Ana Catarina Sequeira scite author profile

Fire is one of the main disturbance factors shaping the landscape, and landscape is a key driver of fire behavior. Considering the role played by land use and land cover (LULC) changes as the main driver of landscape dynamics, the aim of this study was to calculate and analyze (i) the real impact of fire on LULC changes and (ii) how these LULC changes were influencing the fire regime. We used methods of historical geography and socio-spatial systemic analysis for reconstructing and assessing the LULC change and fire history in six case studies in the Central Mountain System (Spain) from archival documentary sources and historical cartography. The main result is an accurate dataset of fire records from 1497 to 2013 and a set of LULC maps for three time points (1890s-1930s, 1956-1957, and the 2000s). We have shown the nonlinear evolution of the fire regime and the importance of the local scale when assessing the interaction of landscape dynamics and fire regime variation. Our findings suggest that LULC trends have been the main influencing factor of fire regime variation in Central Spain since the mid-19th century.

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Fire-smart solutions for sustainable wildfire risk prevention: Bottom-up initiatives meet top-down policies under EU green deal

Ascoli

Oggioni

Barbati

et al. 2023

International Journal of Disaster Risk Reduction

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Landscape-based fire scenarios and fire types in the Ayllón massif (Central Mountain Range, Spain), 19th and 20th centuries

Sequeira

Molina

Rego

2020

CIG

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Wildfires have been a major landscape disturbance factor throughout history in inland mountain areas of Spain. This paper aims to understand the interaction of fire regimes and landscape dynamics during the last two centuries within a socio-spatial context. The study area selected for this historical and spatial analysis is the Ayllón massif, in the Central Mountain Range. The theoretical background used to identify the driving forces of fire regime changes over the 19th and 20th centuries in this mountain area includes landscape-based fire scenarios and fire-type concepts. Both concepts have been addressed in recent studies from a spatial planning and fire management approach in an attempt to understand current fire landscapes and wildfire risk. However, this is the first time that these concepts have been applied to show that both spatial and temporal scales are crucial for an understanding of the current wildfire panorama, and that fire history related to landscape dynamics is fundamental in socio-spatial differences in fire regimes.Four variables (fire history, land use, population and settlement system, and forest management) were assessed to define historical landscape-based fire scenarios, and three fire feature variables (fire extent, fire cause, and spatial distribution pattern) were considered to define historical fire-types. We found that the non-linear evolution of fire regimes during the 19th and 20th centuries was determined by fire-type changes according to landscape dynamics. Moreover, population and forest management have been the main driving forces of fire regime tipping points or pyrotransitions. This study validates the hypothesis that fire regime changes are the result of the interaction of fire history and landscape dynamics.

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Bulk Density of Shrub Types and Tree Crowns to Use with Forest Inventories in the Iberian Peninsula

Nunes

Pasalodos-Tato

Alberdi

et al. 2022

Forests

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Bulk density for shrubs and tree crowns is an important variable, useful for many purposes, namely estimations for biomass and carbon sequestration and potential fire behavior prediction. In the latter case, bulk density is required to predict the rate of spread and intensity of crown fires. However, bulk density information is scarce. The estimation of bulk density is crucial to help choosing proper pyrosilviculture options to decrease fire susceptibility. Due to the similar environmental conditions and fuel characteristics in Portugal and Spain, we modelled bulk density for the most common woody species in all the Iberian Peninsula. We used 10 different shrub type formations and a set of tree species or groups common to both countries. Equations for bulk density, in both forest canopy and understory layers, were fitted as a function of biometric variables commonly used in forest inventories for the selected species. Standardized estimates of bulk density can be associated with data from the National Forest Inventories from Portugal and Spain, to estimate biomass of the forest ecosystems and to evaluate potential fire behavior involving tree canopies and shrubs.

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Historical fire records at the two ends of Iberian Central Mountain System: Estrela massif and Ayllón massif

Sequeira

Molina

Rego³

2019

Ingeo

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La Península Ibérica cuenta con una larga historia de incendios forestales. Es el caso del Sistema Central, desde la Sierra de Estrela en Portugal a la Sierra de Ayllón en España, aunque las causas humanas y el régimen de incendios difieren en función del contexto ambiental, político y socioeconómico en uno y otro extremo de la cordillera. La validación de la hipótesis de trabajo, sobre la relación histórica entre el riesgo de incendios y el uso del fuego en las actividades humanas, se ha llevado a partir de la reconstrucción del registro histórico de incendios forestales y de la gestión del territorio, y mediante el análisis multiescalar espacio-temporal de los incendios históricos y estadísticos. Como principal resultado se han identificado las causas estructurales de incendios en las sierras de Estrela y Ayllón. Además, se ha demostrado la influencia mayor de los aspectos humanos que de los físicos en la evolución del régimen de fuego. En conclusión, este trabajo evidencia la evolución discontinua de los incendios forestales a lo largo de los siglos XIX y XX debido a los factores contextuales humanos que influyen en el manejo tradicional del fuego a escala local.

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