The present study investigated the biological management of root-knot nematode (Meloidogyne incognita) in tomato plants using different strains of Pseudomonas spp. The experiment involved five treatments: a healthy control (T1), a nematode-inoculated control (T2), Pseudomonas fluorescens strain A (T3), P. fluorescens strain B (T4), and P. putida (T5). The results demonstrated significant differences in plant growth and root gall formation across treatments. The healthy control exhibited an average plant height of 12 cm and weight of 11 g. Nematode inoculation slightly reduced growth, with plants averaging 11 cm in height and 10 g in weight. Treatment with P. fluorescens strain A resulted in the highest growth, with plants reaching 13 cm in height and 12 g in weight. P. fluorescens strain B and P. putida treatments produced plants with average heights of 12 cm and 12.5 cm, and weights of 11 g and 10 g, respectively. Leaf and flower counts also varied, with T3, T4, and T5 treatments increasing leaf counts to 26, 40, and 33, respectively, compared to 15 in the nematode-inoculated control. The application of P. fluorescens strains A and B significantly reduced root galls to 8 and 15, respectively, compared to 29 in T2. P. putida treatment resulted in 21 root galls. These findings highlight the potential of Pseudomonas spp., especially P. fluorescens strains, in managing nematode infestation in tomato plants. Future studies should explore the mechanisms behind these microbial interactions and their long-term effects on plant health and yield.

Aballay, E., Mårtensson, A., Persson, P., 2011. Screening of rhizosphere bacteria from grapevine for their suppressive effect on Xiphinema index Thorne & Allen on in vitro grape plants.Plant and Soil347, 313-325.

Afzal, A., Mukhtar, T., 2024. Revolutionizing nematode management to achieve global food security goals-An overview. Heliyon 10, 25325.

Ahmed, M.H., Ashfaq, M., Mukhtar, T., Khan, M.A., 2021. Categorization of available cucumber genotypes against Zucchini yellow mosaic virus and root-knot nematode (Meloidogyne incognita). International Journal of Agriculture and Biology 25, 955-961.

Ali, A., Fatih, Ö., Tatar, M., Tabbasum, I., Azeem, H., Sarwar, R., Ali, F., 2023a. Mycotoxin production by Fusarium species and a recent deep insight into management through biocontrol approaches.Journal of Global Innovations in Agricultural Sciences11:455-480.

Ali, A., Iftikhar, Y., Mubeen, M., Ali, H., Zeshan, M.A., 2022. Antagonistic potential of bacterial species against fungal plant pathogens (FPP) and their role in plant growth promotion (PGP): A review. Phyton-International Journal of Experimental Botany91(9), 1859-1877.

Ali, A., Tabbasum, I., Azeem, H., Ölmez, F., Deveci, G., Khalid, B., Mehtab, M., 2023b. Bacterial endophytes, a resilient way toward sustainable agriculture: provide plant growth promotion and biocontrol of plant pathogens. Journal of Global Innovations in Agricultural Sciences11(2), 153-174.

Ali, A., Zeshan, M. A., Mehtab, M., Khursheed, S., Mudasir, M., Abid, M., Tahir, A., 2021. A comprehensive note on Trichoderma as a potential biocontrol agent against soil borne fungal pathogens: a review. Plant Protection5(3), 171-196.

Antil, S.,Kumar,R.019a.Biocontrol of Root-Knot Nematodes through PGPR.International Journal of Current Microbiology and Applied Sciences8(11), 510-514.

Asghar, A., Mukhtar, T., Raja, M.U., Gulzar, A., 2020. Interaction between Meloidogyne javanica and Ralstonia solanacearum in chili. Pakistan Journal of Zoology 52, 1525-1530.

Aslam, M.N., Mukhtar T., 2024. Evaluation of virulence among Pakistani isolates of Ralstonia solanacearum inducing bacterial wilt in chilies across different agro-ecological zones. Bragantia 83, e20230181.

Aslam, M.N., Mukhtar, T., 2023a. Characterization of Ralstonia solanacearum causing bacterial wilt from major chili growing areas of Pakistan. Bragantia 82, e20230001.

Aslam, M.N., Mukhtar, T., 2023b. Distributional spectrum of bacterial wilt of chili incited by Ralstonia solanacearum in Pakistan. Bragantia 82, e20220196.

Azeem, H., Ali, A., Zeshan, M. A., Ashraf, W., Ghani, M. U., Sajid, A., Sajid, M., 2020. Biological control of plant pathogens by using antagonistic bacteria: a review. Pakistan Journal of Phytopathology32(2), 273-290.

Azeem, W., Mukhtar, T., Hamid, T., 2021. Evaluation of Trichoderma harzianum and Azadirachta indica in the management of Meloidogyne incognita in tomato. Pakistan Journal of Zoology 53, 119-125.

