change initiative land cover maps in Europe: implications for wildfire occurrence estimation at regional and local scales. International Journal of Applied Earth Observation and Geoinformation 78, 102–117.
Comparative analysis of CORINE and climate change initiative land cover maps in Europe: implications for wildfire occurrence estimation at regional and local scales.Crossref | GoogleScholarGoogle Scholar |

Wenger SJ, Freeman MC (2008) Estimating species occurrence, abundance, and detection probability using zero‐inflated distributions. Ecology 89, 2953–2959.
Estimating species occurrence, abundance, and detection probability using zero‐inflated distributions.Crossref | GoogleScholarGoogle Scholar | 18959332PubMed |

Wickham H, Hofmann H (2011) Product plots. IEEE Transactions on Visualization and Computer Graphics 17, 2223–2230.
Product plots.Crossref | GoogleScholarGoogle Scholar | 22034341PubMed |

Wu Z, He HS, Yang J, Liu Z, Liang Y (2014) Relative effects of climatic and local factors on fire occurrence in boreal forest landscapes of north-eastern China. The Science of the Total Environment 493, 472–480.
Relative effects of climatic and local factors on fire occurrence in boreal forest landscapes of north-eastern China.Crossref | GoogleScholarGoogle Scholar | 24960228PubMed |

Yang J, He HS, Shifley SR, Gustafson EJ (2007) Spatial patterns of modern period human-caused fire occurrence in the Missouri Ozark Highlands. Forest Science 53, 1–15.

Zhang Y, Lim S, Sharples JJ (2016) Modelling spatial patterns of wildfire occurrence in south-eastern Australia. Geomatics, Natural Hazards and Risk 7, 1800–1815.
Modelling spatial patterns of wildfire occurrence in south-eastern Australia.Crossref | GoogleScholarGoogle Scholar |