Effects of non–thermal plasmas on seed-borne Diaporthe/Phomopsis complex and germination parameters of soybean seeds.
Date
2018
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Abstract
Diaporthe/Phomopsis (D/P) is a complex of seed-borne fungi that severely affects soybean (Glycine max (L.)
Merrill), one of the most important crops worldwide. Non-thermal plasma treatment is a fast, economic and
ecological friendly technology that can destroy seed-borne fungi and improve seed quality. Soybean seeds were
exposed for 1, 2 and 3 minutes to a quasi-stationary (50 Hz) dielectric barrier discharge plasma operating at
atmospheric pressure air. Different carrying gases (O2 and N2) and barrier-insulating materials were used. In
this work we focused on the ability of plasma to control D/P in soybean seeds and to enhance seed quality. To
support these results, different antioxidant enzymes (catalase, superoxide dismutase and guaiacol peroxidase),
lipid peroxidation and phytohormones (ABA and AIA) content in seeds were evaluated. The results
demonstrated reductions of 29% in catalase activity and increments of 30% in glutathione content after plasma
treatment, reversing the oxidative damage caused by D/P fungi. This eco-friendly technology improved
soybean seed quality and, for the first time, its efficiency in controlling soybean seed-borne pathogen fungi that
colonize the inside of seeds was demonstrated.
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Keywords
Non-thermal plasma., Diaporthe/Phomopsis complex., Glycine max., Seed quality.
Citation
Innovative Food Science and Emerging Technologies.
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