Phytophthora, Phytopythium, and Pythium species that cause early-season seed decay and pre-emergence and post-emergence damping off of soybean are most commonly managed with seed treatments. The phenylamide fungicides metalaxyl and mefenoxam, and ethaboxam are effective toward some but not all species. The primary objective of this study was to evaluate the efficacy of ethaboxam in fungicide mixtures and compare those with other fungicides as seed treatments to protect soybean against Pythium, Phytopythium, and Phytophthora species in both high-disease field environments and laboratory seed plate assays. The second objective was to evaluate these seed treatment mixtures on cultivars that have varying levels and combinations of resistance to these soilborne pathogens. Five of eight environments received adequate precipitation in the 14 days after planting for high levels of seedling disease development and treatment evaluations. Three environments had significantly greater stands, and three had significantly greater yield when ethaboxam was used in the seed treatment mixture compared with treatments containing metalaxyl or mefenoxam alone. Three fungicide formulations significantly reduced disease severity compared with nontreated in the seed plate assay for 17 species. However, the combination of ethaboxam plus metalaxyl in a mixture was more effective than either fungicide alone against some Pythium and Phytopythium species. Overall, our results indicate that the addition of ethaboxam to a fungicide seed treatment is effective in reducing seed rot caused by these pathogens commonly isolated from soybean in Ohio but that these effects can be masked when cultivars with resistance are planted.
Rhizoctonia solani Kuhn is found in the soil of all sugarbeet growing regions. It is the casual pathogen of Rhizoctonia Crown and Root Rot, an economically important disease of sugarbeets. Recent reports have noted the increase in the distribution and severity of RRCR. In extreme situations, RRCR can destroy up to half of the crop. Currently metconazole is the only registered seed treatment that offers protection from R. solani for sugarbeets. Tolclofos-methyl is a contact, aromatic hydrocarbon fungicide that has shown activity against R. solani in other crops. It is applied at a rate of 0.5 grams of active ingredient per 100,000 seeds, on pelleted blank seed or incorporated into the pelleting. The combination of metconazole and tolclofos-methyl has been shown to provide a reduction in infection severity and early season survivability in the field. Metconazole and tolclofos-methyl, applied as a seed treatment, has been shown to provide protection from early season RRCR.
Soybean seedlings are vulnerable to different oomycete pathogens. Seed treatments containing the two anti-oomycete (oomicide) chemicals, metalaxyl-M (mefenoxam), and ethaboxam are used for the protection against oomycete pathogens. This study aimed to evaluate the influence of these two oomicides on the isolation probability of oomycetes from soybean taproot or lateral root sections. Soybean plants were collected between the first and third trifoliate growth stages from five Midwest field locations in 2016 and four of the same fields in 2017. Oomycetes were isolated from taproot and lateral root. In 2016, 369 isolation attempts were completed resulting in 121 isolates from the taproot and 154 isolates from the lateral root. In 2017, 468 isolation attempts were completed, with 44 isolates from the taproot and 120 isolates from the lateral roots. In three of nine site-years, the probability of isolating an oomycete from a taproot or lateral root section was significantly different. Seed treatments containing a mixture of ethaboxam and metalaxyl significantly reduced the probability of oomycete isolation from lateral roots in Illinois in 2016 and 2017, but not in other locations, which may have been related to the heavy soil type (clay loam). Among the 439 isolates collected from the two years sampled, 24 oomycete species were identified, and community compositions differed depending on location and year. The five most abundant species were Pythium sylvaticum (28.9%), Pythium heterothallicum (14.3%), Pythium ultimum var. ultimum (11.8%), Pythium attrantheridium (7.9%), and Pythium irregulare (6.6%) which accounted for 61.7% of the isolates collected. Oomicide sensitivity to ethaboxam and mefenoxam was assessed for more than 300 isolates. There were large differences in ethaboxam sensitivity among oomycete species with EC50 ranging from < 0.01 to > 100 μg ml-1, and a median of 0.65 μg ml-1. Isolates with insensitivity to ethaboxam (> 12 μg ml-1) belonging to the species Pythium torulosum and Pythium rostratifingens but were sensitive to mefenoxam. Oomicide sensitivity to mefenoxam ranged from < 0.01 to 0.62 μg ml-1 with a median of 0.03 μg ml-1. The mean EC50 of the five most abundant species to ethaboxam ranged from 0.35 to 0.97 μg ml-1 of ethaboxam and from 0.02 to 0.04 μg ml-1 of mefenoxam. No shift in sensitivity to mefenoxam or ethaboxam was observed due to soybean seed treatment or year relative to the non-treated seed controls. In summary, this study contributed to the understanding of the composition of oomycete populations from different soybean root tissues, locations, years, and seed treatments. Finally, the effectiveness of seed treatments containing mefenoxam or metalaxyl plus ethaboxam can be effective in reducing the probability of oomycete isolation from soybean roots.
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