Organic management of root rot disease in rajmah through liquid bioformulation

Authors

  • Pranjal Kr Kaman J Scientist, Plant Pathology, Assam Agricultural University, Jorhat, Assam
  • Ritu Ranjan Taye Scientist, Entomology, AAU-Zonal Research Station, Karimganj, Assam
  • Safiqual Hussain Senior Scientist, Plant Breeding and Genetics, Assam Rice Research Institute, Titabar, Jorhat, Assam
  • Muqsitur Rahman Choudhury Scientist, Soil Science, AAU-Zonal Research Station, Karimganj, Assam
  • Pranab Dutta Professor, College of Agriculture, Kyrdemkulai, Central Agricultural University, Umiam, Meghalaya

DOI:

https://doi.org/10.48165/jefa.2024.19.02.33

Keywords:

Copper-oxychloride, org-trichojal, org-metajal and org-beavurijal

Abstract

 

The field experiment conducted at Regional Agricultural Research Station, Karimganj, Assam (now named as AAU- Zonal Research Station) for organic management of root rot disease in Rajmah during the year 2019-20 showed lowest disease incidence and disease index when soil application of combined liquid bio-formulations (Org-Trichojal + Org-Metajal+ Org- Beavurijal) was done as compared to copper oxychloride. Plant growth parameters like plant height, the number of pods per plant and other yield attributing characters was found to be highest when soil application of combined liquid bio formulations (Org-Trichojal + Org-Metajal + Org-Beavurijal) was applied. 

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References

Abd-El-Khair, H., Khalifa, R. K. M. and Haggag, K. H. (2010). Effect of Trichoderma species on damping off diseases incidence, some plant enzymes activity and nutritional status of bean plants. J Am Sci, 6(9), 486-497.

Abhilash, P. C., Dubey, R. K., Tripathi, V., Gupta, V. K., and Singh, H. B. (2016). Plant growth-promoting microorganisms for environmental sustainability. Trends in Biotech. 34 (11): 847-850.

Benhamou, N. and Chet, I. (1993). Hyphal interactions between Trichoderma harzianum and Rhizoctonia solani: ultrastructure and gold cytochemistry of the mycoparasitic process. Phytopath.83: 1062-1062.

Bisen, K., Keswani, C., Mishra, S., Saxena, A., Rakshit, A. and Singh, H.B. (2015). Unrealized Potential of Seed Biopriming for Versatile Agriculture. In: Nutrient Use Efficiency: From Basics to Advances. (Eds. Rakshit, A., Singh, H.B. and Sen, A.), Springer, India, pp. 193-206

Conrath, U., Pieterse, C. M. and Mauch-Mani, B. (2002). Priming in plant–pathogen interactions. Trends. Plant. Scien. 7 (5), 210-216.

Deb, L., Dutta, P., Tombisana Devi, R. K., Thakuria, D. and Majumder, D. (2022). Endophytic Beauveria bassiana can protect the rice plant from sheath blight of rice caused by Rhizoctonia solani and enhance plant growth parameters. Arch.Microbiol.204 (9): 587.

Dubey, S. C. (2003). Integrated management of web blight of urd/mung bean by bio-seed treatment. Indian Phytopath. 56 (1): 34-38.

Dubey, S. C. and Patel, B. (2001). Evaluation of fungal antagonists against Thanatephorus cucumeris causing web blight of urd and mung bean. Indian Phytopath.54: 206-9

Dubey, S. C., Aradhika, T. and Birendra, S. (2012). Combination of soil application and seed treatment formulations of Trichoderma species for integrated management of wet root rot caused by Rhizoctonia solani in chickpea (Cicer arietinum). Indian J.Agri.Scien.82 (4), 356-362.

El-Mougy N S and Abdel-Kader M. M. (2008). Long-term activity of bio-priming seedtreatment for biological control of faba bean root rot pathogens. Austra. Plant Path. 37: 464-71

Gonzalez, G, V., Portal, O.M.A. and Rubio, S.V. (2006). Review, Biology and systematic of the form genus Rhizoctonia. Spanish Journal of Agricultural Research 4: 55-79

Howell, C. R. (2003). Mechanisms employed by Trichoderma species in the biological control of plant diseases: the history and evolution of current concepts. Plant Dis, 87(1): 4-10.

Hoyos-Carvajal, L., Orduz, S. and Bissett, J. (2009). Growth stimulation in bean (Phaseolus vulgaris L.) by Trichoderma. Biol. Control. 51(3): 409-416.

Ishtiaq, S. and Raziq, F. (2006). In vitro integrated control of Rhizoctonia solani kühn with species of Trichoderma and ridomil. Sarhad J. Agri. 22: 491-5.

