The Connection Between Climate Change and Wildfires: Insights from Chile

In Environmental Issues
February 05, 2024

The Impact of Climate Change on Wildfires: A Closer Look at Chile’s Devastation

At least 122 lives have been lost in the deadly wildfires that swept through central Chile, prompting the nation’s president to declare two days of national mourning. This tragic event follows closely on the heels of Colombia declaring a state of emergency due to wildfires. Scientists emphasize the role of climate change in intensifying heatwaves and droughts in South America, both contributing factors to the alarming rise in wildfires by desiccating the vegetation that fuels these blazes.

Understanding the Crisis in Chile

The wildfires in Chile unfolded amidst an unprecedented heatwave that sent temperatures soaring to approximately 37 degrees Celsius (nearly 100 degrees Fahrenheit) in the capital city of Santiago. Elevated temperatures resulting from climate change lead to heightened moisture evaporation from wood, transforming it into highly flammable fuel. The consequence is faster and more intense fire outbreaks. A mere few degrees increase can tip the scales between a manageable fire season and a catastrophic one.

Edward Mitchard, a forests expert at the University of Edinburgh School of Geosciences, underscores the impact of climate change on global temperatures. He explains that as the world becomes hotter, plants transpire more water, and soils become drier, creating favorable conditions for wildfires. A brief spell of extremely dry and hot weather is all it takes for leaves to become tinder-dry, creating highly combustible fuel for fires. Mitchard notes, “Drier soil means fires are hotter and last longer.”

According to a Nature study, fire seasons have seen an average extension of 18.7% due to climate change, providing an extended timeframe for the initiation of devastating fires.

Global Weather Cycles: A Contributing Factor

Interrupted global rain cycles leading to increased droughts have left entire regions exceptionally dry and susceptible to ignition. Climate change has exacerbated the frequency of droughts, especially evident in South America, where this year witnessed the most extreme drought ever recorded in the Amazon basin. Mitchard highlights the interconnectedness, stating, “Droughts in the Amazon basin lead to reduced rainfall in the southern regions of South America.”

In Chile’s case, unusually heavy rains last year contributed to the proliferation of brush, creating ideal kindling for wildfires. The El NiƱo weather pattern, characterized by periodic warming of surface waters in the Pacific, has intensified temperatures and drought in South America, making conditions ripe for wildfires.

Escalating Severity and Global Impact

Satellite data from the World Resources Institute reveals a concerning trend: wildfires now consume approximately 11,500 square miles of forest annually, double the extent of two decades ago. The Intergovernmental Panel on Climate Change underlines that human-induced global warming has increased the frequency of extreme heatwaves by fivefold globally. Consequently, fire seasons are characterized by drier conditions and elevated temperatures, creating a perfect storm for the rapid spread of forest fires.

It is crucial to recognize the intricate relationship between climate change and the escalating severity of wildfires. As nations grapple with the immediate aftermath of devastating blazes, the urgency to address climate change becomes even more apparent. The colossal release of carbon by these wildfires further exacerbates global warming, emphasizing the interconnectedness of environmental challenges that demand comprehensive and sustainable solutions.