Xuemei Zhang's research while affiliated with Southern University Agricultural Research and Extension Center and other places

Anaerobic soil disinfestation (ASD) is a promising alternative to chemical fumigation for controlling soilborne plant pathogens and weeds. This study investigated the impact of brewer’s spent grain (BSG), a locally available carbon source, on various weed species and the oomycete pathogen Pythium irregulare in ASD. Two greenhouse studies were conducted using BSG and yeast at full and reduced rates in a completely randomized design with four replicates and two runs per study. In both studies, ASD treatments significantly decreased the seed viability of all weed species and the Pythium irregulare inoculum, while promoting higher cumulative anaerobicity compared to the non-treated control. The addition of yeast had a notable effect when combined with BSG but not with rice bran. When used in reduced carbon rates, yeast supplementation enhanced the efficacy of BSG, providing comparable control to the full rate for most weed species, including redroot pigweed, white clover, and yellow nutsedge. Interestingly, no ASD treatment affected the soil temperature. Furthermore, BSG treatments caused higher concentrations of volatile fatty acids compared to ASD with rice bran and the non-treated control. This finding suggests that the inclusion of yeast in ASD shows potential for reducing the carbon input required for effective soil disinfestation.

Pythium diseases are common in hydroponic crop production and often threaten the greenhouse production of cucumber, tomato, lettuce, and other crops. In tobacco transplant production, where float-bed hydroponic greenhouses are commonly used, Pythium diseases can cause up to 70% seedling loss. However, there have been few comprehensive studies on the composition and diversity of Pythium communities in tobacco greenhouses. In a 2017 survey, 360 Pythium isolates were collected from 41 tobacco greenhouses across four states (VA, MD, GA, and PA). Samples were collected from one to seven sites within each greenhouse. Twelve described Pythium species were identified (P. adhaerens, P. aristosporum, P. attrantheridium, P. catenulatum, P. coloratum, P. dissotocum, P. inflatum, P. irregulare, P. myriotylum, P. pectinolyticum, P. porphyrae, and P. torulosum) among the isolates obtained. Approximately 80% of the surveyed greenhouses harbored Pythium in at least one of four sites (bay water, tobacco seedlings, weeds, and center walkways) within the greenhouse. The structure of Pythium communities was diverse among the surveyed greenhouses: multiple Pythium species coexisted in the same sample, and multiple species were present within the same greenhouse, at different sites. This diversity appeared to be influenced by the sampling sites within the surveyed tobacco greenhouses, sample type, and sampling time. Intraspecific variation may also exist among the P. dissotocum populations found in this study. These results uncovered the complexity and diversity of the Pythium communities within float tobacco transplant greenhouses, which could play a role in the variation in Pythium diseases observed in these production systems.

Pythium root rot is a common disease that can threaten tobacco seedling production in greenhouses. However, management tools are limited in tobacco transplant production greenhouses. To identify additional Pythium control options, oomyceticide treatments (ethaboxam, mefenoxam, and copper ethanolamine complex) and nonoomyceticide (ultraviolet light and copper ion) water treatments were compared with etridiazole and an untreated control on TN 90LC tobacco seedlings inoculated with Pythium myriotylum in greenhouses. All the treatments in oomyceticide trials were applied to the bay water once before inoculation, when seedling roots had extended into the water. The inoculum was applied immediately before seeding in nonoomyceticide trials, in which etridiazole was applied to bay water once, 2 weeks after seeding, as a positive control. Nonoomyceticide treatments were applied three times: 24 h before, 2 weeks after, and 4 weeks after seeding. At the end of the tobacco transplant production season, ethaboxam and mefenoxam significantly (P < 0.05) reduced root rot incidence and severity by as much as 100%, compared with the untreated control. Ethaboxam and mefenoxam also significantly (P < 0.05) reduced oospores produced in infected root tissues while significantly (P < 0.05) increasing root length and weight. Ultraviolet radiation and copper ion treatments had no significant effects on tobacco seedling root length or weight compared with the untreated control, although the copper ion treatments significantly (P < 0.05) reduced root rot severity and oospores produced in root tissues. Similar to etridiazole, ethaboxam and mefenoxam consistently reduced the area under the disease progress curve (AUDPC) of Pythium root rot, but copper ion treatments only reduced AUDPC significantly (P < 0.05) in one trial.