Efficacy of Pseudomonas fluorescens and Rhizophora apiculata against rice bacterial leaf blight

Efficacy of Pseudomonas fluorescens and Rhizophora apiculata against rice bacterial leaf blight

Authors

  • L. Vengadeshkumar Assistant Professor Department of Plant Pathology Faculty of Agriculture Annamalai University Annamalai Nagar - 608 002. Email: vengadpragathi@gmail.com Mobile: 08667806189
  • T.Meera

Keywords:

biological control

Abstract

Abstract An investigation was carried out with the aim to study the interactive effect of Pseudomonas fluorescens(PF9) and Rhizophora apiculata for the management of bacterial leaf blight disease of rice. In both pot andfield trials, application of P. fluorescens as seed treatment (10 ml/kg seed) and foliar spray of R. apiculata @15% at 35 and 50 DAT significantly reduced the bacterial leaf blight incidence with maximum plant height,number of productive tillers per hill, panicle length, grains per panicle of paddy and recorded on par resultswith that of streptomycin (100 ppm) treatment. Untreated control treatment recorded the maximum per centdisease incidence and minimum plant height, number of productive tillers per hill, panicle length as well asgrains per panicle of rice.

Author Biography

T.Meera

Department of Plant Pathology, School of Agriculture, Vels Institute of Science, Technology and AdvancedStudies, Pallavaram, Chennai 600 117, Tamil Nadu, India

References

Akila, R., Rajendran, L., Harish, S., Saveetha, K., Raguchander, T. and Samiyappan, R. 2011. Combined application of botanical formulations and biocontrol agents for the management of Fusariumoxysporumf.sp. cubense causing Fusarium wilt in banana. Biol.Cont., 57: 175-183.

Ali, A., Khan, M.H., Bano, R., Rashid, H., Raja, N. I. and Chaudhry, Z. 2010. Screening of Pakistani rice (Oryzae sativa) cultivars against Xanthomonasoryzapv. oryzae. Pak. J. Bot., 41(5): 2595-2604.

Bandaranayake, W.M. 2002. Wetlands Ecology and Management. 10:421 – 52.

Basso, A.A, Onasanya, S., Issaka, A.Y. and Sido, A. 2011. Bacterial leaf blight of rice in Nigeria Pathological diversity of isolates collected on irrigated lands. J. Applied. Biosci.,38: 2551-2563.

Bowen G.D. and Rovira A.D., 1999. The rhizosphere and its management to improve plant growth. Adv. in Agron. 66.

Castro, R.O., Cornejo, H.A.C., Rodriguez, L.M. and Bucio, J.L. 2009. The role of microbial signals in plant growth and development. Pl. Signal Behav.,4(8): 701 – 712.

Chalermsan, Y. and Peerapan, S. 2009. Wood vinegar Byproduct from rural charcoal kiln and its role in plant protection. Asian J. Food Agri. Ind., Special Issue, 189-195.

Dey, R., Pal, K.K., Bhatt, D.M. and Chauhan, S.M. 2004. Growth promotion and yield enhancement of peanut (Arachishypogaea L) by application of plant growth-promoting rhizobacteria. Microbiol. Res. 159: 371-394.

Gurjar M.S., Shahidali, Masood Akhtar. andKangabamSuraj Singh. 2012. Efficacy of plant extracts in plant disease management. Agricult. Sci., 3: 425-433.

Guyer, D., Tuttle, A. S., Johnson, M., potter, S., Gorlach, J., Forff, S. and Land, C. L. 1998. Activation of latent transgenes in Arabidopsis using a hybrid transcription factor. Genetics, 149: 633-639

Harman, G.E. 1991. Seed treatments for biological control of plant diseases. Crop Prot., 10: 166-171.

Ibrahim, D., Kassim, J., Lim Sheh, H. and Rusli, W. 2013. Efficacy of pyroligneous acid from Rhizophoraapiculata on pathogenic Candida albicans. J. of Appl. Pharmaceut. Sci.,3(07): 007-013.

