Botrytis cinerea is one of the most significant plant pathogens globally, causing extensive damage to fruits and vegetables. Botrycides remain a widely used method of plant protection; however, the introduction of plant-beneficial bacteria offers a promising and agroecologically sustainable alternative. The current study evaluated the effectiveness of plant extracts and rhizobacteria in controlling diseases caused by B. cinerea in tomatoes. Neem (Azadirachta indica), garlic (Allium sativum), and turmeric (Curcuma longa) extracts were tested alongside rhizobacterial strains (Bacillus subtilis, Pseudomonas fluorescens, and Trichoderma harzianum). In vitro experiments showed that, at a 15% extract concentration, neem and garlic inhibited fungal growth by 78% and 72%, respectively, while B. subtilis suppressed mycelial growth by 62%. Synergistic treatments, particularly neem combined with B. subtilis, exhibited the highest inhibition zone (22 mm) and an 85% synergy effect. Greenhouse trials demonstrated that neem extract combined with B. subtilis significantly reduced disease severity, achieving a disease severity index (DSI) of 1.3 and a 75% disease reduction compared to controls, which had a DSI of 4.8. Neem extract and B. subtilis alone reduced disease by 52.1% and 58.3%, respectively. The combination of neem extract and B. subtilis proved more effective in managing grey mold, promoting healthier plants, and providing a potential chemical-free alternative to fungicides. Further field trials are recommended to develop scalable, eco-friendly solutions for sustainable tomato disease management.

Azadirachta indica, Botrytis cinerea, Bacillus subtilis, Turmeric, Garlic, Integrated disease management

Agrios, G.N., 2005. Plant Pathology. Elsevier.

Ahmed, R., Gondal, A.S., Khan, M.T., Shahzaman, S., Hyder, S., 2018. First report of Botrytis cinerea causing gray mold disease on peach from Pakistan. International Journal of Phytopathology 7, 131-131.

ALKahtani, M.D., Fouda, A., Attia, K.A., Al-Otaibi, F., Eid, A.M., Ewais, E.E.-D., Hijri, M., St-Arnaud, M., Hassan, S.E.-D., Khan, N., 2020. Isolation and characterization of plant growth promoting endophytic bacteria from desert plants and their application as bioinoculants for sustainable agriculture. Agronomy 10, 1325.

Ally, N.M., Neetoo, H., Ranghoo-Sanmukhiya, V.M. and Coutinho, T.A., 2023. Greenhouse-grown tomatoes: microbial diseases and their control methods: a review. International Journal of Phytopathology 12(1), 99-127.

Almasaudi, N.M., Al-Qurashi, A.D., Elsayed, M.I., Abo-Elyousr, K.A., 2022. Essential oils of oregano and cinnamon as an alternative method for control of gray mold disease of table grapes caused by Botrytis cinerea. Journal of Plant Pathology 104, 317-328.

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(1), 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.

Bashir, A., Khan, M.T., Ahmed, R., Mehmood, B., Younas, M.T., Rehman, H.M. and Hussain, S., 2020. Efficiency of selected botanicals against (Alternaria solani) causing early blight disease on tomato in Azad Jammu and Kashmir. Pakistan Journal of Phytopathology 32(2), 179-186.

Bello, G., Sisterna, M., 2010. Use of plant extracts as natural fungicides in the management of seedborne diseases, Management of Fungal Plant Pathogens. CAB International, Wallingford, UK, pp. 51-66.

FAO. 2022. World Food and Agriculture Statistical year Book. Retrieved from Rome, Italy.

Fillinger, S., Elad, Y., 2016. Botrytis-the fungus, the pathogen and its management in agricultural systems. Springer.

Goel, N., Anukrati, K., Paul, P., 2016. Anti-phytopathogenic and SAR inducing properties of Neem: A review. Journal of Chemical and Pharmaceutical Sciences 9, 2547-2555.

