METEOROLOGICAL CONDITIONS DURING RECORD WILDFIRES IN THE PARANÁ RIVER DELTA: ANOMALIES AND APPLICATION OF A CLUSTERING MODEL

METEOROLOGICAL CONDITIONS DURING RECORD WILDFIRES IN THE PARANÁ RIVER DELTA: ANOMALIES AND APPLICATION OF A CLUSTERING MODEL

About 95 % of wildfires are caused by human activities. The burning of grasslands as a method of sweeping for livestock and agricultural exploitation has been implemented for over two centuries on the American continent. Every winter, fires are used to promote the regrowth of forage species in the P...

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Main Authors: A. Ipiña, T. Rodriguez, A. Orlandini, F. Gómez-Fava, G. López-Padilla, M. Arellano-Vazquez
Format: Article
Language:Spanish
Published: CEILAP-UNIDEF-CONICET-CITEDEF 2025-03-01
Series:Anales (Asociación Física Argentina)
Subjects:
wildfires
clustering model
anomalies
wetlands
paraná river delta
Online Access:https://anales.fisica.org.ar/index.php/analesafa/article/view/2438/3045
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Summary:About 95 % of wildfires are caused by human activities. The burning of grasslands as a method of sweeping for livestock and agricultural exploitation has been implemented for over two centuries on the American continent. Every winter, fires are used to promote the regrowth of forage species in the Paraná River Delta. Unusual weather conditions and climate change have intensified the global impact of wildfires. In 2020, the accumulation and spread of unprecedented wildfire emissions affected the inhabitants of the Rosario Metropolitan Area (AMR), Argentina. This work analyzed meteorological conditions, the number of active fires detected by the VIIRS satellite instrument, and the concentration of fine particulate matter (PM2.5) measured in the AMR. Anomalies of precipitation, relative humidity, and temperature recorded in situ between June and August in the period 2010- 2020 were calculated. The results show that for the year 2020, ambient humidity and temperature had an average decrease of 10 % and 3 %, respectively, while accumulated precipitation had a reduction of about 70 % with respect to previous years.The clustering model showed that the highest median of Number of active fires (NI) coincides with the lowest accumulated precipitation and low relative humidity, as well as prevailing winds from the northwest. Wind analysis reveals that currents from the northwest direction promoted larger surface fire impacts in the Paraná River Delta, and northeast winds increased PM2.5 levels in the AMR. These findings underline the importance of considering meteorological conditions in assessing environmental risks and in formulating mitigation strategies against air pollution and forest fires.
ISSN:1850-1168

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