Jabeen, R., Ashraf, M., Ahmad, I. and Iftikhar, T. 2011. Purification and bioassays of bioactive fraction from Curcuma longa against Xanthomonasoryzaepv. oryzaecausingBLB disease in rice. Pak. J. Bot., 43(2): 1335 – 1342.

Jambhulkar, P.P. andSharma, P. 2014. Development of bioformulation and delivery system of Pseudomonas fluorescens against bacterial leaf blight of rice (Xanthomonasoryzaepv. oryzae).J. Environ. Biol., 35(5): 843 – 849.

Jeyalakshmi, C., Madhiazhagan, K. and Rettinassababady, C. 2010. Effect of different methods of application of Pseudomonas fluorescens against bacterial leaf blight under direct sown rice. J. of Biopesti.,3(2): 487 – 488.

Jorjani, M., Heydari, A., Zamanizadeh, H., Rezaee, S., Naraghi L. and Zamzami, P. 2012. Controlling sugar beet mortality disease by application of new bioformulations. J. Pl. Prot. Res.,52: 303-307.

Kauffman, H.E., Reddy, A.P.K., Hsieh, S.P.Y. and Merca, S.D. 1973. An improved technique for evaluating resistance in rice varieties to Xanthomonasoryzae. Pl. Dis. Report., 57: 537-541.

Keel, C. and Defago, G. 1997. Interactions between beneficial soil bacteria and root pathogens: mechanisms and ecological impact. In: Gange A. C, Brown V. K, (Eds.) Multitrophic interactions in terrestrial system. Oxford: Blackwell science, 27-47.

Khabbaz, S.E. and Abbasi, P.A. 2014. Isolation, characterization and formulation of antagonistic bacteria for the management of seedlings damping-off and root rot disease of cucumber. Can. J. Microbiol.,60 (1): 25-33.

Khan, M.A,, Rashid, A. and Chohan, R.A. 2000. Development of bio formulations of antagonistic bacteria for the management of damping-off in chilli. Pak. J. Agrl Sci., 37: 3 – 4.

Kloepper, J.W., Leong, J., Teintze, M. and Schroth, M.N. 1980. Enhanced plant growth by siderophore produced by plant growth promoting rhizobacteria. Nature, 286: 885-886.

Lalande, R., Bissonnette, N., Coutlee, D. and Antoun, H. 1989. Identification of rhizobacteria from maize and determination of their plant-growth promoting potential. PlantSoil, 115: 7-11.

Latha, G.S., Reddy, C.S., Krishnaveni, D., Sundaram, R.M., Srinivasa Prasad, M., Ram, T., Muralidharan, K. and Viraktamath, B.C. 2009. Bacterial blight of rice and its management. Technical Bulletin No. 41. Directorate of Rice Research (ICAR), Rajendranagar, Hyderabad-500 030, A.P., India. 37.

Lim, S.H., Darah, I. and Jain, K. 2006. Antimicrobial activity of tannin extracted from RhizophoraapiculataBlume barks. J .Tropi. Forest Sci., 18(1): 59-65.

Lim, S.H., Darah, I., Jain, K. and Suraya, S. 2011. Gallic acid: An anticandidal compound in hydrolysable tannin extracted from the barks of RhizophoraapiculataBlumeJ. Appl.Pharma. Sci.,1(6): 75-79.

Loo A., Jain, K. and Darah I. 2007. Antioxidant and radical scavenging activities of the pyroligneous acid from a mangrove plant, Rhizophoraapiculata. Food Chem., 104(1): 300 – 307.

Loo A.Y., Jain K. and Darah, I. 2008. Antioxidant activity of compounds isolated from the pyroligneous acid, Rhizophoraapiculata. FoodChem.,107:1151 – 1160.

Ma, X.H., Wei, Q., Zhang, S.S., Shi, L. and Zhao, Z. 2011. Isolation nad bioactivities of organic acids and phenols from walnut shell pyrolgneous acid from Rosmarinusoffininalis leaves. J.Anal.Appl. Pyrol.,91(2): 33 – 343.

