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dc.contributor.authorCorning, Shelby
dc.contributor.authorKrasovskiy, Andrey
dc.contributor.authorKiparisov, Pavel
dc.contributor.authorSan Pedro, Johanna
dc.contributor.authorMaciel Viana, Camila
dc.contributor.authorKraxner, Florian
dc.date.accessioned2024-06-17T12:27:00Z
dc.date.available2024-06-17T12:27:00Z
dc.date.issued2024
dc.identifier.citationFire, 2024, Vol. 7, Nº. 4, 144es
dc.identifier.issn2571-6255es
dc.identifier.urihttps://uvadoc.uva.es/handle/10324/68122
dc.descriptionProducción Científicaes
dc.description.abstractExtreme forest fires have historically been a significant concern in Canada, the Russian Federation, the USA, and now pose an increasing threat in boreal Europe. This paper deals with application of the wildFire cLimate impacts and Adaptation Model (FLAM) in boreal forests. FLAM operates on a daily time step and utilizes mechanistic algorithms to quantify the impact of climate, human activities, and fuel availability on wildfire probabilities, frequencies, and burned areas. In our paper, we calibrate the model using historical remote sensing data and explore future projections of burned areas under different climate change scenarios. The study consists of the following steps: (i) analysis of the historical burned areas over 2001–2020; (ii) analysis of temperature and precipitation changes in the future projections as compared to the historical period; (iii) analysis of the future burned areas projected by FLAM and driven by climate change scenarios until the year 2100; (iv) simulation of adaptation options under the worst-case scenario. The modeling results show an increase in burned areas under all Representative Concentration Pathway (RCP) scenarios. Maintaining current temperatures (RCP 2.6) will still result in an increase in burned area (total and forest), but in the worst-case scenario (RCP 8.5), projected burned forest area will more than triple by 2100. Based on FLAM calibration, we identify hotspots for wildland fires in the boreal forest and suggest adaptation options such as increasing suppression efficiency at the hotspots. We model two scenarios of improved reaction times—stopping a fire within 4 days and within 24 h—which could reduce average burned forest areas by 48.6% and 79.2%, respectively, compared to projected burned areas without adaptation from 2021–2099.es
dc.format.mimetypeapplication/pdfes
dc.language.isoenges
dc.publisherMDPIes
dc.rights.accessRightsinfo:eu-repo/semantics/openAccesses
dc.rights.urihttp://creativecommons.org/licenses/by/4.0/*
dc.subjectForest fireses
dc.subjectBosques - Incendioses
dc.subjectWildfire riskes
dc.subjectWildfires - Prevention and controles
dc.subjectBosques - Incendios - Prevención y controles
dc.subjectClimate changees
dc.subjectClima - Cambioses
dc.subjectClimatologyes
dc.subjectForests and forestryes
dc.subjectBosques y Silvicultura - Gestiónes
dc.subjectTaiga ecologyes
dc.subjectEcología forestales
dc.subjectEnvironmental policyes
dc.titleAnticipating future risks of climate-driven wildfires in boreal forestses
dc.typeinfo:eu-repo/semantics/articlees
dc.rights.holder© 2024 The authorses
dc.identifier.doi10.3390/fire7040144es
dc.relation.publisherversionhttps://www.mdpi.com/2571-6255/7/4/144es
dc.identifier.publicationfirstpage144es
dc.identifier.publicationissue4es
dc.identifier.publicationtitleFirees
dc.identifier.publicationvolume7es
dc.peerreviewedSIes
dc.description.projectFondo para el Clima y la Energía, Programa Austriaco de Investigación Climática (ACRP) - (project C265157)es
dc.description.projectCooperación europea en ciencia y tecnología (COST), FireLinks - (grant CA18135)es
dc.identifier.essn2571-6255es
dc.rightsAtribución 4.0 Internacional*
dc.type.hasVersioninfo:eu-repo/semantics/publishedVersiones
dc.subject.unesco3106 Ciencia Forestales
dc.subject.unesco3106.08 Silviculturaes
dc.subject.unesco2502 Climatologíaes
dc.subject.unesco5902.08 Política del Medio Ambientees


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