Aziz, S., Jamshed, S.A., Mukhtar, T., Irshad, G., Ijaz, S.S., Raja, M.U., 2024. Evaluation of Bacillus spp. as biocontrol agents against chili leaf spot caused by Xanthomonas vesicatoria. Journal of Plant Diseases and Protection 131, 987-997.

Bakr, R. A., Mahdy, M. E., Mousa, E. S. M., 2017. Evaluation of Pasteuria penetrans application methods on controlling of root-knot nematode infecting eggplant. Egyptian Journal of Crop Protection12(1), 1-8.

Bhat, A. A., Shakeel, A., Waqar, S., Handoo, Z. A., Khan, A. A.. 2023. Microbes vs. nematodes: Insights into biocontrol through antagonistic organisms to control root-knot nematodes.Plants 12(3), 451.

Cetintas, R., Dickson, D. W., 2004.Persistence and Suppressiveness of Pasteuria penetrans to Meloidogyne arenaria Race. Journal of Nematology 36(4), 540.

Cheng, H.; Zhang, D.; Ren, L.; Song, Z.; Li, Q.; Wu, J.; Cao, A., 2021. Bio-activation of soil with beneficial microbes after soil fumigation reduces soil-borne pathogens and increases tomato yield. Environmental Pollution 283: 117160.

Chinheya, C. C., Yobo, K. S., Laing, M. D., 2017. Biological control of the rootknot nematode,Meloidogyne javanica (Chitwood) using Bacillus isolates, on soybean. Biological control109, 37-41.

Chitruk, A., Yadav, A., Rode, P., Mohite, S., Magdum, C., 2020. Microwave assisted synthesis, antimicrobial and anti-inflammatory potential of some novel 1, 2, 4-triazole derivatives. International Journal of Scientific and Technology Research 7(4), 360-367.

Costa, S. R., Ng, J. L. P., Mathesius, U., 2021. Interaction of symbiotic rhizobia and parasitic root-knot nematodes in legume roots: from molecular regulation to field application. Molecular Plant-Microbe Interactions 34(5), 470-490.

Desaeger, J.A., Watson, T.T., 2019. Evaluation of new chemical and biological nematicides for managing Meloidogyne javanica in tomato production and associated double-crops in Florida. Pest Management Science 75, 3363-3370.

Haq, M.A., Mukhtar, T., Haq, M.I., Khalid, A., 2022. Reproduction of root-knot nematode, Meloidogyne incognita, on Solanum melongena genotypes determines their host status. Pakistan Journal of Zoology 54, 2097-2103.

Haque, Z., Khan, M.R., 2022. Evaluation of fluopyram against single and concomitant inoculation of Rhizoctonia solani and Meloidogyne graminicola infesting rice crop. Phytoparasitica 50 (4), 811-822.

Hassan, M. A., Pham, T. H., Shi, H., Zheng, J., 2013. Nematodes threats to global food security. Acta Agriculturae Scandinavica, Section B–Soil & Plant Science, 63(5), 420-425.

Hussain, M.A., Mukhtar T., Kayani M.Z., 2016. Reproduction of Meloidogyne incognita on resistant and susceptible okra cultivars. Pakistan Journal of Agricultural Sciences 53(2), 371-375.

Hussain, M.A., Mukhtar, T., 2019. Root-knot nematodes infecting okra in major vegetable growing districts of Punjab, Pakistan. Pakistan Journal of Zoology 51, 1137-1143.

Hussain, M.A., Mukhtar, T., Kayani, M.Z., 2011. Assessment of the damage caused by Meloidogyne incognita on okra. Journal of Animal and Plant Sciences 21(4), 857-861.

Hussain, M.A., Mukhtar, T., Kayani, M.Z., Aslam, M.N., Haque, M.I., 2012. A survey of okra (Abelmoschus esculentus) in the Punjab province of Pakistan for the determination of prevalence, incidence and severity of root-knot disease caused by Meloidogyne spp. Pakistan Journal of Botany 44 (6), 2071-2075.

Kayani, M.Z., Mukhtar, T., 2018. Reproductivity of Meloidogyne incognita on fifteen cucumber cultivars. Pakistan Journal of Zoology 50, 1717-1722.

Kayani, M.Z., Mukhtar, T., Hussain, M.A., 2017. Effects of southern root knot nematode population densities and plant age on growth and yield parameters of cucumber. Crop Protection 92, 207-212.

Kayani, M.Z., Mukhtar, T., Hussain, M.A., 2018. Interaction between nematode inoculum density and plant age on growth and yield of cucumber and reproduction of Meloidogyne incognita. Pakistan Journal of Zoology 50, 897-902.