Mahalakshmi, G. 2019.Use of mangrove leaf extracts on the management of tomato early blight disease. M.Sc., Thesis, Department of Plant Pathology, Faculty of Agriculture, Annamalai University, Annamalai Nagar, Tamil Nadu, India

Mariappan, V., Durairaj, F., Natarajan, S. and Jeyarajan, R. 1990. Antibiotic fungicide combination in the control of bacterial leaf blight of rice. Proc. Nat. Symp. Phytobact. Univ., Madras, India. 91-93.

Mishra, D.S., A.K. Gupta, C.R. Prajapati and U.S. Singh. 2011.

Combination of fungal and bacterial antagonists for management of root and stem rot disease of soybean. Pak. J. Bot., 43: 2569-2574.

Muthukumar, A., Eswaran, A., Nakeeran, S. and Sangeetha, G. 2010. Efficacy of plant extracts and biocontrol agents against Pythiumaphanidermatum inciting chilli damping-off. Crop prot.,29:1483-1488.

Nandakumar, R., Babu, S., Viswanathan, R., Raguchandera, T. and Samiyappan, R. 2001a. Induction of systemic resistance in rice against sheath blight disease by Pseudomonasfluorescens. Soil. Biol. Biochem., 33: 603 – 612.

Nandakumar, R., Viswanathan, R., Babu, S., Sheela, J., Raguchander, T., Samiyappan, R., 2001b. A new bio-formulation containing plant growth promoting rhizobacterial mixture for the management of sheath blight and enhanced grain yield in rice. Biocont.,46: 493–510.

Naqvi, S.A.H., Perveen, R., Din Umer,U., Malik, O., Rehman, A., Wazeer, S. and Majid, T. 2014. Determination of antibacterial activity of various broad spectrum antibiotics against Xanthomonasoryzaepv. oryzae, a cause of bacterial leaf blight of rice. Intl.J.Microbio.Mycol.,2(3):12 – 19.

Narasimman, V., Selvam, R. and Marippan, V. 1995. Neem for the management of crop diseases. New Delhi: associated Publishing Co.115-21.

Narula, N., Deubel, A., Gans, W., Behl, R.K. and Merbach, W. 2006. Paranodules and colonization of wheat roots by phytohormone producing bacteria in soil. Plant Soil Environ.,52(3): 119-129.

Oramahi, H.A. and Yoshimura, T. 2013. Antifungal and antitermitic activities of wood vinegar from VitexpubescensVahl. J Wood Sci,, Ind. Phy. 59(1): 124 – 125.

Ramamoorthy, V. and Samiyappan, R. 2001. Induction of defense-related genes in Pseudomonas fluorescens treated chilli plants in response to infection by Colletotrichumcapsici. J. Mycol. Pl. Pathol., 31:146-155.

Salaheddin, K., Valluvaparidasan, V., Ladhalakshmi, D. and Velazhahan, R. 2010. Management of bacterial blight of cotton using a mixture of Pseudomonas fluorescens and Bacillus Subtilis. Pl. Protec. Sci ., 46 (2): 41- 50.

Saleem, M., Arshad, M., Hussain, S., and Bhatti, A.S. 2007. Perspective of plant growth promoting rhizobacteria (PGPR) containing ACC deaminase in stress agriculture. J. Ind. Microbiol. Biotechnol.,34(10): 635-648.

Samanta, T.T, Samanta, P. and Das, A. 2014: Isolation and characterization of Xanthomanasoryzaeisolation from different regions of Midnapore district of West Bangal and their ecofriendly management by some medicinal plant. Int. J.Phytomedicine, 6: 29-42.

Saravanakumar, D. and Samiyappan, R. 2007. ACC deamynase for Pseudomonas fluorescens mediated saline resistance in ground nut (Arachis hypogea) plants. J. Appl. Microbiol.,102 (5): 1283-1292.

