RESUMO
Spring dead spot (SDS) (Ophiosphaerella spp.) is a soilborne disease of warm-season turfgrasses grown where winter dormancy occurs. The edaphic factors that influence where SDS epidemics occur are not well defined. A study was conducted during the spring of 2020 and repeated in the spring of 2021 on four 'TifSport' hybrid bermudagrass (Cynodon dactylon × transvaalensis) golf course fairways expressing SDS symptoms in Cape Charles, VA, U.S.A. SDS within each fairway was mapped from aerial imagery collected in the spring of 2019 with a 20 MP CMOS 4k true color sensor mounted on a DJI Phantom 4 Pro drone. Three disease intensity zones were designated from the maps (low, moderate, high) based on the density of SDS patches in an area. Disease incidence and severity, soil samples, surface firmness, thatch depth, and organic matter measurements were taken from 10 plots within each disease intensity zone from each of the four fairways (n = 120). Multivariate pairwise correlation analyses (P < 0.1) and best subset stepwise regression analyses were conducted to determine which edaphic factors most influenced the SDS epidemic within each fairway and each year. Edaphic factors that correlated with an increase in SDS or were selected for the best fitting model varied across holes and years. However, in certain cases, soil pH and thatch depth were predictors for an increase in SDS. No factors were consistently associated with SDS occurrence, but results from this foundational study of SDS epidemics can guide future research to relate edaphic factors to SDS disease development.
Assuntos
Ascomicetos , Doenças das Plantas , Estações do Ano , Cynodon , SoloRESUMO
Hybrid bermudagrass (Cynodon dactylon×C. transvaalensis) is widely used as turf in transition zone of China. Spring dead spot (SDS) is one of the most damaging diseases of hybrid bermudagrass. Symptoms of SDS appear when hybrid bermudagrass starts to break dormancy with warm temperature in early spring. The symptoms show sunken, circular or irregularly shaped, straw-colored patches, with 20 to 100 cm in diameter. The patches maintain dormant as the surrounding uninfected turfgrass resumes growth and turns green. SDS pathogens are soilborne fungi that colonize roots, stolons and rhizomes, infected roots or rhizomes become black and eventually collapse. Three species of fungi are reported to cause SDS: Ophiosphaerella herpotricha (Fr) J. Walker; O. korrae (J. Walker & A.M. Smith) Shoemaker & C.E. Babcock; or O. narmari (J. Walker & A.M. Smith) Wetzel, Hubert & Tisserat (Walker and Smith 1972; Walker 1980; Shoemaker and Babcock 1989; Wetzel et al. 1999). However, distribution of the three species may vary by geographical region (Cottrill et al. 2016). In October 2020, symptoms of SDS were observed on hybrid bermudagrass fairways of Taihu golf course in Wuxi, Jiangsu province. Root samples of SDS were collected, symptomatic roots with 3-4 cm length were cut, washed 2-3 times, surface sterilized in 0.6% NaOCl for 5 min, rinsed and blotted dry for 2 min and placed on potato dextrose agar (PDA) amended with 50 mg L-1 each of ampicillin, streptomycin sulfate and tetracycline. Plates were incubated in the dark at 25â for 5-7 days, Hyphae growing from the roots were transferred to new PDA plates. A total of 7 fungal isolates with morphology similar to SDS pathogens were obtained (Tredway et al. 2009). The genomic DNA was extracted from 2 of them (7-41, 8-6) and amplified with universal primers ITS5 and ITS4 (White et al. 1990). PCR products were sequenced (deposited as MW536995 and MW536994 in GenBank, not available yet) and showed 99.79% similarity to O. narmari (KP690979). Pathogenicity tests were performed on 'Tifdwarf' hybrid bermudagrass (9-week-old in 5 × 20 cm Cone-Tainers containing a sand and nutrition substrate mixture). Eight oat seeds infested with O. narmari were inserted 5 cm below the soil surface in the root zone of hybrid bermudagrass. The inoculated turfgrass grew for five weeks in the growth chamber with a 12-h day/night cycle of 25/20°C and 90% relative humidity. A control treatment was inoculated with 8 noninfested sterile oat seeds, and each treatment was replicated 3 times. The root tissues of hybrid burmudagrass inoculated with O. narmari became black and necrotic, no symptoms were observed on the roots of noninfested plants. O. narmari was consistently reisolated from symptomatic roots, and confirmed by PCR as mentioned above. To the best of our knowledge, this is the first report of O. narmari caused spring dead spot in the transition zone of China. The identification of SDS caused by O. narmari will have important implications for the management of this root-rot species on hybrid bermudagrass.
RESUMO
The influence of temperature on the infection of bermudagrass seedlings by Ophiosphaerella herpotricha and colonization of plants in the field was investigated. Bermudagrass seedlings (cv. Jackpot) inoculated with O. herpotricha exhibited dark lesions after 8 days. Root lesion length was greatest at 17°C and was similar for all temperatures examined below 21°C. Seedlings grown at 25 or 30°C had small lesions that remained similar in size when evaluated at 8 and 10 days post inoculation. Colonization of bermudagrass roots from field plots were examined in July, October, and November of 2003 and 2004. In 2003, no differences between sampling dates were observed for plants sampled from the edge of the spring patch in 5.4-cm increments to a total distance of 21.6 cm. In 2004, July and October samples were similar; however, an increase in root colonization was found between the October and November samplings. These studies suggest that infection and colonization of bermudagrass roots by O. herpotricha occurs over a wide range of cool soil temperatures, occurs in the spring, and can be variable in the autumn.