FSU Scientists to Analyze Impacts of Maui Wildfires


Impacts of Maui Wildfires

Impacts of Maui Wildfires

Scientists from Florida State University’s (FSU) National High Magnetic Field Laboratory (MagLab) in Tallahassee will be analyzing soil and water samples from areas impacted by the Maui wildfires to determine how fire affected the chemistry of the soil and water as well as affects on the ecosystem, FSU announced recently, in order to better understand the long term impacts of Maui Wildfires.

On August 8, wildfires began raging through Maui, killing nearly 100 people, destroying more than 2,000 acres and 2,000 homes, largely in the area of Lahaina on the west coast of the island.

According to FSU, scientists recently received water samples to begin analysis. Researchers are working with Hawaii authorities to obtain soil samples.

What sparked the flames, how long and hot the fire burned, what it burned and what was used to put it out can all impact water quality. Burned organic matter is among the most complex mixtures on the planet.

“If you want to see how any one of these parameters is going to impact the environment you have to look at it at the molecular level,” said Amy McKenna, a chemistry researcher in the MagLab’s Ion Cyclotron Resonance facility.

The lab’s 21 Tesla Ion Cyclotron Resonance system will be used for analyzing complex mixtures. McKenna describes it as a “molecular microscope,” allowing scientists to sort out tens of thousands of unique molecules.

“These are the molecules that are here, you can understand how it will impact the agriculture, the landscape and the environment,” after a fire, said McKenna. “Are the agricultural yields for the years to come going to be impacted by this and by how much? Can we prevent this fire from becoming an environmental disaster?”

When a wildfire burns longer and at a higher temperature, the extreme heat can form toxic compounds. Burned buildings can also leach dangerous chemicals into the environment, and retardants used to fight the flames can pollute the soil and water.

“The hotter and more severe a fire is, the longer it could take for the soil to return to its pre-burn state,” McKenna said.

Previous MagLab research has helped scientists better understand fire impacts. McKenna has analyzed soil from wildfires in the Rocky Mountains in Colorado, among other regions where burning is significant, such as the African Congo. There, fires caused by lightning strikes are a part of the natural cycle, and can replenish the soil, clear underbrush, and generate new growth. McKenna says research can help pinpoint the factors that differentiate a healthy fire from a wildfire that may cause long term damage.

On the island of Maui, where the landscape is unique and fires are not as common, the impact could be considerably different than in the western US.

“You have different soil, volcanic soil in Maui, so what does that mean for the fire impact and for how the ecosystem recovers?” McKenna asks. “Just because it’s a fire doesn’t mean it’s the same as a fire somewhere else.”

Characterizing the Maui water now will allow scientists to study its rebound and recovery.

“We’re opening up the world at a molecular level to understand how these fires are going to impact us long term.” McKenna said. ●


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