Shivalingaiah, P.andUmesha, S. 2011. Characterization of Xanthomonasoryzaepv. oryzaefrom major rice growing regions of Karnataka. The Bioscan,6(1): 5-10.

Shivalingaiah, P.,Umesha, S. and Sateesh, M.K. 2012. Molecular Detection of Xanthomonasoryzaepv. oryzaein rice seeds. Asia and Austral Journal of Pl. Sci. and Biotech.,6(1) : 44-47.

Soosairaj, S., Kala A., Mathiyazhagan, S. and Raja, P. 2015. Isolation and identification of Xanthomonasoryzaepv. oryzaethe causal agent of rice bacterial leaf blight and its activities against of six medicinal plants. Asian J. of Pl. Sci. and Res.,5(6): 80-83.

Suryadi, C., Susilowati, D.N., Suryani K., Zaffan, Z.R., Nurul, H. and RachmaniaMubarik, N.R. 2013. Bioformulation of antagonistic bacterial consortium for controlling blast, sheath blight and bacterial blight diseases on rice. Asian J. of Pl. Pathol.,7: 92-108.

Thrane, C., Olsson, S., Nielsen, T.H. and Sorensen, J. 1999. Vital fluorescent strains for detection of stress in Pythiumultimumand Rhizoctonia solani challenged with viscosinamide from Pseudomonas fluorescensDR54. Microbiol. Ecology.,30:11-23.

Uppal, M.A., Kafizas, A. and Ewing, M.B. 2013. The room temperature formation of gold nanoparticles from the reaction of cyclohexanone and auric acid; a G. (1971). A Dictionary of Plants Used by Man; (1 Indian Eds. 1984), CBS Pub. and Distr. Print Orient. Delhi,1: 7351-7359.

Velusamy, P., Rajalakshmi, S., Pitchaimuthu, S. and Kannan, N. 2013. Photo decoloration of Brilliant Green dye using b-CD modified TiO2. Ind. J Environ. Prot., 33(7): 583 – 589

Vengadeshkumar, L. and Balabaskar, P. 2013.Survey, isolation, characterization and pathogenicity test of Xanthomonasoryzaepv. oryzae causing bacterial leaf blight disease in rice. Ann. of pl. Prot. Sci. 48 (2):456-59

Vengadeshkumar L, Meera T, Balabaskar P, Sanjaygandhi S, Rajamohan K, Udhayakumar R, Sudhasha, S. 2019.antibacterial activity of Rhizophoraapiculata leaf extract for the management of rice bacterial blight disease. Plant Pathol. J., 18: 39-46

Vimala, R. and Suriachandraselvan, M. 2008. Influence of antagonistic agent, plant products and chemical agents on the powdery mildew disease of bhendi and its Product. J. Biopest., 1(2):130 – 133.

Vivekanandhan, R., Ravi, M., Sible, G.V., Prakasam.V. and Samiyappan, R. 2004.Pseudomonas fluorescens(FP7) amended with chitin bioformulation for the management of anthracnose pathogen in mango cultivar Alphonso. Madras Agric. J.,91(7-12): 475-482.

Whipps, J. M. 1997. Developments in the biological control of soil-borne plant pathogens. Adv.Bot. Res., 26:1-134.

Xu, Y., Zhu, M.G., Zhou, J., Kuang, Y., Zhang, Y., Shang, J.X. and Wang, J. 2010. Phytopathol., 158: 601-608.

Yodthong, B. and Niamsa, N. 2009. Study on wood vinegars for use as coagulating and antifungal agents on the production of natural rubber sheets. Biomass and Bioenergy, 33(6): 994-998.

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Published

29-02-2024

How to Cite

Vengadeshkumar, L., & T., M. (2024). Efficacy of Pseudomonas fluorescens and Rhizophora apiculata against rice bacterial leaf blight. Journal of Tropical Agriculture, 61(2), 157–166. Retrieved from https://jtropag.kau.in/index.php/ojs2/article/view/1133

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