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Phytotoxicity of Fungicide Coated Sugar Beet Seed Depends on Growth Condition
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Fungicide-coated seed protects sugar beet plants from soilborne diseases, but seedlings coming from coated seeds often encounter phytotoxicity under field conditions. To understand the phytotoxic impact, fungicide-coated seed and the uncoated seed of two cultivars were sown with holes or no holes in plastic trays in greenhouse conditions. Our study demonstrated without fungicide coat on sugar beet seed and holes in plastic trays resulted in just above 90% germination. While fungicide-coated seed and no hole’s underneath traysshowed the lowest germination (>20%). Fungicide-coated seed, having holes in plastic trays showed 90% germination. No fungicide coat on seed, having no hole’s underneath trays showed 70% germination. We further estimated the percentage of stunted seedlings in both cultivars. Fungicide-coated seed with holes underneath plastic trays showed above 5% stunted seedlings while fungicide-coated seed, having no hole’s underneath trays- showed the highest percentage of stunted seedlings (>10%) in both cultivars. In summary, our data demonstrated that the phytotoxicity of fungicide-coated sugar beet seed depends on growth conditions.
Title: Phytotoxicity of Fungicide Coated Sugar Beet Seed Depends on Growth Condition
Description:
Fungicide-coated seed protects sugar beet plants from soilborne diseases, but seedlings coming from coated seeds often encounter phytotoxicity under field conditions.
To understand the phytotoxic impact, fungicide-coated seed and the uncoated seed of two cultivars were sown with holes or no holes in plastic trays in greenhouse conditions.
Our study demonstrated without fungicide coat on sugar beet seed and holes in plastic trays resulted in just above 90% germination.
While fungicide-coated seed and no hole’s underneath traysshowed the lowest germination (>20%).
Fungicide-coated seed, having holes in plastic trays showed 90% germination.
No fungicide coat on seed, having no hole’s underneath trays showed 70% germination.
We further estimated the percentage of stunted seedlings in both cultivars.
Fungicide-coated seed with holes underneath plastic trays showed above 5% stunted seedlings while fungicide-coated seed, having no hole’s underneath trays- showed the highest percentage of stunted seedlings (>10%) in both cultivars.
In summary, our data demonstrated that the phytotoxicity of fungicide-coated sugar beet seed depends on growth conditions.
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