Kataria, H. R., and Grover, R. K. (1978). Comparison of fungicides for the control of Rhizoctonia solani causing datnping‐off of mung bean (Phaseohis aureus). Annals. Appl. Biol.88 (2): 257-263.

Kataria, H.R. and Gisi, U. (1996). Chemical Control of Rhizoctonia species. In: Rhizoctonia Species: Taxonomy, Molecular Biology, Ecology, Pathology and Disease Control. [Sneh, B., Jabaji-Hare, S., Neate, S., Dijst, G. (Eds)]. Kluwer Academic Publishers, Dordrecht, the Netherlands. pp 537-47

Keswani, C., Mishra, S., Sarma, B. K., Singh, S. P., and Singh, H. B. (2014). Unraveling the efficient applications of secondary metabolites of various Trichoderma spp. Appl.Microbiol. Biotech. 98: 533-544.

Lorito, M., Woo, S. L., Harman, G. E. and Monte, E. (2010). Translational research on Trichoderma: from'omics to the field. Ann. Rev. Phytopath. 48: 395-417.

Montealegre, J., Valderrama, L., Sánchez, S., Herrera, R., Besoain, X., & Pérez, L. M. (2010). Biological control of Rhizoctonia solani in tomatoes with Trichoderma harzianum mutants. Electron.J.Biotech.13(2): 1-2.

Nashwa, M, A., Sallam, K. A.M., Abo-Elyousr and Hassan, M.A.E. (2008). Evaluation of Trichoderma species as biocontrol agents for damping-off and wilt diseases of Phaseolus vulgaris L. and efficacy of suggested formula. Egypt. J. Phytopathol. 36: 81-93

Negi, D. S., Sharma, P. K., & Gupta, R. K. (2014). Management of root-rot complex disease and assessment of plant growth promoting characters in vegetable pea with native and commercial antagonistics through seed biopriming. Int. J. Recent. Scien. Res. 5(8): 1416-1421.

Ownley, B. H., Griffin, M. R., Klingeman, W. E., Gwinn, K. D., Moulton, J. K. and Pereira, R. M. (2008). Beauveria bassiana: endophytic colonization and plant disease control. J. Inver. Patho. 98(3): 267-270.

Pan, S. and Das, A. (2011). Control of cowpea (Vigna sinensis) root and collar rot (Rhizoctonia solani) with some organic formulations of Trichoderma harzianum under field condition. J Plant Prot Sci, 3(2), 20-25.

Pooniya, V., Choudhary, A. K., Dass, A., Bana, R. S., Rana, K. S., Rana, D. S., ... and Puniya, M. M. (2015). Improved crop management practices for sustainable pulse production: An Indian perspective. Indian. J.Agri. Scien.85(6): 747-758.

Raguchander, T., Rajappan, K. and Samiyappan, R. (1998). Influence of biocontrol agents and organic amendments on soybean root rot. Internat. J. Trop. Agri.16(1-4): 247-252.

Singh, H. B. (2014). Management of plant pathogens with microorganisms. In Proc Indian Natl Sci Acad 80 (2): 443-454.

Singh, S. and Chand, H. (2006). Screening of bio-agents against root rot of mungbean caused by Rhizoctonia solani. Commun. Agric. Appl. Biol. Scien. 71: 33-5.

Vinale, F., Sivasithamparam, K., Ghisalberti, E. L., Marra, R., Barbetti, M. J., Li, H., ...and Lorito, M. (2008). A novel role for Trichoderma secondary metabolites in the interactions with plants. Physiol. Molecul. Plant. Path. 72(1-3): 80-86.

Vishwadhar and Chaudhary, R. G. (2001). Disease Resistance in Pulse Crops- Current Status and Future Approaches. In:The Role of Resistance in Intensive Agriculture. [Nagarajan S. and Singh D.P. (Eds)], Kalyani Publishers, New Delhi.pp 144-57.

Zeilinger, S. and Omann, M. (2007). Trichoderma biocontrol: signal transduction pathways involved in host sensing and mycoparasitism. Gene Regul. Sys. Biol. 1: GRSB-S397.

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Published

2024-06-02

Issue

Vol. 19 No. 2 (2024): Journals Journal of Eco-friendly Agriculture (July)

Section

Articles

How to Cite

Pranjal Kr Kaman, Ritu Ranjan Taye, Safiqual Hussain, Muqsitur Rahman Choudhury, & Dutta, P. (2024). Organic management of root rot disease in rajmah through liquid bioformulation. Journal of Eco-Friendly Agriculture, 19(2), 440–445. https://doi.org/10.48165/jefa.2024.19.02.33
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