Manjunath Hubballi scite author profile

Ten isolates of Colletotrichum gloeosporioides were collected from different noni growing areas of Tamil Nadu, Karnataka and Kerala in India and their pathogenicity was proved under glass house conditions. Effect of different pH levels, temperature, light intensity and media were tested against the growth of C. gloeosporioides under in vitro. The results indicated that the growth of C. gloeosporioides was maximum in pH range of 6.50-7.00 and temperature range of 25-308C. Exposure of the fungus to alternate cycles of 12 h light and 12 h darkness resulted in the maximum mycelial growth of C. gloeosporioides compared to the 24 h exposure to continuous light and 24 h exposure to continuous dark. Among the different media tested, host leaf extract medium supported significantly the maximum growth of all the 10 isolates of C. gloeosporioides followed by potato dextrose agar. Further, the strains were found to vary morphologically between the isolates under the study.

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Characterization of Puccinia horiana causing Chrysanthemum rust disease and its management by altering planting date and foliar application of fungicide

Munilakshmi¹,

B²,

Hubballi

et al. 2023

Indian Phytopathology

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Genetic variation of infection degrees to blast disease among rice genotypes

Hubballi

Pandey

Giriyappa

2021

Journal of Phytopathology

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The blast of rice caused by Pyricularia oryzae is a disease prevalent throughout the world. The pathogen overwintering in rice straw and stubble for many years makes disease mitigation difficult. Among all available methods of managing disease, the use of resistant varieties is an economical approach. The objective of this study was to identify genotypes with slow‐blasting that could be used in breeding resistant hybrids. A total of 25 rice genotypes with different combinations of resistance genes were tested in 2013 and 2014 for rice blast resistance. The reactions of genotypes varied from highly resistant to highly susceptible. Of the 25 genotypes tested in 2013, only three were highly resistant to leaf blast (disease score: 1), while Rasi and RamanadStr3 were resistant (disease score: 2). Genotypes Co39 and HR12 were highly susceptible recording a disease score of 8 and the remaining genotypes were classified as susceptible with scores ranging from 5 to 7. In 2014, only Tetep genotype was found highly resistant to leaf blast with disease score ‘1’, and genotypes NILA57, RamanadStr3, Shia‐tia‐tsao, IR64, Rasi, and Tadukan were resistant with disease scores ranging from 2 to 3. The remaining genotypes were susceptible to leaf blast with disease scores of 4–7 and two genotypes Co39 and HR12 were highly susceptible to leaf blast (disease scores: 8–9). For neck blast, all genotypes were resistant (disease scores: 0–3) in both years except for CO39 and HR12, which were recorded as moderately resistant in 2013 and resistant in 2014. Based on 2 years of data on the apparent rate of infection, area under the disease progress curve, and components of slow‐blasting, the genotypes viz., IR64, Tadukan, Rasi, Tetep, and RamanadStr3 were identified as slow‐blasting types. Hence, these genotypes can be harnessed to develop blast‐resistant varieties in rice breeding programmes.

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