How an herbivore hijacks a nutrient uptake strategy of its host plant | Digital Science

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How an herbivore hijacks a nutrient uptake strategy of its host plant
Damage by feeding rootworm larvae can be devastating and causes severe crop failure. Credit: Cyril Hertz

Maize plants release secondary metabolites into the soil that bind to iron and thereby facilitate its by the . The Western corn rootworm (Diabrotica virgifera), the most economically important maize pest worldwide, is attracted by these complexes, extracts the bound iron from the maize and uses it for its own nutrition. With these insights, researchers have provided a new explanation for the extraordinary success of the Western corn rootworm as a global maize pest. The study was published in the journal .


The Western corn rootworm causes annual losses of more than U.S. $2 billion in corn production, and is thus one of the most economically significant pests in agriculture. The insect originates in America, but its occurrence in Europe has increased in recent years. It is resistant to many conventional pest control strategies, and the natural defense mechanisms of maize plants provide little protection against this particular enemy.

Christelle Robert and Matthias Erb from the University of Bern had shown in the past that the corn rootworm is resistant to the most important class of maize defense metabolites, the benzoxazinoids. Robert demonstrated that rootworm larvae are even attracted by benzoxazinoids and can use these substances for their own defense against beneficial nematodes. However, until now, it was unclear which benzoxazinoids attract the rootworm. A combination of genetics, chemistry and behavioral ecology has now enabled the scientists to solve this puzzle: Rootworm larvae recognize specific iron complexes that are formed at the root surface when benzoxazinoids bind to iron.

Iron uptake: the Achilles heel of maize plants

The roots of young maize plants release benzoxazinoids, which bind to iron and form complexes in the soil. The researchers found that these complexes increase iron availability for maize plants and thus improve plant growth. But the rootworm uses these exact same iron complexes too—rootworm larvae use the benzoxazinoid-iron complexes to guide them to the -rich crown roots of maize plants. At the same time, they ingest these complexes for their own needs.

“The corn rootworm has evolved a clever to exploit its plant’s ability to make iron biologically available. Tragically, this enables the insect to severely damage maize plants and thereby cause massive crop failure,” says Christelle Robert. “This behavior also poses a dilemma for plant breeders. In order to get rid of rootworms, they would have to reduce the release of benzoxazinoids in the roots. However, this would also undermine the plants’ ability to absorb iron. Nevertheless, now that we understand how rootworms orient in the soil, we can start looking for ways to reduce rootworm damage.” The scientist explains that she has been thinking about the possibility of using iron complexes as attractants to divert rootworms from maize roots.




Maize plants release secondary metabolites into the soil that bind to iron and thereby facilitate its uptake by the plant. The Western corn rootworm (Diabrotica virgifera), the economically most important maize pest worldwide, is attracted by these complexes, extracts the bound iron from the maize plant and uses it for its own nutrition. With these insights, researchers from the University of Bern, Switzerland, and the Max Planck Institute for Chemical Ecology in Jena, Germany, provide a new explanation for the extraordinary success of the Western corn rootworm as a global maize pest. The study was published in the journal Science. Credit: Bern University

The results of the study highlight the dilemma faced by plants when an breaks through and evolves tolerance to a defense. “Since benzoxazinoids function both in defense and nutrient uptake, it is difficult for the plant to immediately stop producing a defense compound that has so many other important functions. The challenge will be to grow maize plants that are better able to defend themselves against the most damaging maize pest in the world without compromising their iron nutrition,” says Jonathan Gershenzon from the Max Planck Institute for Chemical Ecology. Together with Tobias Köllner and his team in Jena, he contributed to the breeding of maize lines, which were knocked out in different steps of benzoxazinoid biosynthesis. These lines were essential for the identification of the benzoxazinoid that—after binding to iron—forms the compound that the rootworm recognizes and uses as a cue for plant selection.

The fact that the Western corn rootworm is able to perceive iron complexes and to adjust its dietary behavior accordingly is also relevant for the understanding of food chains. “Many important trace elements are bound to organic molecules in nature. We therefore expect that other higher organisms also have the ability to perceive biologically available forms of trace elements and to ingest them to improve their nutrient balance,” says Matthias Erb. “The Western corn rootworm is a frustrating, yet highly fascinating pest that has just taught us a new trick of nature.”


Explore further:
Maize pest exploits plant defense compounds to protect itself

More information:
“Plant iron acquisition strategy exploited by an insect herbivore” Science (2018). science.sciencemag.org/cgi/doi … 1126/science.aat4082

Journal reference:
Science

Provided by:
Max Planck Society

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