Nematode-resistant wheat can protect tomatoes

Wheat microplots used for research on root-knot nematodes.

Wheat microplots used for research on root-knot nematodes.

University of California, Davis
May 20, 2013

(This blog entry is condensed from an article by Brad Hooker, UC Davis Dept. of Plant Sciences. It also appeared in the longer version on the College of Agricultural and Environmental Science’s blog http://ucdaviscaes.wordpress.com/2013/06/03/nematode-resistant-wheat-can-protect-tomatoes/.

It’s a great story because it reminds us that there are so many “unseen” living systems interacting in the soil as plants grow. It’s also a reminder that plant breeding is important and can yield unexpected benefits.)

In a study published online in the journal Crop Science, UC Davis scientists describe a nematode-resistant wheat that can benefit crops such as tomato plants. Professors Val Williamson, Jorge Dubcovsky, and Howard Ferris co-authored the work.

Root-knot nematodes cause crop losses around the world and can be difficult to control. In order to reproduce, the parasites need to infect a living plant root. Once they are present in soil, they can survive winter in a fallow field and infect plants during the next growing season. Trap crops — unsuitable hosts that “trick” the nematodes into starting their life cycle but then prevent them from reproducing — are often a better option than leaving the field fallow.

“Once nematodes commit to being a parasite, they have to complete their life cycle,” explains Valerie Williamson, lead author of the study and a professor in the Department of Plant Pathology. “If they don’t reproduce, the population dies out.”

Trap crops can reduce the number of parasites in the soil and lessen the effects of the pests on the next crop in the rotation. But crops resistant to nematodes can be hard to find due to the pest’s wide range of hosts, and trap crops are often plants that are less valuable to farmers. In the present study, researchers found a resistant strain of wheat that can reduce nematode numbers in soil and protect the next rotation of tomato plants.

“What’s nice about this finding is that wheat is what farmers often use as a rotation crop in California,” says Williamson.

The researchers were surprised to find the resistant wheat. They had tried a number of different rotation crops before turning to wheat. Wheat breeder and senior co-author Jorge Dubcovsky then gave Williamson a strain of wheat called Lassik. Lassik is similar to wheat that is commonly grown, but it has a slight difference. A small segment of genes from another wheat strain relocated, through breeding, into Lassik.

This relocated segment has no effect on yield or behavior of the crop, but Williamson and her co-authors found that it did have a benefit — it made the wheat resistant to nematodes.

“Dubcovsky gave us this strain because it had other resistance genes in it,” says Williamson. “It turned out, to our surprise, that it also had nematode resistance.”

Once they realized that the Lassik wheat was more resistant to nematodes than the wheat normally grown, the research team validated the source of the resistance by comparing pairs of strains with and without the relocated segment. Then to determine if rotating the resistant wheat with tomato plants would help protect the tomatoes, the authors grew Lassik wheat and used some of the soil to plant tomato seedlings. The wheat had the effect they were hoping for — the tomatoes grown in soil from the resistant wheat plots were less damaged by nematodes.

“If farmers use a wheat that does not have the resistant genes, more nematodes survive and they’ll be there when they plant tomatoes,” explains Williamson. “But if they plant the resistant wheat, there won’t be as many nematodes in the soil.”

The results from the study offer a promising option for reducing nematode damage. The next step is to verify the findings on a larger scale. Williamson and her team grew plants both in greenhouses and in small microplots. They are now anticipating that agronomists will try the rotation on a field scale.

View the article and photos at http://caes.ucdavis.edu/NewsEvents/web-news/2013/05/nematode-resistant-wheat-can-protect-tomatoes

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This entry was posted in Agriculture, Edible plants, Pest management, UC Davis, Vegetable crops and tagged . Bookmark the permalink.

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