Wild cherry key to disease cure
Although Mother Nature has taken a severe toll on the Michigan tart cherry crop, a bright spot for the industry is growing in a greenhouse on the Michigan State University campus: seedlings, which in three generations so far, have resisted the most costly disease of Michigan tart cherries — cherry leaf spot.
The disease is caused by a fungus that thrives in humid conditions. It attacks foliage, causing leaves to yellow and fall from the tree. Premature defoliation can severely weaken the tree and eventually lead to tree death if winter temperatures are severe. Fungicides, the primary means of controlling the disease, must be repeatedly applied from petal fall to harvest.
MSU AgBioResearch scientist Amy Iezzoni is determined to develop a genetic solution — a new tart cherry cultivar that is naturally resistant to cherry leaf spot and would not require chemical sprays.
• Cherry leaf spot is the most costly disease facing Michigan tart cherry growers.
• A chromosome region in a wild cherry that provides resistance is identified.
• Work is under way to cross wild cherry with Montmorency cherry.
“Cherry leaf spot is caused by a fungus, so anytime there is moisture it becomes very active, spores are produced, and it spreads quickly,” says Iezzoni, a professor in the MSU Department of Horticulture. “It’s a major challenge in Michigan. In fact, the disease requires more pounds of chemicals per acre to control than any other cherry disease or pest.”
Iezzoni and doctoral student Travis Stegmeir have identified a chromosome region in the cherry containing a gene controlling resistance to leaf spot. It is found in a wild cherry known as Prunus canescens, whose fruit is too small to market.
“This cherry bears fruit the size of a pea that no one would even consider making a pie from,” she says. “But we’ve been breeding the Prunus canescens with Montmorency — the major tart cherry variety in Michigan with consistent fruit quality and yield — and we’ve been able to transfer the resistance through three generations.”
Iezzoni says that Prunus canescens is able to “recognize” that the cherry leaf spot fungus is there and destroys it, preventing defoliation of the tree. Ultimately, Iezzoni wants to develop a new cultivar that has this resistance ability and produces a highly marketable fruit.
Working with German scientists
“We’ve collaborated with a group in Germany that is using the same source of resistance, but they’ve crossed the resistant source with diploid sweet cherry, which is simpler genetically,” she says. “Our genetic results are in collaboration with the breeding program in Dresden, Germany.
We are using the information gleaned by working with our German colleagues and translating it to our Montmorency cherry — a more complicated, absolutely necessary variety for Michigan’s tart cherry population.”
Much of Iezzoni’s work has been made possible through the RosBREED project — a USDA Specialty Crop Research Initiative grant that leverages emerging DNA sequence information to improve the quality of cherries and other rosaceous fruits, including apples, peaches and strawberries.
Iezzoni said that finding the specific plant gene responsible for the resistance — next on her list — will lead to benefits somewhat similar to those of explorations of human genetics.
“In medicine, they can determine who’s a carrier for a cystic fibrosis gene without the patient being challenged by the disease,” she says. “They do a genetic diagnostic test. In plant science, it’s much like asking which seedlings are carrying the genetics that are necessary to reach my research goals.
“I don’t know the gene yet, but I do know the general location, and I know what markers are linked to it,” Iezzoni adds. “I can begin doing the DNA diagnostics without knowing the gene because I know approximately where it is.”
Source: MSU AgBioReasearch
Cherry leaf spot
Photo by Andrej Kunca, National Forest Centre - Slovakia, Bugwood.org
This article published in the August, 2012 edition of MICHIGAN FARMER.
All rights reserved. Copyright Farm Progress Cos. 2012.