Efficacy of fungicides to manage onion stunting caused by Rhizoctonia spp. in the Columbia Basin of Oregon and Washington, 2011-2012

Authors: SHARMA-POUDYAL, DIPAK - Washington State University; Paulitz, Timothy; Porter, Lyndon; EGGERS, JORDAN - Oregon State University; HAMM, PHILLIP - Oregon State University; DU TOIT, LINDSEY - Washington State University

Submitted to: Plant Disease Management Reports
Publication Type: Peer Reviewed Journal
Publication Acceptance Date: 2/20/2013
Publication Date: 3/11/2013
Citation: Sharma-Poudyal, D., Paulitz, T.C., Porter, L., Eggers, J., Hamm, P.B., Du Toit, L. 2013. Efficacy of fungicides to manage onion stunting caused by Rhizoctonia spp. in the Columbia Basin of Oregon and Washington, 2011-2012 Plant Disease Management Reports. No. 7:V047.

Interpretive Summary: Onion stunting, caused by Rhizoctonia spp., has become a significant soilborne problem of onion bulb crops planted in sandy soils in the semi-arid Columbia Basin of Oregon and Washington following winter cereal cover crops. Research on the epidemiology and management of this disease is in progress. Cover crops such as winter wheat are essential to protect onion seedlings from wind- and sand-blasting in the spring. Pre-plant, banded, incorporated fungicide sprays were evaluated in commercial onion bulb crops grown in rotation with winter cereal cover crops in sandy soils in the Columbia Basin, to manage onion stunting caused by Rhizoctonia spp. . Based on these large-scale, grower-cooperator field experiments in the Columbia Basin, a pre-plant, banded and incorporated application of Quadris may effectively reduce onion stunting in terms of incidence of stunted patches, cumulative area of stunted patches, severity of stunting, and patch severity index.

Technical Abstract: Onion stunting, caused by Rhizoctonia spp., has become a significant soilborne problem of onion bulb crops planted in sandy soils in the semi-arid Columbia Basin of Oregon and Washington following winter cereal cover crops. Research on the epidemiology and management of this disease is in progress. Cover crops such as winter wheat are essential to protect onion seedlings from wind- and sand-blasting in the spring. Pre-plant, banded, incorporated fungicide sprays were evaluated in commercial onion bulb crops grown in rotation with winter cereal cover crops in sandy soils in the Columbia Basin, to manage onion stunting caused by Rhizoctonia spp. Standard agronomic practices for the region were used by each grower-cooperator, and each field was irrigated by center pivot. Each experiment was set up as a randomized complete block design with six replications/treatment, unless stated otherwise. In 2011, the efficacy of each of two rates (9.5 and 19.0 fl oz/acre) of Quadris (azoxystrobin) application was compared with non-treated control plots in a field near Paterson, WA. The fungicide was applied in a 6 in. wide band over the bed, and incorporated 4 in. into the soil with a rototiller a day prior to planting onion seed of the cultivar Mercury. In 2012, two trials were completed. In one of the 2012 trials, Quadris (19.0 fl oz/acre) and Fontelis (penthiopyrad, 24.0 fl oz/acre) were applied in the same manner as in the 2011 trial, and compared with non-treated control plots in a field near Paterson, WA. Each plot was 12 beds wide (each bed 44 in. wide and planted with four rows of seed of the onion cv. Mercury) and the length of the entire field (approximately 0.5 miles). In the second 2012 trial, a pre-plant, banded, incorporated application of each of Quadris (12.0 fl oz/acre), Quadris (12.0 fl oz/acre) + Rhizoburst (1,280 fl oz/acre, 10-34-0 + 0-0-19 + humic acid), and ReZist (1,280 fl oz/acre, Cu 1.75%, Mn 1.75%, and Zn 1.75%, with polyamines and natural plant extracts) was compared with non-treated control plots in a field near Boardman, OR with four replicate plots/treatment. Each treatment was sprayed on the top of the bed and incorporated 4 to 5 in. into the soil with a rototiller a day prior to onion seeding. In this trial, the number of beds/plot ranged from 8 to 12, each bed was 40 in. wide with two double-rows of onion seed of the cv. Tamara, and the length of each plot was the radius of the field (approximately 0.25 miles). For each experiment, the number of patches of stunted onion plants, area of stunted patches, and rating of severity of stunting in the patches were recorded. In 2011, ratings were taken at the five true-leaf stage; and in 2012, ratings were done at the five and seven true-leaf stages. Severity of onion stunting was rated on a 1-3 scale, where: 1 = a majority of the plants in the patch were stunted < 33%, 2 = most plants were stunted 33 to 66%, and 3 = most plants were stunted > 66% compared to adjacent healthy plants. Plot size was standardized in the 2012 trials because of variation in plot sizes. Analyses of variance were computed for each experiment using Proc GLM in SAS (Version 9.2; SAS Institute, Cary, NC) and treatment means were compared using Fisher’s protected least significant difference (LSD). In the 2011 trial in Paterson, WA, plots treated with either rate of Quadris (9.5 or 19.0 fl oz/acre) had a significant reduction in the number of patches of stunted plants, patched area, average severity of stunting, and patch severity index compared to the non-treated control plots (Table 1). Plots treated with Quadris at 9.5 and 19.0 fl oz/acre had 51 and 57% fewer patches, 60 and 68% smaller cumulative patched area, 19 and 23% less severe stunting, and 76 and 81% reduced patch severity index, respectively, compared to non-treated control plots. There was no significant difference in disease ratings