Abstract

Sixty-nine storage onion (Allium cepa) cultivars (seven white, five red, and 57 yellow cultivars) were evaluated in the Washington State University Onion Cultivar Trials in the semiarid Columbia Basin of central Washington in 2007-08 and/or 2008-09. Each cultivar was inoculated with Enterobacter cloacae, cured, stored under commercial storage conditions, and evaluated for bacterial storage rot symptoms approximately 4.5 months after storage. Noninoculated bulbs of each cultivar served as a control treatment in each experiment. In addition, bulbs injected with water served as a second control treatment in the 2008-09 experiment. Inoculation of onion bulbs with E. cloacae resulted in significantly higher incidence and severity of Enterobacter bulb decay compared to noninoculated bulbs and bulbs injected with sterile water. For bulbs inoculated with E. cloacae, mean severity of bacterial storage rot per cultivar ranged from 5 to 19% of the cross-section evaluated for each onion bulb in 2007-08 and from 9 to 29% in 2008-09. For noninoculated bulbs, mean severity ranged from 0 to 1% in 2007-08 and 0 to 3% in 2008-09. For bulbs injected with water in the 2008-09 experiment, severity of bulb rot ranged from 0 to 10% per cultivar, with four cultivars (OLYX05-26, RE-E, Redwing, and Talon) displaying bulb rot ratings significantly greater than 0%. For the 33 cultivars included in both experiments, a significant correlation in bulb rot severity ratings was detected for the 2007-08 versus 2008-09 experiments (r = 0.43 at P = 0.013). Redwing, Red Bull, T-433, Centerstone, and Salsa had low severity ratings in both experiments; whereas Montero, OLYS05N5, Caveat, and Granero had severe bulb rot ratings in both experiments. The results demonstrate that it should be possible to select for increased resistance to Enterobacter bulb decay in storage onion cultivars.

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