“Catastrophic” was the first word Butler University Biological Sciences Professor Carmen Salsbury could attach to the ongoing Australian bushfire devastation.

More than 1 billion animals have perished, along with 29 humans in the estimated 100 blazes that have ignited since September, burning 46 million acres as of mid-January. The ecology of Australia will never be the same, at least not for a very long time, says Salsbury, who has researched forest mammals and urban wildlife for decades.

Professor Carmen Salsbury says the Australian landscape will be forever changed.

“The unfortunate thing is that the catastrophe has just started. Once the fires are out, it’s not over,” Salsbury says. “There is some evidence that we may lose some species altogether to extinction because of this tragedy.”

The researcher says climate change is the biggest culprit behind the historic loss of environment. The combination of extreme heat, wind, and drought has been ramping up for years in Australia, and the conditions have allowed for continent-wide blazes.

While the plants will grow back and animals will return in time, the ecology in some areas will take many years to fully recover. Animals like the endangered glossy black cockatoo and the dunnart, a mouse-sized marsupial, are now thought to be extinct, according to Salsbury. New predators, such as feral cats, may move in to rattle the food chain as shelter and food becomes scarce for surviving prey animals. The “connectivity” of the ecology has been severed.

“Species rely on one-another in lots of different ways—for food, shelter, etc.,” Salsbury says. “You pull one of those things out, and it ripples through the ecosystem and has major impacts on other species.”

The lack of vegetation will enhance erosion and the chance of mudslides. The sediment could invade watersheds, affecting drinking water as well as aquatic life.

“Even after things start to green up,” Salsbury says, “we’re still going to see some serious impact on many of the plants and animals, all of those things at the base of a functioning ecosystem.”

The different roles of wildfires

Western parts of the United States have experienced similar wildfires. In October, 10 wildfires engulfed 113,931 acres of California forest in flames, killing three, and destroying 517 homes and other buildings.

The 2019 events and Australia are tragic byproducts of climate change, but smaller wildfires have their place in ecology, Salsbury says.

“There are a lot of plant communities that have actually evolved to be fire tolerant. In fact, there are some plants that require fire for their seeds to germinate,” she adds. “A lot of plants are meant to burn and some of them have terpene compounds in their wood to promote fire.”

The fires happen naturally from lightning strikes and manmade controlled fires, and serve to replenish small ecosystems. Controlled burns eliminate fuel that would cause larger, widespread burns.

“The point is that intermediate levels of disturbance are actually good things for biodiversity in ecosystems,” Salsbury says. “The problem is when you get really wide-scale, broad, and frequent types of disturbances. And that’s what we’re seeing now in our part of the world (California) but especially in Australia.”

Biology Associate Professor Andrew Stoehr and Biological Science Professor Travis Ryan will lead a March controlled burn of the Butler Prairie near campus. It will be the first burn of the three-acre natural prairie space in seven years. Weather conditions will play a factor when the burn takes place but Stoehr concurs that control burns are advantageous in rejuvenating some ecosystems.

“Ideally, it would be every spring,” Stoehr says. “One of the main effects is that it cuts down on the gradual invasion of trees. Gradually, prairies convert from grassy species and wildflowers over to wooded area. Burns also kill other kinds of invasive or undesirable species. By gleaning off all of that vegetation, it exposes the soil to more sunlight in springtime. The soil will warm up earlier, which tends to benefit the desired prairie plants more than the undesirable species. The seeds are already in the soil and will start to germinate after the clearing.”

But not every ecosystem benefits from controlled burns and many of those have been affected in Australia, like tropical forest. The fires are too widespread to cause anything but negative impact on the continent.

How to help

As of mid-January, more than $200 million has been raised to help fight the fires and to aid injured wildlife. Salsbury says donating to the causes are a positive step, but so is reducing your carbon footprint.

“These fires,” Salsbury says, “are a textbook example of what happens when you have a lot of factors that come together and make the perfect storm and the No. 1 factor, of course, that’s really compounding the problem is climate change.”

Minimizing carbon emissions and other greenhouse gasses and other practices in fighting climate change can reduce the risk of such widespread fires occurring again, Salsbury says.

“If there is anything good that can come from this, it is that it could motivate people into action,” Salsbury adds. “Unfortunately these type of events may help us direct our focus a little bit. Maybe it will highlight the desperate need. It’s past due.”

Media Contact:
Katie Grieze
News Content Manager
kgrieze@butler.edu
260-307-3403

Community Partnerships

Through collaboration and strong partnerships, Butler Beyond will unleash the potential of our brilliant faculty and students on the complex issues facing our community. Support for this pillar will expand Butler’s reach and roots in the Indianapolis community and beyond by cultivating deeper integration with local organizations and businesses, increasing experiential learning opportunities for students, nurturing new ventures, and more. Learn more, make a gift, and read other stories like this one at beyond.butler.edu.