WASHINGTON: In a first, US climate scientists have quantified the extent to which greenhouse gasses from the world’s top fossil fuel companies have contributed to wildfires.
Their analysis, published Tuesday in Environmental Research Letters, found that carbon dioxide and methane emissions from the so-called “Big 88” firms were responsible for more than a third of the area scorched by forest blazes in western North America over the past 40 years.
First author Kristina Dahl, of the Union of Concerned Scientists (UCS), told AFP wildfires in the western United States and southwestern Canada have been worsening for decades: they are burning more intensely, over longer seasons, covering larger areas and reaching higher elevations.
To date, the cost of rebuilding and increasing resilience has largely been footed by the general public, “so we wanted to better understand the role that fossil fuel industry emissions have had in altering the wildfire landscape,” she said.
“We really wanted to put a spotlight on their role in that, so that they can be held accountable for their fair share of the cost.”
‘Atmospheric thirst’
Using climate modeling, the team determined that emissions from the Big 88 — which includes ExxonMobil, BP, Chevron and Shell — were responsible for increasing global average temperatures by 0.9 degrees Fahrenheit (0.5 degrees Celsius) since the start of the 20th century, or roughly half of the observed warming.
For the purposes of this study, the authors included all emissions across the life cycle of fossil fuels — from extraction and flaring operations to refinement and use inside a vehicle, for example.
The companies’ contribution to planet-wide warming was then used to calculate how much they added to a rise in “vapour pressure deficit” or VPD — a measure of air’s ability to draw water out of plants and soils — within the western North America region.
Because warmer air can hold more water vapour, rising temperatures caused by climate change are causing this measure of atmospheric thirst to increase too.
A higher VPD makes an area more fire-prone, and recent research has established a clear exponential relationship between increases in this aridity indicator and the area burned by forest fires.
Combining all these elements, Dahl’s research team found that emissions from the Big 88 were responsible for 37 percent of the total area razed by forest fires in the western United States and southwestern Canada between 1986, when reliable fire area data became available, and 2021.
That is 19.8 million acres (8 million hectares) — an area roughly the size of the Czech Republic.
The study also found that emissions from the same companies were responsible for nearly half of the observed increase in VPD since 1901.
Other factors that increased fire danger conditions over the last century include aggressive fire suppression that led to large buildups of vegetation that normally would have burned in smaller regularly occurring fires, often managed by Indigenous communities.
Accidental ignitions have also increased as humans encroached into fire-prone areas.
Growing area of research
The research builds on an accumulating body of climate “attribution” studies, which have calculated how much greenhouse gas emissions from burning fossil fuels have contributed to global temperature increases, sea level rise, and ocean acidification.
Such work has paved the way for impacted communities to seek redress through lawsuits, said Dahl, and helps shift the conversation about tackling climate change away from individual responsibility.
“Lowering our individual carbon footprints is a narrative that has been very heavily pushed by the fossil fuel industry,” she said.
“While individuals need to make the best choices we can, we also have to acknowledge that we’re living in a reality that’s been shaped by these companies and our choices have been constrained because of them.”
The UCS is pushing for government investigations into past and ongoing disinformation campaigns by industry aimed at denying climate science that was predicted by the companies’ own internal modeling.