Khan, M.T.A., Mukhtar, T., Saeed, M., 2019. Resistance or susceptibility of eight aubergine cultivars to Meloidogyne javanica. Pakistan Journal of Zoology 51, 2187-2192.

Khan, R. A. A., Najeeb, S., Hussain, S., Xie, B., Li, Y., 2020. Bioactive secondary metabolites from Trichoderma spp. against phytopathogenic fungi. Microorganisms 8(6), 817.

Khanna, K., Kohli, S.K., Sharma, P., Kour, J., Singh, A.D., Sharma, N., Ohri, P. and Bhardwaj, R., 2021. Antioxidant potential of plant growth-promoting rhizobacteria (PGPR) in agricultural crops infected with root-knot nematodes. Antioxidants in plant-microbe interaction, pp.339-379.

Lee, J. P., Sekhon, S. S., Kim, J. H., Kim, S. C., Cho, B. K., Ahn, J. Y., Kim, Y. H., 2021. The pine wood nematode Bursaphelenchus xylophilus and molecular diagnostic methods. Molecular & Cellular Toxicology 17, 1-13.

Liu, G., Lin, X., Xu, S., Liu, G., Liu, F., Mu, W., 2020. Screening, identification and application of soil bacteria with nematicidal activity against root‐knot nematode (Meloidogyne incognita) on tomato. Pest management science 76(6), 2217-2224.

Liu, M., Philp, J., Wang, Y., Hu, J., Wei, Y., Li, J, Yang, H., 2022. Plant growth-promoting rhizobacteria Burkholderia vietnamiensis B418 inhibits root-knot nematode on watermelon by modifying the rhizosphere microbial community. Scientific Reports 12(1), 8381.

Mukhtar, T., 2018. Management of root-knot nematode, Meloidogyne incognita, in tomato with two Trichoderma species. Pakistan Journal of Zoology 50, 1589-1592.

Mukhtar, T., Hussain, M.A., 2019. Pathogenic potential of Javanese root-knot nematode on susceptible and resistant okra cultivars. Pakistan Journal of Zoology 51, 1891-1897.

Mukhtar, T., Hussain, M.A., Kayani, M.Z., 2013a. Biocontrol potential of Pasteuria penetrans, Pochonia chlamydosporia, Paecilomyces lilacinus and Trichoderma harzianum against Meloidogyne incognita in okra. Phytopathologia Mediterranea 52, 66-76.

Mukhtar, T., Hussain, M.A., Kayani, M.Z., 2017. Yield responses of twelve okra cultivars to southern root-knot nematode (Meloidogyne incognita). Bragantia 76(1), 108-112.

Mukhtar, T., Kayani M.Z., Hussain M.A., 2013b. Response of selected cucumber cultivars to Meloidogyne incognita. Crop Protection 44, 13-17.

Mukhtar, T., Kayani, M.Z., 2019. Growth and yield responses of fifteen cucumber cultivars to root-knot nematode (Meloidogyne incognita). Acta Scientiarum Polonorum Hortorum Cultus 18, 45-52.

Mukhtar, T., Kayani, M.Z., 2020. Comparison of the damaging effects of Meloidogyne incognita on a resistant and susceptible cultivar of cucumber. Bragantia 79, 83-93.

Mukhtar, T., Tariq-Khan, M., Aslam, M.N., 2021. Bioefficacy of Trichoderma species against Javanese root-knot nematode, Meloidogyne javanica in green gram. Gesunde Pflanzen 73, 265-272.

Nagrale, D. T., Chaurasia, A., Kumar, S., Gawande, S. P., Hiremani, N. S., Shankar, R., Prasad, Y. G., 2023. PGPR: the treasure of multifarious beneficial microorganisms for nutrient mobilization, pest biocontrol and plant growth promotion in field crops. World Journal of Microbiology and Biotechnology 39(4), 100.

Nauman, M., Mushtaq, S., Khan, M. F., Ali, A., Naqvi, S. A. H., HAQ, Z., UMAR, U. U. D., 2023. Morphological, biochemical, and molecular characterization of Xanthomonas citri subsp. citri, cause of citrus canker disease in Pakistan. Pakistan journal of botany 55(6), 2409-2421.

Nazir, K., Mukhtar, T., Javed, H., 2019. In vitro effectiveness of silver nanoparticles against root-knot nematode (Meloidogyne incognita). Pakistan Journal of Zoology 51(6), 2077-2083.

Ntalli, N., Monokrousos, N., Rumbos, C., Kontea, D., Zioga, D., Argyropoulou, M.D., Menkissoglu-Spiroudi, U., Tsiropoulos, N.G., 2018. Greenhouse biofumigation with Melia azedarach controls Meloidogyne spp. and enhances soil biological activity. Journal of Pest Science 91, 29-40.

