Spring dead spot

Symptoms and signs | Conditions | Management

Spring dead spot is a destructive disease of common bermudagrass and bermudagrass hybrids throughout the northern range of its adaptation in the United States. Three different root-rotting fungi, known as Ophiosphaerella herpotricha, O. korrae and O. narmari, are responsible for the disease. The relative frequency of the different species varies by region; O. herpotricha is found most frequently in the Midwest. Spring dead spot also infrequently occurs on buffalograss. Cool-season grasses are not susceptible to spring dead spot, but O. korrae causes necrotic ring spot of Kentucky bluegrass with patch symptoms occurring in late spring and fall.

  • Ophiospharella spp.
  • Bermudagrass
  • Buffalograss
Symptoms can be confused with those of
  • Winterkill
Spring dead spot

Figure 1
Spring dead spot of bermudagrass. B. Fresenburg photo.

Spring dead spot

Figure 2
Spring dead spot of bermudagrass. N. Tisserat photo.

Root symptoms of spring dead spot

Figure 3
Root symptoms of spring dead spot on bermudagrass compared with a healthy root system, bottom. N. Tisserat photo

Close-up of roots

Figure 4
Close-up of roots infected with one of the fungi causing spring dead spot. N. Tisserat photo.

Recolonization of the dead areas

Figure 5
Recolonization of the dead areas by annual bluegrass (upper right) and bermudagrass. B. Fresenburg photo.

Symptoms and signs

Spring dead spot appears as circular or arc-shaped patches of dead turf in the early spring as bermudagrass breaks winter dormancy. The dead patches are slightly depressed and straw-colored, ranging in size from several inches to several feet in diameter (Figure 1). The patches normally are randomly distributed throughout the lawn or fairway (Figure 2).

Roots and stolons of infected plants are dark brown to black and are severely rotted (Figure 3). The root rot symptoms are best observed near the margin of the dead area. Roots infected with Ophiosphaerella spp. turn dark brown to black as a result of extensive growth of the darkly pigmented fungus in and on the roots (Figure 4).

During the summer, bermudagrass slowly recolonizes the bare areas, but broadleaf weeds and other weedy grasses can also invade and colonize the bare soil, resulting in a clumpy or patchy appearance to the turf (Figure 5). By late summer there may be little or no evidence of the disease. Dead patches reappear the following spring in the same locations. Over a number of years, the patches can become quite large, coalesce, and develop arclike patterns in the turf. After seven to 10 years, disease severity may begin to decrease to the point where the disease no longer occurs.


Spring dead spot may occur on bermudagrass lawns of all ages, although it typically appears three to four years after the turf has been established.

Spring dead spot fungi colonize roots, stolons and crowns of bermudagrass plants in late summer or fall. Although most fungal colonization occurs in the fall, foliar symptoms do not develop until late spring. During winter dormancy, infected bermudagrass roots or crowns are either killed directly by the fungus or predisposed to desiccation or cold-temperature injury. Root colonization by the pathogen decreases the cold hardiness of the bermudagrass.

The disease tends to be more severe on high-maintenance bermudagrass lawns and fairways. Excessive nitrogen fertilization during the summer months enhances symptom development the following spring.


The best way to manage spring dead spot is through cultural methods that promote vigorous but not excessively lush turf. Dethatch bermudagrass lawns and fairways yearly during active growth to promote good rooting. Also core cultivate to help reduce thatch buildup and improve soil drainage.

A well-balanced and timed fertilizer program will also reduce the incidence of spring dead spot. Applications of excessive amounts of nitrogen (greater than 4 pounds nitrogen per 1,000 square feet) will produce excessive amounts of leaf tissue in relation to root tissue, thereby creating stressed tissue more vulnerable to infection. Severity of spring dead spot is lessened by low soil pH, therefore applications of ammonium sulfate (1 pound nitrogen per 1,000 square feet) monthly from June to August will help reduce the disease incidence.

Application of 0.8 pound of potassium chloride (KCl) per 1,000 square feet at monthly intervals during the summer has also been shown to reduce spring dead spot severity.

Bermudagrass cultivars vary markedly in susceptibility to spring dead spot. None are immune to the disease, but several seeded and vegetatively propagated cultivars exhibit reduced patch sizes and faster summer recovery than susceptible varieties. Resistant vegetative cultivars include 'Midlawn' and 'Patriot'. Another popular variety called 'Quickstand'; is moderately susceptible to spring dead spot. The seeded cultivars 'Guymon', 'Yukon' and 'Reviera' also show moderate resistance. 'Guymon' has a coarse texture and is not recommended for home lawns in the Midwest. Several other experimental seeded selections from Oklahoma State University also appear promising. Avoid using Arizona common bermudagrass, 'Cheyenne', 'Jackpot', 'Oasis', 'Poco Verde', 'Primavera', 'Sonesta', 'Tifton 10', 'Tifway' (Tifton 419), 'Tropica', 'Vamont' or 'Sunturf' cultivars.

Several fungicides, including several demethylation inhibitors (DMIs) and azoxystrobin (Heritage), are labeled for management of spring dead spot (Table 5). However, disease suppression with these fungicides has been erratic in trials. September applications of these fungicides have, in some years, reduced disease severity and enhanced recovery of the turf in the spring, but they did not completely control spring dead spot development. Therefore, fungicide applications are not currently recommended for control of spring dead spot in the Midwest, and the emphasis for managing this disease should focus on cultural methods.