Assessing the suppressive effects of biopesticides and phosphite on common scab development in potatoes

Potato common scab (CS) is caused by several saprophytic bacteria of the genus Streptomyces, including Streptomyces scabies. Various methods have been investigated to control CS, but their efficiency is usually low. Biopesticide formulations, including bacteria from the Bacillus spp., are increasing...

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Published in:Biocontrol science and technology 2020-10, Vol.30 (10), p.1133-1149
Main Authors: Coffin, Robert H., Borza, Tudor, Alam, Mohammed Zahidul, Liu, Yingyi, Desai, Falguni, Xi, Yupei, Zhang, Zhizhong, Beaton, Brian, Goyer, Claudia, Coffin, Joyce, Wang-Pruski, Gefu
Format: Article
Language:English
Subjects:
Bacillus
Bacteria
biopesticides
Cell size
Cultivars
Cytology
disease incidence and severity
Fungicides
Microflora
Morphology
Mountains
Nickel
Parameters
Pesticides
phosphite
Pits
Potato common scab
Potatoes
Streptomyces
suberised phellem cells
Thickness
Tubers
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Summary:Potato common scab (CS) is caused by several saprophytic bacteria of the genus Streptomyces, including Streptomyces scabies. Various methods have been investigated to control CS, but their efficiency is usually low. Biopesticide formulations, including bacteria from the Bacillus spp., are increasingly used to control soil pathogens. Two Bacillus-based products, Double Nickel 55 TM and Microflora PRO TM , and the phosphite-based fungicide Phostrol TM , alone or in combination, were examined to determine their effects on CS development on tubers of the potato cultivars Red Pontiac, Prospect, Green Mountain, and Goldrush. CS disease incidence and severity were assessed using 4 parameters: percentage of tuber area covered by CS, necrotic areas, the number of deep pits and of shallow pits. The effects of treatments on tuber periderm morphology were assessed by determining the number of suberised cell layers and the thickness of suberised cell layers. Cultivar Goldrush performed much better than the other three cultivars, in all parameters scored. Among the six treatments, only Double Nickel 55 TM  + Phostrol TM reduced CS more consistently. Suberised cell size, shape, arrangement, number of layers, and phellem thickness, were found to vary largely across cultivars. A thicker phellem, but not the number of cells in the phellem, was found to be associated with improved resistance to CS. Treatments had limited effect on the number of layers of suberised cells and phellem thickness and these effects seemed to be cultivar specific. Overall, Double Nickel 55 TM and Microflora PRO TM were found to augment the number of suberised cell layers.
ISSN:0958-3157
1360-0478
DOI:10.1080/09583157.2020.1797631