Thursday, September 10, 2020

A bout of powdery mildew leaves plants vulnerable

white fungus on underside of leaf

Prior exposure to powdery mildew makes plants more vulnerable to subsequent disease, research finds.

As we approach late summer, diverse disease symptoms are visible on many plants, including spots, blotches, or fuzzy growth caused by bacteria, viruses, or fungi.

A key to surviving in the wild is fighting off infection—and not just once. As in humans, one infection may or may not leave a plant with lasting immunity.

In fact, an early infection might make things worse. New research shows that infection actually makes a plant more susceptible to secondary infection—in experiments and in the wild. The findings appear in Nature Ecology & Evolution.

“We found that early infection facilitated later infection,” says Rachel Penczykowski, assistant professor of biology at Washington University in St. Louis and co-first author of the study. She performed the field experiments as a postdoctoral researcher with Anna-Liisa Laine, senior author of the paper, now at the University of Zürich.

“And the order in which pathogen strains infect a plant matters,” Penczykowski says. “Some pathogen strains are especially likely to facilitate infection by later-arriving strains.”

Leaves in bags

The findings—obtained through a series of elegant experiments that capture how pathogen strains naturally accumulate on plants over a growing season—reveal the importance of understanding interactions among pathogens when developing strategies for maintaining healthy crop populations.

In the wild, plant populations are exposed to and infected by multiple powdery mildew strains over the course of their lifetime. The authors wondered if prior exposure to one strain of powdery mildew affects the plant’s susceptibility to a second.

To simulate what would happen in the wild, the authors took young, disease-free plants and brushed pathogen spores from one of four pathogen strains onto a single leaf per plant. The rest of the leaves were temporarily covered with a plastic bag.

The inoculated leaf was then covered with a spore-proof pouch for the duration of the experiment, which prevented infection from spreading between it and the other leaves. This method works because powdery mildew produces a localized, leaf-surface infection that does not spread systemically in the plant. Otherwise identical control plants received a sham inoculation instead of powdery mildew spores.

The plants were then placed in a common garden environment in a large field (without locally occurring Plantago or powdery mildew), where they were simultaneously exposed to all four pathogen strains.

Penczykowski and co-first author Fletcher Halliday, a current postdoctoral researcher in the Laine lab, found that none of the four strains of powdery mildew inoculated onto plants protected the plants from a secondary infection. In fact, prior exposure to mildew made plants more susceptible to a second powdery mildew infection compared to infection-naïve controls.

“If you look at each strain individually, some of the strains were better than others at promoting later infection,” Penczykowski says.

“Because crop plants may also be exposed to a diversity of pathogen strains during a given growing season, understanding the ways in which different pathogen strains impact each other is important for developing sustainable disease control strategies in agricultural systems.”

Scientists sometimes place cohorts of healthy, greenhouse-grown “sentinel plants” into field populations to measure the risk of pathogen infection. Doing this with sentinel plants allows researchers to control for genetic background, age, and condition.

To test how prior inoculation affected the probability of plants becoming infected during epidemics in wild populations, the authors inoculated plants as they did in the common garden experiment (again, with uninoculated controls for comparison). Except this time, they moved the potted sentinel plants into wild populations and waited for naturally occurring mildew spores to arrive.

The researchers found that previously infected sentinel plants acquired secondary mildew infections more often than control plants that had never been infected. This was true even though the only way plants were catching the naturally occurring pathogen strains was through the wind.

“What we saw in both our common garden and our sentinel plant experiments was that previously inoculated plants were more susceptible to later infection,” Halliday says. “But could we detect the signature of pathogen strain facilitation in naturally infected wild plant populations? That would require an intensive survey of wild plant-pathogen dynamics.”

Fortunately, they were able to use data from wild populations collected the previous year.

Wild plants and powdery mildew

In an intensive survey of 13 field populations, the scientists tracked mildew infection in wild plants over the course of two months. They tagged plants as they found mildew infection; otherwise, they were not manipulated in any way and had been growing in the field their whole lives.

A small leaf area of each infected plant was cut and brought to the lab to identify the mildew strains that infected the plants at different times throughout the growing season.

Powdery mildew strains vary in their ability to survive the winter and in the timing of their reproductive cycle.

Some strains arrive earlier in the growing season and are likely to be the ones that had successfully overwintered and reproduced quickly.

Halliday dove into the genetic data compiled from the surveys of the 13 field populations and found that strains detected early in the season commonly facilitated subsequent infections, and strains that arrived to the populations later in the season benefited from that facilitation.

“The early-arriving strains are the ones that are driving the course of epidemics and also affecting the diversity of pathogen strains that assemble in plant populations,” Halliday says.

“In other words, the strains that are ready to hit the ground running in spring may impact both the ecological and evolutionary dynamics of plant-pathogen interactions,” Penczykowski adds.

Source: Washington University in St. Louis

The post A bout of powdery mildew leaves plants vulnerable appeared first on Futurity.



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