Ascochyta leaf blight

Ascochyta leaf blight

Description, Causes and Risk Factors:

Ascochyta leaf blight results in the rapid development of large irregularly shaped, straw-colored patches on Kentucky bluegrass and occasionally on tall fescue and perennial ryegrass during the summer. Because Ascochyta spp. are primarily foliar pathogens, diseased turfgrass usually recovers relatively quickly. Environmental conditions that trigger Ascochyta leaf blight are poorly understood.

Ascochyta leaf blight

Ascochyta spp. can be found on senescing or dead leaves of several turfgrass species; however, the disease appears to be most serious on Kentucky bluegrass.

Ascochyta spp. survive as conidia in pycnidia on dead leaves or clippings remaining in the thatch. The pycnidia are highly resistant to breakdown by drought or extreme temperatures. Thousands of conidia ooze from a single pycnidium during wet weather and are dispersed by splashing rain, irrigation, mowing or other management activities.

Conditions that favor Ascochyta blight development are poorly understood. The disease can occur in late spring or summer on drought-stressed turf resulting from water restrictions or poor irrigation system coverage. However, the disease also develops during periods of hot weather preceded by unusually wet soil conditions induced by excessive rain or overirrigation. Frequent mowing and dull mower blades contribute to disease severity by creating more wounds that serve as infection sites.


Ascochyta leaf blight symptoms can develop throughout the growing season but are more common during hot, droughty periods that were preceded by cool, rainy conditions. Large irregular patches of turf rapidly turn a straw-color and appear dead. The overall appearance of the disease resembles drought stress, except that the symptoms of Ascochyta leaf blight appear quickly (sometimes overnight). Although the blighting within an area appears complete from a distance, healthy leaves are interspersed within the patch. Blighting is usually restricted to the leaves. Bluegrass crowns and roots typically are not killed.

Leaves infected with Ascochyta spp. often exhibit a bleached tip dieback that extends about a third to halfway down the leaf blade. The margin between healthy and diseased tissue is abrupt and slightly pinched, with a dark brown to purple banding that is generally wider than that associated with dollar spot. Sometimes spots with distinct borders occur elsewhere on leaf blades. In other cases leaves may exhibit white banding or be entirely collapsed and shriveled. These foliar symptoms resemble heat or drought stress.

Ascochyta spp. produce minute yellow to dark brown, flask-shaped fruiting bodies (pycnidia) in diseased leaf tissue. These fruiting bodies, which are easy to view with a hand lens, are peppered throughout the dead leaves and can be useful as a diagnostic sign distinguishing Ascochyta leaf blight from dollar spot, abiotic causes and white grub damage. With white grub damage, the turf can be easily peeled back to observe the grubs.

Conidia (spores) produced within a pycnidium are hyaline (colorless) with one to two septa. Septate condia are often slipper-shaped.


Accurate diagnosis is the key to managing Ascochyta leaf blight in an environmentally and economically sound manner. When the cause is not accurately identified and management practices and control measures are not developed accordingly, inputs are wasted and high reestablishment costs may be incurred.

Recognize that there are two types of pathogens that cause plant disease:

    Infectious or biotic.

  • Noninfectious or abiotic.

Most of the common turfgrass diseases are caused by plant pathogenic fungi. Plant parasitic nematodes can also cause disease in some situations. Keep in mind that insect infestation can also result in damage to turfgrasses.

The following steps can help you learn to diagnose the cause of turfgrass problems:

    Identify the host plant.

  • Note prevailing environmental conditions before and during disease outbreak.

  • Observe the on-site pattern of damage.

  • Note the symptoms.

  • Look for signs of disease (Mycelium, Hyphae, Bulbils, Fruiting bodies, Spores).

Before you look for signs of disease, ask for information about fungicide application history. Recent fungicide application may have suppressed the pathogen, making it difficult to detect. Other information that can be helpful when making a diagnosis includes history of herbicide use, growth regulator program, insecticide use, fertility program, soil pH, irrigation water source and irrigation water quality.


Ascochyta leaf blight damage can be managed by following good cultural practices that minimize stress to the turfgrass. This may include:

    Reduce thatch and promote water infiltration through the soil by yearly core cultivation.

  • Maintain height of cut between 2-1/2 and 3 inches.

  • Minimize wounding of the leaf blades by maintaining sharp mower blades.

  • Avoid mowing during wet weather, especially when Ascochyta spp. are active.

  • Reduce mowing frequency and increase mowing height during Ascochyta leaf blight outbreaks.

  • The fungus can be spread from one location to another on grass clippings, although this is unlikely to contribute significantly to disease development. Similarly, collecting clippings while mowing to reduce the amount of inoculum is unlikely to reduce disease severity. Disease development depends more on environmental conditions than on the initial amount of fungus present in the turfgrass.

  • Maintain balanced fertility.

  • Avoid excessive applications of nitrogen fertilizer, especially in the spring. Too much nitrogen promotes rapid, succulent leaf growth that requires more frequent mowing and causes more wounding of the turfgrass.

  • Try to maintain uniform soil moisture. Check the irrigation system to make sure that all irrigation heads are working properly and that water is being distributed uniformly to avoid drought stress. On the other hand, excessive irrigation and poorly drained soils can also promote disease development.

  • Fungicides are not typically used to control Ascochyta leaf blight. Ascochyta leaf blight can be induced by plant stresses such as drought and low fertility. Usually, taking action to reduce stress in the leaf blight symptoms to diminish.

Ascochyta leaf blight is primarily a leaf disease and not a root or crown disease, so it rarely causes plant mortality (the quality or state of being mortal). Turfgrass usually recovers completely after a couple of weeks. Although several fungicides will inhibit Ascochyta spp., they can be expensive and difficult to apply. Furthermore Ascochyta leaf blight development is sporadic and rapid, making timing of preventive and curative fungicide applications difficult.

NOTE: The above information is for processing purpose. The information provided herein should not be used during any medical emergency or for the diagnosis or treatment of any medical condition.

DISCLAIMER: This information should not substitute for seeking responsible, professional medical care.


Submit a Comment

Your email address will not be published. Required fields are marked *

This site uses Akismet to reduce spam. Learn how your comment data is processed.

Cart Preview

Probiotics May Protect You from Developing Osteoporosis

Probiotics May Protect You from Developing Osteoporosis

According to recent research, published in the journal Immunity, probiotics can be used safely and efficiently to fight osteoporosis, widely-known as osteoporosis. The researchers have used a mouse model to check the hypothesis. The mice received oral Lactobacillus...

A Hot Bath Can Reduce Inflammation and Improve Glucose Metabolism

A Hot Bath Can Reduce Inflammation and Improve Glucose Metabolism

A new study, published in the Journal of Applied Psychology, finds that a hot bath may help reduce inflammation and improve metabolism. As a part of an experiment, each study participant took a hot bath with water temperature 102°F (39°C) for one hour. The researchers...

[WpProQuiz 1]

Featured Products

The 5 Best Accessories for Sports Fans

It is very entertaining to be a sport fan. There is a big variety of sport games that are extremely interesting to follow. Moreover, it is always fun to anticipate the score and watch the enthusiasm live. One of the benefits of being sports fan is using different...

read more

Exercise May Serve as an Antidepressant

A new study of nearly 18,000 participants found that those with high fitness at middle age were significantly less likely to die from heart disease in later life, even if they were diagnosed with depression. Doctor's Tips: How to Stay Fit While Treating Depression Dr....

read more