Ravenala madascascariensis has good resistance to nematode infection. This is thought to be related to endophytic bacteria associated with the plant. This study aimed to isolate endophytic bacteria from the R. madascascariensis roots and test its ability as a biocontrol agent against Fusarium oxysporum and banana-parasitic nematodes. Endophytic bacteria were isolated using NA and TSA media. Potentially safe bacteria for plants and mammals are tested to inhibit the growth of F. oxysporum in vitro. Isolates that can inhibit F. oxysporum were tested for their effectiveness in suppressing banana-parasitic nematode populations in vitro. Furthermore, the selected isolates were tested for their ability to increase the growth of Cavendish banana in the greenhouse. The results showed 113 isolates of endophytic bacteria were successfully isolated; 37 of them were safe for plants and mammals. There were five isolates that could inhibit the growth of F. oxysporum with inhibition percentage of 47.62% up to 66.55%. The five isolates can also suppress banana-parasitic nematode populations in the treatment periods of 2 h, 6 h, and 12 h. The highest mortality was performed by NAP05 isolate at 12 h treatment duration, with a mortality value of 63.96%. The isolates obtained were known to be able to produce several compounds such as protease enzymes (5 isolates) and chitinase enzymes (2 isolates), also capable of dissolving phosphate (3 isolates). The greenhouse experiment showed that several bacterial isolates were effective in increasing the diameter of banana stems (NAP21 isolate) and fresh roots weight (TAP18, TAP34, and NAP21 isolates). All isolates were reported to be able to suppress nematode populations in the roots of banana.

Afzal, I., Z. K. Shinwari, S. Sikandar and S. Shahzad. 2019. Plant beneficial endophytic bacteria: Mechanisms, diversity, host range and genetic determinants. Microbiological Research, 221: 36-49.

Ahmad, M. S., Z. M. Noor and Z. Z. Ariffin. 2014. Isolation and identification fibrinolytic protease endophytic fungi from Hibiscus leaves in Shah Alam. International Journal of Biological, Veterinary, Agricultural and Food Engineering, 8: 1027-1030.

Almeida, N. O., R. A. Teixeira, F. A. Carneiro, C. M. de Oliveira, V. A. Ribeiro, M. Lobo Júnior and M. R. d. Rocha. 2018. Occurrence and correlations of nematodes, Fusarium oxysporum and edaphic factors on banana plantations. Journal of Phytopathology, 166: 265-272.

Baliah, N. T., G. Pandiarajan and B. M. Kumar. 2016. Isolation, identification and characterization of phosphate solubilizing bacteria from different crop soils of Srivilliputtur Taluk, Virudhunagar District, Tamil Nadu. Tropical Ecology, 57: 465-474.

Boyd, L. A., C. Ridout, D. M. O'Sullivan, J. E. Leach and H. Leung. 2013. Plant–pathogen interactions: disease resistance in modern agriculture. Trends in Genetics, 29: 233-240.

Chandrasekaran, M. and S. C. Chun. 2016. Expression of PR-protein genes and induction of defense-related enzymes by Bacillus subtilis CBR05 in tomato (Solanum lycopersicum) plants challenged with Erwinia carotovora sub sp.carotovora. Bioscience, Biotechnology, and Biochemistry, 80: 2277-2283.

Chaves, N. P., L. E. Pocasangre, F. Elango, F. E. Rosales and R. Sikora. 2009. Combining endophytic fungi and bacteria for the biocontrol of Radopholus similis (Cobb) Thorne and for effects on plant growth. Scientia Horticulturae, 122: 472-478.

da Silveira, A. P. D., R. d. P. F. Iório, F. C. C. Marcos, A. O. Fernandes, S. A. C. D. de Souza, E. E. Kuramae and M. A. P. Cipriano. 2018. Exploitation of new endophytic bacteria and their ability to promote sugarcane growth and nitrogen nutrition. Antonie van Leeuwenhoek, 112: 283-295.

Dash, C. and R. J Payyappilli. 2016. KOH string and Vancomycin susceptibility test as an alternative method to Gram staining. Journal of International Medicine and Dentistry, 3: 88-90.

Dita, M., M. Barquero, D. Heck, E. S. G. Mizubuti and C. P. Staver. 2018. Fusarium Wilt of Banana: Current Knowledge on Epidemiology and Research Needs Toward Sustainable Disease Management. Frontiers in Plant Science, 9: 1-21.

Famina, C. C. 2017. Estimation of prevalence and population densities of banana nematodes in Kondotty-local Government Area, Kerala State, India. Pakistan Journal of Nematology, 35: 175-182.

FAOSTAT. 2019. Crops. http://www.fao.org/faostat/en/#data/QC.

Fosu-Nyarko, J. and M. G. K. Jones. 2016. Advances in Understanding the Molecular Mechanisms of Root Lesion Nematode Host Interactions. Annual Review of Phytopathology, 54: 253-278.

Gowda, M. T., A. Rai and B. Singh. 2019. Root knot nematodes menace in vegetable crops and their management in India: A Review. Vegetable Science, 46: 1-16.

Gowen, S. R., P. Quénéhervé and R. Fogain. Nematode parasites of bananas and plantains. Plant parasitic nematodes in subtropical and tropical agriculture. CABI, pp. 611-643.

Ho, Y.-N., H.-M. Chiang, C.-P. Chao, C.-C. Su, H.-F. Hsu, C.-t. Guo, J.-L. Hsieh and C.-C. Huang. 2014. In planta biocontrol of soilborne Fusarium wilt of banana through a plant endophytic bacterium, Burkholderia cenocepacia 869T2. Plant and Soil, 387: 295-306.

