Diversity of Asperisporium caricae (Speg.) Maubl. isolates causing papaya black spot disease
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https://doi.org/10.58993/ijh/2024.81.4.5Keywords:
Asperisporium caricae, dendrogram, isolates, radial growth, sporulation.Issue
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Papaya black spot disease is an emerging concern in Karnataka, accompanied by a lack of knowledge regarding the associated pathogen. This study focuses on assessing the cultural and molecular variability of ten Asperisporium caricae isolates responsible for causing papaya black spot disease. The isolates underwent evaluation on twelve distinct solid media, with recorded observations on colony characteristics and sporulation. Among the ten isolates, three exhibited excellent radial growth, five displayed good growth, one had moderate growth, and one isolate demonstrated poor radial growth. All cultural media were subjected to sporulation testing, revealing that two isolates exhibited fair sporulation, five displayed sparse sporulation, and the remaining three showed no sporulation. PCR amplification using ITS 4 and ITS 5 resulted in a 590bp amplicon for all ten A. caricae isolates. Dendrogram clustering grouped the isolates into two clades, where the AcG isolate belonged to clade I, and AcH, AcKa, AcKu, AcMa, AcMU, AcMy, AcNa, AcR, and AcV formed clade II. Notably, the AcG isolate demonstrated lower similarity (62%) compared to other isolates. AcH and AcKu isolates exhibited the highest similarity (85%), followed by AcMa and AcMu (78.5%). The resemblance between AcH and AcKu was evident in certain cultural characteristics as well.Abstract
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Cumagun, C.J.R. and Padilla, C. L. 2007. First record of Asperisporium caricae causing black spot of papaya in the Philippiness. Plant Dis. Notes, 2: 89-90. Doyle, J. J. and Doyle, J. L. 1987. A rapid DNA isolation procedure for small quantities of leaf tissue. Phytochem Bull, 19: 11-15. Gabrekiristos, E. and Dagnew, A. 2020. A newly emerging disease of papaya in Ethiopia: Black spot (Asperisporium caricae) disease and management options. J. Plant Pathol. Microbiol. 11: 488. Gonsalves, D. 1998. Control of papaya ring spot virus in papaya: a case study. Annu Rev Phytopathology, 36: 415–437. doi: 10.1146/annurev.phyto.36.1.415. Joshi, A. J., Souframanien, R., Chandand, S. E. and Pawar. 2006. Genetic diversity study of Cercospora canescens (Ellis & Martin) isolates the pathogen of Cercospora leaf spot in legumes. Curr. Sci. 90(4): 564-68. Patel, P. S. 2019. Studies on black spot of papaya (Carica papaya L.) caused by Asperisporium caricae (Speg.) Maubl. M. Sc. (Agri) Thesis, University of Agricultural Sciences, Bengaluru. Patel, P. S., Kumar V.B.S., Kumar, N. K. 2022. Papaya Black Spot Disease Caused by Asperisporium Caricae (Speg.) Maubl. Food and Sci. Rep. 3: 59-63. Patel, P. S., Kumar VBS, Kumar, N. 2023. Inhibitory Effect of Bioagents, Plant Extracts and Fungicides on the in vitro Growth of Asperisporium caricae (speg.) Maubl causing Papaya Black Spot Disease. Biological Forum – An Int. J. 15: 47-55. Patel, P. S., Kumar, S. V. B., Kumar, N. K., Palanna, K. B., Chandrappa and Lingraj, B. 2019. Eco-friendly post-harvest management of papaya black spot disease caused by Asperisporium caricae. Int. J. Chem. Stud. 7: 68-71. Patel, P. S., Kumar V. B. S., Kumar, N. K, Chandrappa and Lingraj, B., 2020. Survey on black spot of papaya in major papaya growing areas of Southern Karnataka. Int. J. Chem. Stud. 8:1795-99. Reddikumar, M. R., Krishna, T. G. and Reddy, K. R. 2015. Survey and Prevalence of Asperisporium Caricae, incitant of black leaf spot of papaya and evaluation of certain new fungicide. Int. J. Res. Stud. Agric. Sci. 1:10-11. Rohlf, F. J. 1997. NTSYS-pc Version. 2. 02i Numerical Taxonomy and Multivariate Analysis System. Applied Biostatistics Inc., Exeter Software, Setauket, New York. Santos, M. C., Barreto, M. 2003. Epidemiological study of papaya smallpox in cultivars submitted to fungicide treatment. Summa Phytopathol., 29: 141-46. Shantamma, S. G., Mantur, S. C., Chandra, S. K., Rangaswamy, T.and Bheemanagouda P, 2018. Status of black spot of papaya (Asperisporium caricae): A New Emerging Disease. Int. J. Curr. Microbiol. Appl. Sci. 7:309-14. Shetty, S., Kumar., S.V.B., Chandrappa., Yogananda., B and Kumar., N.K., 2021. A review of papaya black spot - A fungal disease (Asperisporium caricae). Mysore J. Agric. Sci. 55: 1-11. Shreedevasena, S., Manoranjitham, S. K., Rajendran, L. and Parimaladevi, R. 2019. Detection and molecular characterization of black spot disease of papaya (Carica papaya L.) incited by Asperisporium caricae (Speg.) Maubl. Int. J. Curr. Microbiol. Appl. Sci. 8: 511-17. Taj, A. and Kumar, V.B.S., 2013. Sensitivity of Asperisporium caricae Sacc. causing black spot of papaya against botanicals, bioagents and fungicides. Envi and Ecol. 31: 1165-168. Ullasa, B. A., Sohi., H. S. and Rao, N. R. 1978. Occurrence of Asperisporium leaf spot of papaya in India. Curr. Sci. 47: 233-34. Wall, M. M. 2006. Ascorbic acid, vitamin A, and mineral composition of banana (Musa sp.) and papaya (Carica papaya) cultivars grown in Hawaii. J. Food. Compos. Anal. 19: 434– 45.
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