Rhizoctonia large patch is the most common and severe disease of warm season grasses (bermudagrass, centipedegrass, seashore paspalum, St. Augustinegrass, and zoysiagrass) across the state of Georgia. Due to spring and fall disease-promoting environmental conditions across Georgia coinciding with grasses leaving and/or entering dormancy, large patch can appear in warm season grasses in various grass-growing settings, including home lawns, landscapes, sports fields, golf courses, and sod farms.
Large patch is caused by the soilborne fungus Rhizoctonia solani AG 2-2 LP. It is noteworthy to mention that a different strain of the same fungus (R. solani AG 1-A) causes brown patch on cool season grasses.
The disease is most apparent during the spring and fall, when warm season turfgrasses are entering or exiting their period of winter dormancy. Circular patches of affected turf are easily observed, ranging in diameter from 3 feet to 26 feet (Figure 1). Leaves of recently infected turf, located at the periphery of the patch, may appear bright yellow and/or orange in color (Figure 2). Patches may be perennial, recurring in the same location and expanding in diameter year after year. R. solani infection of warm season grasses occurs on the leaf sheaths (Figure 3), where water-soaked, reddish-brown, or black lesions are observed. As a direct result of these leaf sheath infections, foliar dieback spreads from the leaf tip toward the base. The centers of the patches develop thin and sunken areas that may be invaded by weeds. Extensive patches diminish turf quality by disturbing the aesthetic value and reducing the playability of turf surfaces.
Conditions Favoring Rhizoctonia Large Patch R. solani Large Patch
is a strong saprophyte, meaning it is able to survive for extended periods of time in the absence of living host plants by feeding on decaying organic matter. When conditions are not favorable for growth, the fungus persists in the thatch layer and soil. When a host plant is present and environmental conditions are favorable, the fungus begins to colonize the surface of the potential host plant (Figure 4).
Infection of the lower leaf sheaths by R. solani occurs whenever the temperature of the thatch layer is between 50 and 70 degrees Fahrenheit, and continuous moisture is available for at least 48 hours. Because warm season grasses are not growing vigorously during the spring and fall, they are highly susceptible to pathogen attack. Patches may also develop in the summer during periods of cool weather, especially in wet or shaded sites (Figure 5). Excessive moisture levels in the soil, thatch, and lower turf canopy encourage the development of large patch. Poor drainage, shade, restricted air movement, or excessive irrigation increase the severity of this disease.
Large patch is an endemic and severe disease of warm season grasses in Georgia. A multi-pronged approach to management is most effective.
Establishment of a turfgrass species best adapted to your geographical area and more specifically to your location, situation, or landscape is one the most effective means for management of large patch. In Georgia, all warm season grasses are susceptible to large patch. In the Piedmont region, zoysiagrass and centipedegrass are most commonly affected. In the Coastal Plain of Georgia, St. Augustinegrass and centipedegrass usually show more dramatic symptoms. Throughout the state, bermudagrass will develop large patch at similar levels as other warm season grasses. However, bermudagrass may recover from large patch damage more rapidly because of its aggressive growth habit. UGA Extension can provide you the most updated information concerning turfgrass species and cultivar selection for your area and particular situation. The national turfgrass evaluation program is an excellent resource for information on turfgrass species and turfgrass cultivars (http://www.ntep.org).
Excessive moisture levels in the soil, thatch, and lower turf canopy are the most important environmental factors in causing large patch epidemics. Regulation of moisture levels in the thatch and soil is an essential aspect of large patch management. Large patch is most severe in areas that have little air movement and/or excessive shade. To limit large patch severity and improve overall turf quality in areas that are poorly drained, install drainage tile, modify the soil profile to increase porosity, and/or cultivate soil to reduce compaction and thatch accumulation. Control traffic patterns to prevent severe compaction, and core aerate to improve soil drainage and increase air circulation around the shoots and roots. Where air movement and sunlight penetration are low, prune or remove surrounding trees and shrubs. No more than once a week, turf should be irrigated deeply, but only as necessary to meet its water requirements.
Warm season grasses vary in their fertility requirements (Table 1). To manage large patch, a sound fertility program should adhere to the recommended guidelines for your particular turf species and should be based on an updated soil test. High and untimely nitrogen applications have been associated with increased susceptibility to large patch. Do not apply nitrogen-containing fertilizers before soil temperatures at the 4-inch depth are consistently 65 degrees Fahrenheit and rising. For local soil temperature for your area, visit http://www. georgiaweather.net/index.php?content=tr&variable=XS. In the Georgia Piedmont area, these temperatures usually occur in early May. For complete and up-to-date information on fertility for warm season grasses, consult your county agent, visit http://www.georgiaturf.com, and/or refer to the annual UGA Turfgrass Pest Control Recommendations for Professionals.
Mowing height has influence on the development of large patch. In general, large patch symptoms appear to be more severe at low mowing heights. On zoysiagrass, large patch severity increases as mowing height is decreased from 1.5 to 0.5 inches. Reduced mowing heights result in a more dense turf stand, which may create a more favorable environment for large patch development by reducing air movement and increasing humidity in the lower turf canopy. It is important to keep the mowing height consistent and correct for the specific variety of turf in your landscape.
Homeowners: Few effective fungicides are available for the general public to use for large patch management, so emphasis should be placed in cultural and genetic control. For a complete list of homeowner fungicides for large patch, visit http://extension.uga.edu/publications/detail.cfm?number=SB48.
Professionals: A variety of fungicides are available to commercially licensed turfgrass managers for large patch control. Fungicides in the following classes are labeled for large patch control: carboxamides, benzimidazoles, carbamates, dicarboximides, DMI fungicides, di-nitro anilines, nitriles, polyoxins, and Qo inhibitors. Several biological fungicides are now labeled for large patch control. For a complete and updated list of fungicides available for commercial control of large patch, visit http://extension.uga.edu/publications/ detail.cfm?number=SB28 or http://www.commodities.caes.uga.edu/turfgrass/georgiaturf/Publicat/1640_ Recommendations.htm. In turf stands with a history of large patch epidemics, preventative fungicide applications provide excellent control when applied at the proper time. The first fungicide application should be made in the fall when conditions become conducive for large patch development, specifically when the thatch temperature drops below 69.8 degrees Fahrenheit for several consecutive days. Subsequent applications should be made as specified on the fungicide label. Because the majority of disease development occurs in the fall, fungicide applications at this time are most important. However, when disease pressure is severe, spring applications may also be required to achieve adequate control.
Rhizoctonia large patch is the most common and severe disease of warm season grasses across the state of Georgia. The disease is apparent during the spring and fall, when warm season turfgrasses are entering or exiting their period of winter dormancy. Circular patches of affected turf are easily observed. Infection of the lower leaf sheaths by R. solani occurs whenever the temperature of the thatch layer is between 50 and 70 degrees Fahrenheit, and continuous moisture is available for at least 48 hours.
Management strategies include:
• Establishing a turfgrass species best adapted to your geographical area and situation;
• Making sure that areas are well-draining, as moisture levels in the thatch and soil is an essential aspect of large patch management;
• Preventing and/or alleviating soil compaction;
• Implementing a sound fertility program according to recommended guidelines for your particular turf species and an updated soil test;
• Cutting grass at the proper mowing height for that species;
• Emphasizing cultural and genetic control on home lawns, as few effective fungicides are available for the public to use for large patch management; and
• Applying fungicides in the following classes for commercial turf: carboxamides, benzimidazoles, carbamates, dicarboximides, DMI fungicides, di-nitro anilines, nitriles, polyoxins, and Qo inhibitors.
Status and Revision History
Published on Jul 08, 2016