Science

Crops Already Ravaged by Climate Change Face a New Threat: Hungrier Bugs

"In general, insect metabolism is temperature dependent."

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Climate change is already threatening our food supply by raising temperatures and causing wildfires, but as a new study in Science suggests, all this heat is speeding up insect metabolism, making them an even bigger threat to human crops and agriculture. If the problem continues to worsen at the projected speed, this could mean serious consequences for global food supplies.

Using a computer model, a team of researchers from various US universities projected global crop yield based on several different warming scenarios. These models, which specifically focused on crop yield in relation to pest destruction, showed that the amount of crops lost globally each year due to bugs will likely increase by 10 to 25 percent per degree of global surface warming.

This is particularly unsettling, as recent projections have estimated that if greenhouse gas emissions continue to increase at the current rate, by the end of the 21st century the Earth will be 3 °F hotter.

Wheat is one of the crops expected to suffer the effects of increased insect metabolism.

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Bugs that live closer to the equator are already built to handle high temperatures. For this reason, study co-author and University of Colorado, Boulder ecologist Josh Tewksbury, Ph.D. tells Inverse, bugs native to more temperate environments will be most affected by the warming climate. This means that crops in northern parts of Europe, North America and Asia will be most severely compromised.

“On average, the impacts on insects adds up to 2-3% reduction in crop yield for every degree C increase in temperature – for context, this is about half the estimated direct impact of temperature change on crop yields, but in northern temperate areas, the impact of increases insect damage will likely be significantly greater than the direct impact of climate on crop yields,” Tewksbury says.

He predicts the problem will not just affect crop yield but also have economic and social consequences.

Dylan Parry, Ph.D., an associate professor at SUNY College of Environmental Science and Forestry and entomology expert not affiliated with the study, agrees that climate change could affect pest behavior.

“In general, insect metabolism is temperature dependent – they are more active, consume more food, etc. as temperatures increase,” Parry tells Inverse. “Insect response to a warming climate will differ with latitude as species that live close to the equator or in other hot climates are already near their optimal thermal limits.”

Generally speaking, insect metabolism increases with temperature. Using biological control mechanisms might help to keep their populations in check.

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The solution to this problem won’t be a simple one. As pests become a bigger problem to global crops, farmers may naturally feel obliged to use more pesticides. Unfortunately, pesticide overuse comes with its own set of problems.

Biological control of insect pests, however, is often successful, says Tewskbury. This involves using living organisms, such as the xenomorph-esque parasitic wasp, to control pests. This method takes diligence and a deep understanding of how our environment works, so using it will be difficult — but far from impossible.

“That knowledge is out there to be gathered, and our inattention to this knowledge is perhaps the biggest threat to our food security,” said Tewksbury.

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