Potassium, calcium, and zinc phosphites on white mold control in soybean

AUTOR(ES)
FONTE

Bragantia

DATA DE PUBLICAÇÃO

2020-09

RESUMO

ABSTRACT White mold, caused by Sclerotinia sclerotiorum, is one the most devastating disease on soybean worldwide. Considering the potential of phosphites to protect plants against different diseases, this study investigated the possibility of using potassium (K), calcium (Ca), and zinc (Zn) phosphites for white mold control in soybean. The contact effect of the phosphites on fungal mycelial growth was evaluated in vitro. In the greenhouse study, plants were inoculated with S. sclerotiorum at 48 h after being sprayed with water (control), K, Ca, and Zn phosphites by using an agar plug (0.8 cm2) containing fungal mycelia. Lesion area of white mold and chlorophyll (Chl) a fluorescence parameters were evaluated on the leaflets of plants at 96 h after inoculation. The Chl a parameters were also evaluated in noninoculated leaflets at the same time. Fungal mycelial growth was abundant in the absence of phosphites, but inhibited in the presence of the three phosphites indicating their direct effect. The lesion area in the leaflets of plants sprayed with K, Ca, and Zn phosphites were 90, 98, and 68% lower, respectively, compared to plants sprayed with water. The functionality of the photosynthetic apparatus was more preserved on the leaflets of plants sprayed with phosphites due to the lower lesions size, especially for the Ca phosphite. In conclusion, the K, Ca, and Zn phosphites were effective in reducing white mold symptoms mainly through a contact effect on the fungal mycelial growth.

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