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The Korean Society of Plant Pathology (한국식물병리학회)
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Cultural, Morphological and Pathological Variation in Indian Isolates of Ascochyta rabiei, the Chickpea Blight Pathogen

  • Basandrai, A.K. (Hill Agricultural Research and Extension Centere) ;
  • Pande, S. (International Crops Research Institute for the Semi-Arid Tropics) ;
  • Kishore, G. Krishna (International Crops Research Institute for the Semi-Arid Tropics) ;
  • Crouch, J.H. (International Crops Research Institute for the Semi-Arid Tropics) ;
  • Basandrai, D. (Hill Agricultural Research and Extension Centere)
  • Published : 2005.09.01
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Abstract

Cultural, morphological and pathogenic variation in Indian isolates of Ascochyta rabiei, the causal agent of blight of chickpea, was investigated. Fungal isolates representative of seven agroclimatic regions in north western plain zones (NWPZ) of India showed variation in colony colour as mouse gray with green hue, light mouse gray with slate gray centre and gray with dark brown centre, when grown on chickpea dextrose agar (CDA). Conidiomatal color of the isolates varied from brown to slate gray and black. The number of conidiomata and conidia formed on CDA ranged from 49.7 to 90.7 and $5.5\times10^4\;to\;3\times10^5cm^{-2}$, respectively. The size of conidiomata and conidia of A. rabiei isolates varied from $274\times232{\mu}m\;to\;156\times116{\mu}m$, and from $14.0\times6.2{\mu}m\;to\;10.7\times4.6{\mu}m$, respectively. Fourteen A. rabiei isolates from the seven agroclimatic regions of NWPZ were evaluated for their virulence on 180 chickpea genotypes in controlled environment. Cluster analysis based on the disease rating on a 1-9 scale indicated higher similarity coefficient (> 0.65) between isolates from different agroecological regions, while few isolates from the same region had less similarity. The 14 isolates were grouped into eight pathotypes at > 0.5 similarity coefficient. Sixteen genotypes were identified as probable differentials to distinguish A. rabiei isolates.

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References

  1. Ambardar, V. K. and Singh, S. K. 1996. Identification and elucidation of Ascochyta rabiei isolates of chickpea in Jammu. Indian J. Mycol. Plant Pathol. 26:4-8
  2. Armstrong, C. L., Chongo, G., Gossen, B. D. and Duczek, L. J. 2001. Mating type distribution and incidence of the teleomorph of Ascochyta rabiei (Didymella rabiei) in Canada. Can. J. Plant Pathol. 23: 110-113 https://doi.org/10.1080/07060660109506917
  3. Chongo, G., Gossen, B. D., Bushwaldt, I., Adhikari, T. and Rimmer, S. R. 2004. Genetic diversity of Ascochyta rabiei in Canada. Plant Dis. 88:4-10 https://doi.org/10.1094/PDIS.2004.88.1.4
  4. Jan, H. and Weise, M. V. 1991. Virulence forms of Ascochyta rabiei affecting chickpea in the Palouse. Plant Dis. 75:904-906 https://doi.org/10.1094/PD-75-0904
  5. Haware, M. P. 1987. Occurrence of perfect state of Ascochyta rabiei in Syria. Int. Chickpea Newslett. 17:29-30
  6. Kaiser, W. J. 1997. Inter- and intranational spread of Ascochyta pathogens of chickpea, faba bean, and lentil. Can. J. Plant Pathol. 19:215-224 https://doi.org/10.1080/07060669709500556
  7. Malhotra R. S., Baum, M., Udupa, S. M., Bayaa, B., Kabbahen, S. and Khalaf, G. 2003. Ascochyta blight resistance in chickpea:Present status and future prospects. In: Proceedings, International Symposium on Chickpea Research for the Millennium. RAU, Raipur, Chhatisgarh. pp 217-226
  8. Mmbaga, M. T. 1997. Pathogenic variability of Ascochyta rabiei and Ascochyta blight resistance in chickpea. In: Proceedings, Symposium on Application of DNA fingerprinting for crop improvement: Marker-assisted selection of chickpea for sustainable agriculture in the dry areas, ed. by S. M. Udupa and F. Weigand. ICARDA, Aleppo, Syria. pp 222
  9. Morjane, H., Geistlinger, J., Kahl, G., Harrabi, M. and Halila, H. 1997. Genotypic diversity of Tunisian Ascochyta rabiei on Micro- and Macro-geographical scales. In: DNA Markers and Breeding for Resistance to Ascochyta blight in Chickpea, ed. by S. M. Udupa and F. Weigand. ICARDA, Aleppo, Syria. pp. 79-97
  10. Nene, Y. L. and Reddy, M. V. 1987. Chickpea diseases and their control. In: The Chickpea, ed. by M. C. Saxena and K. B. Singh. CAB International. Oxon, UK. pp. 233-270
  11. Pande, S., Siddique, K. H. M., Kishore, G. K., Baaya, B., Gaur, P. M., Gowda, C. L. L., Bretag, T. and Crouch, J. H. 2005. Ascochyta blight of chickpea: Biology, pathogenicity and disease management. Australian J. Agric. Res. 56: (in press)
  12. Porta-Pulgia, A. 1992. Variability in Ascochyta rabiei. In: Disease Resistance Breeding in Chickpea, Proceedings, Consultative meeting on breeding for Disease Resistance in Kabuli Chickpea, ed. by K.B. Singh and M.C. Saxena, ICARDA, Allepo, Syria
  13. Reddy, M. V. and Kabbabeh, S. 1985. Pathogenic variability and race establishment of Ascochyta rabiei in Syria and Lebanon. Plant Dis. 69:177
  14. Rohlf, F. J. 1998. NTSYS-pc: Numerical Taxonomy and Multivariate Analysis System. Version 2.0. Applied Biostatistics Inc. New York
  15. Sajjad, H. and Qureshi, 1992. Pathogenic behaviour of Ascochyta rabiei isolates on different cultivars of chickpea in Pakistan. In: Disease Resistance Breeding in Chickpea, ed. by Singh, K. B. and Saxena, M. C. ICARDA, Allepo, Syria. pp. 43-46
  16. Sarwar, N., Sarwar, M. and Jamil, F. F. 2000. Characterization of Ascochyta rabiei isolates using random amplified polymorphic DNA (RAPD) technique. Pakistan J. Phytopathol. 12:18-25
  17. Singh, G. and Sharma, Y. R. 1998. Ascochyta blight of chickpea. In: IPM System in Agriculture, ed. K. Upadhyay, K. G. Mukerji and R. L. Rajak. Aditya Books Private Ltd., New Delhi, India. pp. 164-195
  18. Singh, R. and Pal, M. 1993. Comparative growth and sporulation of Ascochyta rabiei races on different media and temperature. Indian J. Mycol. Plant Pathol. 23:200-203
  19. Vir, S. and Grewal, J. S. 1974. Physiological separation in Ascochyta rabiei the causal organism of gram blight. Indian Phytopath. 27:209-211

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