This Plant Could Change the Pest Control Game


If you have a garden, you’ve probably experienced some sort of pest infestation that’s caused problems for your fruits, vegetables, or flowers. Well, we recently read an article by that describes a unique plant that could change the pest control game:

Plants face a dilemma: outgrow and outcompete their neighbors for light, or defend themselves against insects and disease. Scientists have now grown a plant that does both at the same time.

The breakthrough could have fruitful implications for farmers trying to increase crop yields and feed the planet’s growing population.

“We’ve created a genetic combination that no one has ever made before,” says plant scientist Gregg Howe, a professor of biochemistry and molecular biology at Michigan State University who led the study. “We got an unexpected outcome, and these results turned out to be quite interesting. This research may open up new ways of thinking about how valuable plant traits can be combined in novel and useful ways.”

In Nature Communications, Howe, a member of the Plant Research Lab at Michigan State, and his team describe how they were able to modify an Arabidopsis plant—a relative of mustard—by “knocking out” both a defense hormone repressor and a light receptor in the plant. This genetic alteration allowed the plant to grow fast and defend itself from insects at the same time.

“Normally plants can’t do both. It is generally thought that plants have a fixed energy budget, and they put that energy toward one process at the expense of other processes. There is a tradeoff,” Howe says. “But in our plant there’s not an energy tradeoff. We’ve upset that paradigm.”

Plants in nature and agriculture that are stressed by drought, diseases or insects will mount defensive responses, and at the same time will typically stop growing or grow more slowly. Likewise, when plants are subject to conditions where they must grow fast, such as competing for light when neighbors encroach—called the shade avoidance response—their defenses become compromised.

“This is the growth-defense concept: you promote defense but at the same time you give up growth,” Howe says. “More growth equals less defense, more defense equals less growth. But we’ve done some genetic trickery to get a plant to do both.”

The implications of this breakthrough could have major practical applications in agriculture as the research continues to develop. If the results of the study can be replicated in crop plants, the work could have direct benefits for farmers trying to feed a world population that is expected to reach nine billion by the year 2050. According to the Bill and Melinda Gates Foundation, food production will need to increase by 70 percent to 100 percent to feed that growing population.

“But can we do this in a crop plant—that is something we want to pursue,” says Howe of the next steps in their research.

One common way for farmers to increase crop yields is to increase the density of their plantings. This leaves row crops—such as corn or soybeans—competing against one another for light, and in doing so lowering their defenses and leaving them susceptible to infestation and disease. To counter these risks of growing densely planted crops, farmers must apply pesticides.

“If we can design better corn plants, you could pack them in and they would be well defended all the time without pesticides—that’s one potential direction this research could go,” Howe says. “The growth-defense tradeoffs we’ve observed aren’t something found only in Arabidopsis, it’s found in all plants. The hormone and light response pathways we’ve modified are in all the major crops.”

The research, funded in part by the US Department of Energy, has revealed a connection in plants between the roles played by defense signaling and light signaling, processes that activate genes in response to environmental stresses.

“Initially I was skeptical of the research idea and thought ‘that’s crazy.’ But we took the risk and it proved to pay off,” Howe says. “We’ve grown a plant that can have its cake and eat it too. The fact that it can be done is remarkable.”

Additional researchers contributed from Michigan State University and Cornell University.

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