Hoang, H., L. H. Tran, T. H. Nguyen, D. A. T. Nguyen, H. H. T. Nguyen, N. B. Pham, P. Q. Trinh, T. de Boer, A. Brouwer and H. H. Chu. 2019. Occurrence of endophytic bacteria in Vietnamese Robusta coffee roots and their effects on plant parasitic nematodes. Symbiosis, 80: 75-84.

Klement, Z. and R. N. Goodman. 1967. The Hypersensitive Reaction to Infection by Bacterial Plant Pathogens. Annual Review of Phytopathology, 5: 17-44.

Liu, H., L. C. Carvalhais, M. Crawford, E. Singh, P. G. Dennis, C. M. J. Pieterse and P. M. Schenk. 2017. Inner Plant Values: Diversity, Colonization and Benefits from Endophytic Bacteria. Frontiers in Microbiology, 19: 1-17.

Mardhiana, M., A. P. Pradana, M. Adiwena, D. Santoso, R. Wijaya and A. Murtilaksono. 2017. Use of endophytic bacteria from roots of Cyperus rotundus for biocontrol of Meloidogyne incognita. Biodiversitas Journal of Biological Diversity, 18: 1308-1315.

Mohammadi, K. 2012. Phosphorus solubilizing bacteria: occurrence, mechanisms and their role in crop production. Resour Environ, 2: 80-85.

Mohd Noor, Z., M. S. Ahmad and Z. Zainal Ariffin. 2016. Purification and characterization of fibrinolytic enzymes from endophytic fungi and lignosus rhinocerus. Jurnal Teknologi, 78: 6-5.

Mostert, D., A. B. Molina, J. Daniells, G. Fourie, C. Hermanto, C.-P. Chao, E. Fabregar, V. G. Sinohin, N. Masdek, R. Thangavelu, C. Li, G. Yi, L. Mostert and A. Viljoen. 2017. The distribution and host range of the banana Fusarium wilt fungus, Fusarium oxysporum f. sp. cubense, in Asia. PLOS ONE, 12: e0181630.

Munif, A., J. Hallmann and R.A. Sikora. 2012. Isolation of root endophytic bacteria from tomato and its biocontrol activity against fungal diseases. Microbiol Indones 6: 148-156.

Munif, A., Supramana, E. N. Herliyana and A. P. Pradana. 2019. Endophytic Bacterial Consortium Originated from Forestry Plant Roots and Their Nematicidal Activity against Meloidogyne incognita Infestation in Greenhouse. Acta Universitatis Agriculturae et Silviculturae Mendelianae Brunensis, 67: 1171-1182.

Mushtaq, S., F. Khan, M. Shafiq, M. Hussain and M. S. Haider. 2017. Endophytic bacteria: a beneficial organism. International Journal of Bioscience, 10: 1-12.

O'Bannon, J. 1977. Worldwide dissemination of Radopholus similis and its importance in crop production. Journal of nematology, 9: 16-20.

Oteino, N., R. D. Lally, S. Kiwanuka, A. Lloyd, D. Ryan, K. J. Germaine and D. N. Dowling. 2015. Plant growth promotion induced by phosphate solubilizing endophytic Pseudomonas isolates. Frontiers in Microbiology, 6: 1-9.

Otto, M. 2014. Staphylococcus aureus toxins. Current Opinion in Microbiology, 17: 32-37.

Reetha, A. K., S. L. Pavani and S. Mohan. 2014. Hydrogen cyanide production ability by bacterial antagonist and their antibiotics inhibition potential on Macrophomina phaseolina (Tassi.) Goid. International Journal of Current Microbiology and Applied Science, 3: 172-1783.

Reinhold-Hurek, B. and T. Hurek. 2011. Living inside plants: bacterial endophytes. Current Opinion in Plant Biology, 14: 435-443.

Safni, I., K. Lubis, A. R. Tantawi and S. Murthi. 2018. Isolation and Characterization of Rhizobacteria for Biological Control of Root-Knot Nematodes in Indonesia. Journal of ISSAAS. 24: 67-81.

Saima, M. Kuddus, Roohi and I. Z. Ahmad. 2013. Isolation of novel chitinolytic bacteria and production optimization of extracellular chitinase. Journal of Genetic Engineering and Biotechnology, 11: 39-46.

Sharma, R. and A. Gupta. 2014. Differentiation of oral Streptococcal species by haemolysis in blood agar medium in vitro. International Journal of Engineering and Advanced Technology, 4: 143-144.

Soliman, G. M., H. H. Ameen, S. M. Abdel-Aziz and G. M. El-Sayed. 2019. In vitro evaluation of some isolated bacteria against the plant parasite nematode Meloidogyne incognita. Bulletin of the National Research Centre, 43: 1-7.

Sun, X., X. Hao, T. Wang, Z. Lai and C. Cheng. 2018. Researches on the control and disease resistance breeding of banana Fusarium wilt disease. Journal of Fruit Science, 35: 870-879.

Swain, R. and D. Nayak. 2018. Effects of soil factors and cultivars on population dynamics of major plant parasitic nematodes in banana. Journal of Plant Protection and Environment, 15: 69-74.

Van Wyk, B. E. 2015. A review of commercially important African medicinal plants. Journal of Ethnopharmacology, 176: 118-134.

Vu, T., R. Sikora and R. Hauschild. 2006. Fusarium oxysporum endophytes induced systemic resistance against Radopholus similis on banana. Nematology, 8: 847-852.

Wang, J. and K. W. Bayles. 2013. Programmed cell death in plants: lessons from bacteria? Trends in Plant Science, 18: 133-139.

Wiratno, W., M. Syakir, I. Sucipto and A. P. Pradana. 2019. Isolation and characterization of endophytic bacteria from roots of Piper nigrum and their activities against Fusarium oxysporum and Meloidogyne incognita. Biodiversitas Journal of Biological Diversity, 20: 682-687.