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Landscape drivers of recent fire activity (2001-2017) in south-central Chile

In recent decades large fires have affected communities throughout central and southern Chile with great social and ecological consequences. Despite this high fire activity, the controls and drivers and the spatiotemporal pattern of fires are not well understood. To identify the large-scale trends a...

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Autores principales: McWethy, David B., Pauchard, Aníbal, García, Rafael A., Holz, Andrés, González, Mauro E., Veblen, Thomas T., Stahl, Julian, Currey, Bryce
Formato: Online Artículo Texto
Lenguaje:English
Publicado: Public Library of Science 2018
Materias:
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC6104937/
https://www.ncbi.nlm.nih.gov/pubmed/30133449
http://dx.doi.org/10.1371/journal.pone.0201195
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author McWethy, David B.
Pauchard, Aníbal
García, Rafael A.
Holz, Andrés
González, Mauro E.
Veblen, Thomas T.
Stahl, Julian
Currey, Bryce
author_facet McWethy, David B.
Pauchard, Aníbal
García, Rafael A.
Holz, Andrés
González, Mauro E.
Veblen, Thomas T.
Stahl, Julian
Currey, Bryce
author_sort McWethy, David B.
collection PubMed
description In recent decades large fires have affected communities throughout central and southern Chile with great social and ecological consequences. Despite this high fire activity, the controls and drivers and the spatiotemporal pattern of fires are not well understood. To identify the large-scale trends and drivers of recent fire activity across six regions in south-central Chile (~32–40° S Latitude) we evaluated MODIS satellite-derived fire detections and compared this data with Chilean Forest Service records for the period 2001–2017. MODIS burned area estimates provide a spatially and temporally comprehensive record of fire activity across an important bioclimatic transition zone between dry Mediterranean shrublands/sclerophyllous forests and wetter deciduous-broadleaf evergreen forests. Results suggest fire activity was highly variable in any given year, with no statistically significant trend in the number of fires or mean annual area burned. Evaluation of the variables associated with spatiotemporal patterns of fire for the 2001–2017 period indicate vegetation type, biophysical conditions (e.g., elevation, slope), mean annual and seasonal climatic conditions (e.g., precipitation) and mean population density have the greatest influence on the probability of fire occurrence and burned area for any given year. Both the number of fires and annual area burned were greatest in warmer, biomass-rich lowland Bío-Bío and Araucanía regions. Resource selection analyses indicate fire ‘preferentially’ occurs in exotic plantation forests, mixed native-exotic forests, native sclerophyll forests, pasture lands and matorral, vegetation types that all provide abundant, flammable and connected biomass for burning. Structurally and compositionally homogenous exotic plantation forests may promote fire spread greater than native deciduous-Nothofagaceae forests which were once widespread in the southern parts of the study area. In the future, the coincidence of warmer and drier conditions in landscapes dominated by flammable and fuel-rich forest plantations and mixed native-exotic and sclerophyll forests are likely to further promote large fires in south-central Chile.
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spelling pubmed-61049372018-09-15 Landscape drivers of recent fire activity (2001-2017) in south-central Chile McWethy, David B. Pauchard, Aníbal García, Rafael A. Holz, Andrés González, Mauro E. Veblen, Thomas T. Stahl, Julian Currey, Bryce PLoS One Research Article In recent decades large fires have affected communities throughout central and southern Chile with great social and ecological consequences. Despite this high fire activity, the controls and drivers and the spatiotemporal pattern of fires are not well understood. To identify the large-scale trends and drivers of recent fire activity across six regions in south-central Chile (~32–40° S Latitude) we evaluated MODIS satellite-derived fire detections and compared this data with Chilean Forest Service records for the period 2001–2017. MODIS burned area estimates provide a spatially and temporally comprehensive record of fire activity across an important bioclimatic transition zone between dry Mediterranean shrublands/sclerophyllous forests and wetter deciduous-broadleaf evergreen forests. Results suggest fire activity was highly variable in any given year, with no statistically significant trend in the number of fires or mean annual area burned. Evaluation of the variables associated with spatiotemporal patterns of fire for the 2001–2017 period indicate vegetation type, biophysical conditions (e.g., elevation, slope), mean annual and seasonal climatic conditions (e.g., precipitation) and mean population density have the greatest influence on the probability of fire occurrence and burned area for any given year. Both the number of fires and annual area burned were greatest in warmer, biomass-rich lowland Bío-Bío and Araucanía regions. Resource selection analyses indicate fire ‘preferentially’ occurs in exotic plantation forests, mixed native-exotic forests, native sclerophyll forests, pasture lands and matorral, vegetation types that all provide abundant, flammable and connected biomass for burning. Structurally and compositionally homogenous exotic plantation forests may promote fire spread greater than native deciduous-Nothofagaceae forests which were once widespread in the southern parts of the study area. In the future, the coincidence of warmer and drier conditions in landscapes dominated by flammable and fuel-rich forest plantations and mixed native-exotic and sclerophyll forests are likely to further promote large fires in south-central Chile. Public Library of Science 2018-08-22 /pmc/articles/PMC6104937/ /pubmed/30133449 http://dx.doi.org/10.1371/journal.pone.0201195 Text en © 2018 McWethy et al http://creativecommons.org/licenses/by/4.0/ This is an open access article distributed under the terms of the Creative Commons Attribution License (http://creativecommons.org/licenses/by/4.0/) , which permits unrestricted use, distribution, and reproduction in any medium, provided the original author and source are credited.
spellingShingle Research Article
McWethy, David B.
Pauchard, Aníbal
García, Rafael A.
Holz, Andrés
González, Mauro E.
Veblen, Thomas T.
Stahl, Julian
Currey, Bryce
Landscape drivers of recent fire activity (2001-2017) in south-central Chile
title Landscape drivers of recent fire activity (2001-2017) in south-central Chile
title_full Landscape drivers of recent fire activity (2001-2017) in south-central Chile
title_fullStr Landscape drivers of recent fire activity (2001-2017) in south-central Chile
title_full_unstemmed Landscape drivers of recent fire activity (2001-2017) in south-central Chile
title_short Landscape drivers of recent fire activity (2001-2017) in south-central Chile
title_sort landscape drivers of recent fire activity (2001-2017) in south-central chile
topic Research Article
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC6104937/
https://www.ncbi.nlm.nih.gov/pubmed/30133449
http://dx.doi.org/10.1371/journal.pone.0201195
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