P.L. Pusey scite author profile

The application of ultraviolet light (UV-C, 254 nm) hormesis on fruits and vegetables to stimulate beneficial responses is a new method for controlling storage rots and extending the shelf-life of fruits and vegetables. The present study was aimed at treating tomatoes (Lycopersicon esculentum) with different UV-C dosages (1.3 to 40 KJ/m2) to induce resistance to black mold (Alternaria alternata), gray mold (Botrytis cinerea), and Rhizopus soft rot (Rhizopus stolonifer). These diseases were effectively reduced when tomatoes were inoculated following UV-C irradiation. UV-C treated tomatoes were firmer in texture and less red in color than the control tomatoes, indicating a delay in ripening. Slower ripening and resistance to storage rots of tomatoes are probably related. The positive effect of UV-C on tomatoes decreased as treatments were performed at stages of increased ripeness.

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Production and Partial Characterization of Antifungal Substances Antagonistic toMonilinia fructicolafromBacillus subtilis

McKeen¹,

Reilly²,

Pusey³

1986

Phytopathology

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The germicidal and hormetic effects of UV-C light on reducing brown rot disease and yeast microflora of peaches

Stevens

Khan

et al. 1998

Crop Protection

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Epiphytic Bacteria and Yeasts on Apple Blossoms and Their Potential as Antagonists of Erwinia amylovora

Pusey¹,

Stockwell²,

Mazzola³

2009

Phytopathology®

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Apple blossoms were sampled for indigenous epiphytic populations of culturable microorganisms during different stages of bloom at two locations in central Washington State and one site in Corvallis, OR. Frequencies and population sizes of bacteria on stigmas of apple were lower in Washington than at Corvallis, where average relative humidity was higher and possibly favored greater colonization; however, bacteria at Corvallis were mainly pseudomonads, whereas those in Washington were diverse, composed of several genera. In Washington, yeast as well as bacteria were isolated from both stigmatic and hypanthial surfaces. Sampled blossoms were processed immediately to assess microbial populations, or after a 24-h incubation at 28 degrees C and high relative humidity, which broadened the range of detectable taxa evaluated as potential antagonists. Identifications were based on fatty acid methyl ester profiles and rDNA sequence analyses. Yeasts or yeastlike organisms were detected at frequencies similar to or greater than bacteria, particularly in hypanthia. When microbial isolates were tested for their capacity to suppress Erwinia amylovora on stigmas of detached crab apple flowers, many were ineffective. The best antagonists were the bacteria Pantoea agglomerans and Pseudomonas spp. and a few yeasts identified as Cryptococcus spp. Further evaluation of these taxa on flowers could lead to the discovery of additional biocontrol agents for fire blight.

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P.L. Pusey

Postharvest Biological Control of Stone Fruit Brown Rot byBacillus subtilis

Application of Ultraviolet-C Light on Storage Rots and Ripening of Tomatoes

Production and Partial Characterization of Antifungal Substances Antagonistic toMonilinia fructicolafromBacillus subtilis

The germicidal and hormetic effects of UV-C light on reducing brown rot disease and yeast microflora of peaches

Epiphytic Bacteria and Yeasts on Apple Blossoms and Their Potential as Antagonists of Erwinia amylovora

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