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We're building it up to burn it down: fire occurrence and fire-related climatic patterns in Brazilian biomes

Authors: Diele Viegas LMSales LHipólito JAmorim CJohnson de Pereira EFerreira PFolta CFerrante LFearnside PMendes Malhado ACFrederico Duarte Rocha CM Vale M


Affiliations

1 Instituto de Biologia, Universidade Federal da Bahia, Salvador, Bahia, Brazil.
2 Fórum Clima Salvador, Salvador, Brazil.
3 Department of Biology, Faculty of Arts and Science, Concordia University, Montreal, Canada.
4 Instituto Nacional de Pesquisas da Amazônia, Manaus, Amazonas, Brazil.
5 Universidade Federal de Alagoas, Maceió, Alagoas, Brazil.
6 Instituto Federal do Maranhão, Bacabal, Maranhão, Brazil.
7 Research Center for Endogenous Resource Valorization, Portalegre, Portugal.
8 Department of Economic Sciences and Organizations, Portalegre Polytechnic Institute, Portalegre, Portugal.
9 Center for Advanced Studies in Management and Economics, Institute for Research and Advanced Training, Universidade de Evora, Evora, Portugal.
10 Department of Biology, University of Maryland at College Park, College Park, MD,

Description

Background: Terrestrial biomes in South America are likely to experience a persistent increase in environmental temperature, possibly combined with moisture reduction due to climate change. In addition, natural fire ignition sources, such as lightning, can become more frequent under climate change scenarios since favourable environmental conditions are likely to occur more often. In this sense, changes in the frequency and magnitude of natural fires can impose novel stressors on different ecosystems according to their adaptation to fires. By focusing on Brazilian biomes, we use an innovative combination of techniques to quantify fire persistence and occurrence patterns over time and evaluate climate risk by considering key fire-related climatic characteristics. Then, we tested four major hypotheses considering the overall characteristics of fire-dependent, fire-independent, and fire-sensitive biomes concerning (1) fire persistence over time; (2) the relationship between climate and fire occurrence; (3) future predictions of climate change and its potential impacts on fire occurrence; and (4) climate risk faced by biomes.

Methods: We performed a Detrended Fluctuation Analysis to test whether fires in Brazilian biomes are persistent over time. We considered four bioclimatic variables whose links to fire frequency and intensity are well-established to assess the relationship between climate and fire occurrence by confronting these climate predictors with a fire occurrence dataset through correlative models. To assess climate risk, we calculated the climate hazard, sensitivity, resilience, and vulnerability of Brazilian biomes, and then we multiplied the Biomes' vulnerability index by the hazards.

Results: Our results indicate a persistent behaviour of fires in all Brazilian biomes at almost the same rates, which could represent human-induced patterns of fire persistence. We also corroborated our second hypothesis by showing that most fire-dependent biomes presented high thermal suitability to fire, while the fire-independent biome presented intermediate suitability and fire-sensitive biomes are the least suitable for fire occurrence. The third hypothesis was partially corroborated since fire-dependent and independent biomes are likely to increase their thermal suitability to fire, while fire-sensitive biomes are likely to present stable-to-decreasing thermal suitability in the future. Finally, our fourth hypothesis was partially corroborated since most fire-dependent biomes presented low climate risk, while the fire-independent biome presented a high risk and the fire-sensitive biomes presented opposite trends. In summary, while the patterns of fire persistence and fire occurrence over time are more likely to be related to human-induced fires, key drivers of burned areas are likely to be intensified across Brazilian biomes in the future, potentially increasing the magnitude of the fires and harming the biomes' integrity.

Keywords: Climate hazardClimate riskFire persistenceResilienceSensitivity indexVulnerabilityWildfires


Links

PubMed: pubmed.ncbi.nlm.nih.gov/36312759/

DOI: 10.7717/peerj.14276