Proença, D. N., Schwab, S., Vidal, M. S., Baldani, J. I., Xavier, G. R., Morais, P. V.,2019. The nematicide Serratia plymuthica M24T3 colonizes Arabidopsis thaliana, stimulates plant growth, and presents plant beneficial potential. Brazilian Journal of Microbiology 50, 777-789.

Radwan, M. A., Farrag, S. A. A., Abu-Elamayem, M. M., Ahmed, N. S. 2012. Efficacy of some granular nematicides against root-knot nematode, Meloidogyne incognita associated with tomato. Pakistan journal Nematol 30(1), 41-47.

Rao, M. S., Kamalnath, M., Umamaheswari, R., Rajinikanth, R., Prabu, P., Priti, K., Gopalakrishnan, C., 2017. Bacillus subtilis IIHR BS-2 enriched vermicompost controls root knot nematode and soft rot disease complex in carrot. Scientia Horticulturae 218, 56-62.

Raza, H. Y., Madni, M., Malik, Z., Zahra, A., Mansoor, T.,2022.Efficacy of Pseudomonas spp. NA-4 against Meloidogyne incognita. Phytopathogenomics and Disease Control., 2022, 1(1):55-59.

Saeed, M., Mukhtar, T., 2024. Root-knot nematodes (Meloidogyne spp.) infecting peach (Prunus persica L.) in the Pothwar region of Pakistan. Journal of Agricutltural Science and Technology 26(4), ??-??

Saeed, M., Mukhtar, T., Ahmed, R., Ahmad, T., Iqbal, M.A., 2023. Suppression of Meloidogyne javanica infection in peach (Prunus persica L.) (Batsch) using fungal biocontrol agents. Sustainability 15(18), 13833.

Saeed, M., Mukhtar, T., Haq, M.I., Khan, M.A., 2021. Assessment of nematicidal potential of Cannabis sativa and Azadirachta indica in the management of root-knot nematode (Meloidogyne javanica) on peach. Pakistan Journal of Agricultural Sciences 58, 1555-1561.

Sayedain, F. S., Ahmadzadeh, M., Fattah-Hosseini, S., Bode, H. B., 2021. Soil application of entomopathogenic nematodes suppresses the root-knot nematode Meloidogyne javanica in cucumber. Journal of Plant Diseases and Protection 128, 215-223.

Sharma, I. P., Sharma, A. K., 2017. Effective control of root-knot nematode disease with Pseudomonad rhizobacteria filtrate. Rhizosphere, 3, 123-125.

Stirling, G. R., 2011. Biological control of plant-parasitic nematodes: an ecological perspective, a review of progress and opportunities for further research. Biological control of plant-parasitic nematodes: building coherence between microbial ecology and molecular mechanisms 1-38.

Subedi, P., Gattoni, K., Liu, W., Lawrence, K. S., Park, S. W., 2020. Current utility of plant growth-promoting rhizobacteria as biological control agents towards plant-parasitic nematodes. Plants 9(9), 1167.

Tabbasum, I., Ali, A., Shafique, U., Bibi, I., Khalid, B., Ijaz, N., Naseer, M. U., 2022. Role of endophytic fungal species in plant growth promotion and in sustainable agricultural productions: a review. The Journal of Microbiology and Molecular Genetics3(1), 1-21.

Tariq-Khan, M., Mukhtar, T., Munir, A., Hallmann, J., Heuer, H., 2020. Comprehensive report on the prevalence of root-knot nematodes in the Poonch division of Azad Jammu and Kashmir, Pakistan. Journal of Phytopathology 168, 322-336.

Tariq-Khan, M., Munir, A., Mukhtar, T., Hallmann, J., Heuer, H., 2017. Distribution of root-knot nematode species and their virulence on vegetables in northern temperate agro-ecosystems of the Pakistani-administered territories of Azad Jammu and Kashmir. Journal of Plant Diseases and Protection 124, 201-212.

Xiang, N., Lawrence, K. S., Kloepper, J. W., Donald, P. A., McInroy, J. A., Lawrence, G. W.,2017. Biological control of Meloidogyne incognita by spore-forming plant growth-promoting rhizobacteria on cotton. Plant Disease 101(5), 774-784.

Yaseen, I., Mukhtar, T., Kim, H.T., Arshad, B., 2023. Quantification of resistance to Melidogyne incognita in okra cultivars using linear and nonlinear analyses of growth parameters and nematode infestations. Bragantia 82, e20230114.

Yaseen, I., Mukhtar, T., Kim, H.T., Arshad, B., 2024. Interactive effects of Meloidogyne incognita and Fusarium oxysporum f.sp. vasinfectum on okra cultivars. Bragantia 83, e20230266.