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Greater Impact Than a Million Cars: Unrecognized Threat to Global Soil Carbon by a Widespread Invasive Species

“Wild pigs are just like tractors plowing through fields, turning over soil to find food,” Dr. O’Bryan said. Credit: The University of Queensland

By uprooting carbon trapped in soil, wild pigs are releasing around 4.9 million metric tonnes of carbon dioxide annually across the globe, the equivalent of 1.1 million cars.

An international team led by researchers from The University of Queensland and The University of Canterbury have used predictive population models, coupled with advanced mapping techniques to pinpoint the climate damage wild pigs are causing across five continents.

UQ’s Dr Christopher O’Bryan said the globe’s ever-expanding population of feral pigs could be a significant threat to the climate.

“Wild pigs are just like tractors plowing through fields, turning over soil to find food,” Dr. O’Bryan said.

“When soils are disturbed from humans plowing a field or, in this case, from wild animals uprooting, carbon is released into the atmosphere.

“Since soil contains nearly three times as much carbon than in the atmosphere, even a small fraction of carbon emitted from soil has the potential to accelerate climate change.

“Our models show a wide range of outcomes, but they indicate that wild pigs are most likely currently uprooting an area of around 36,000 to 124,000 square kilometres, in environments where they’re not native.

“This is an enormous amount of land, and this not only affects soil health and carbon emissions, but it also threatens biodiversity and food security that are crucial for sustainable development.”

Small Wild Pig

“Our models show a wide range of outcomes, but they indicate that wild pigs are most likely currently uprooting an area of around 36,000 to 124,000 square kilometers, in environments where they’re not native,” Dr O’Bryan said. Credit: The University of Queensland

Using existing models on wild pig numbers and locations, the team simulated 10,000 maps of potential global wild pig density.

They then modeled the amount of soil area disturbed from a long-term study of wild pig damage across a range of climatic conditions, vegetation types, and elevations spanning lowland grasslands to sub-alpine woodlands.

The researchers then simulated the global carbon emissions from wild pig soil damage based on previous research in the Americas, Europe, and China.

University of Canterbury PhD candidate Nicholas Patton said the research would have ramifications for curbing the effects of climate change into the future.

“Invasive species are a human-caused problem, so we need to acknowledge and take responsibility for their environmental and ecological implications,” Mr. Patton said.

“If invasive pigs are allowed to expand into areas with abundant soil carbon, there may be an even greater risk of greenhouse gas emissions in the future.

“Because wild pigs are prolific and cause widespread damage, they’re both costly and challenging to manage.

“Wild pig control will definitely require cooperation and collaboration across multiple jurisdictions, and our work is but one piece of the puzzle, helping managers better understand their impacts.

“It’s clear that more work still needs to be done, but in the interim, we should continue to protect and monitor ecosystems and their soil which are susceptible to invasive species via loss of carbon.”

Reference: “Unrecognized threat to global soil carbon by a widespread invasive species” by Christopher J. O’Bryan, Nicholas R. Patton, Jim Hone, Jesse S. Lewis, Violeta Berdejo-Espinola, Derek R. Risch, Matthew H. Holden and Eve McDonald-Madden, 19 July 2021, Global Change Biology.
DOI: 10.1111/gcb.15769



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