Gurvinder, K., Negi, H.S., Ghosh, P., Sharma, S., Ojha, P.K., Singh, V., Chandel, S., 2023. Sensitivity of Botrytis cinerea isolate collected from gladiolus against selected fungicides, plant oils and botanicals in North India. Notulae Botanicae Horti Agrobotanici Cluj-Napoca 51, 13360-13360.

Hajji-Hedfi, L., Rhouma, A., Hajlaoui, H., Hajlaoui, F., Rebouh, N.Y., 2023. Understanding the influence of applying two culture filtrates to control gray mold disease (Botrytis cinerea) in tomato. Agronomy 13, 1774.

Hussain, M.A., Mukhtar, T., Kayani, M.Z., 2011. Efficacy evaluation of Azadirachta indica, Calotropis procera, Datura stramonium and Tagetes erecta against root-knot nematodes Meloidogyne incognita. Pakistan Journal of Botany 43 (Special Issue), 197-204.

Iqbal, U., Mukhtar, T., 2020. Inhibitory effects of some fungicides against Macrophomina phaseolina causing charcoal rot. Pakistan Journal of Zoology 52(2), 709-715.

Iqbal, U., Mukhtar, T., Iqbal, S.M., 2014. In vitro and in vivo evaluation of antifungal activities of some antagonistic plants against charcoal rot causing fungus, Macrophomina phaseolina. Pakistan Journal of Agricultural Sciences 51(3), 689-694.

Jiang, C.H., Liao, M.J., Wang, H.K., Zheng, M.Z., Xu, J.J., Guo, J.H., 2018. Bacillus velezensis, a potential and efficient biocontrol agent in control of pepper gray mold caused by Botrytis cinerea. Biological Control 126, 147-157.

Karthika, S., Varghese, S., Jisha, M.S., 2020. Exploring the efficacy of antagonistic rhizobacteria as native biocontrol agents against tomato plant diseases. 3 Biotech 10(7), 320.

Kayani, M.Z., Mukhtar, T., Hussain, M.A., 2012. Evaluation of nematicidal effects of Cannabis sativa L. and Zanthoxylum alatum Roxb. against root-knot nematodes, Meloidogyne incognita. Crop Protection 39, 52-56.

Li, S., Xiao, Q., Yang, H., Huang, J., Li, Y., 2022. Characterization of a new Bacillus velezensis as a powerful biocontrol agent against tomato gray mold. Pesticide Biochemistry and Physiology 187, 105199.

Mamiev, M., Khakimov, A., Zuparov, M., Rakhmonov, U., 2020. Effectiveness of different fungicides in controlling Botrytis grey mould of tomato, IOP Conference Series: Earth and Environmental Science. IOP Publishing, p. 012112.

Mukhtar, T., Hussain, M.A., Kayani, M.Z., 2013b. Biocontrol potential of Pasteuria penetrans, Pochonia chlamydosporia, Paecilomyces lilacinus and Trichoderma harzianum against Meloidogyne incognita in okra. Phytopathologia Mediterranea 52(1), 66-76.

Mukhtar, T., Kayani, M.Z., Hussain, M.A., 2013a. Nematicidal activities of Cannabis sativa L. and Zanthoxylum alatum Roxb. against Meloidogyne incognita. Industrial Crops and Products 42, 447-453.

Orozco-Mosqueda, M.D.C., Kumar, A., Fadiji, A.E., Babalola, O.O., Puopolo, G., Santoyo, G., 2023. Agroecological management of the grey mould fungus Botrytis cinerea by plant growth-promoting bacteria. Plants 12(3), 637.

Paz, I.C.P., Santin, R.d.C.M., Guimarães, A.M., da Rosa, O.P.P., Quecine, M.C., e Silva, M.d.C.P., Azevedo, J.L., Matsumura, A.T.S., 2018. Biocontrol of Botrytis cinerea and Calonectria gracilis by eucalypts growth promoters Bacillus spp. Microbial Pathogenesis 121, 106-109.

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(5), 1555-1561.

Steel, R.G.D., Torrie, J.H., Dickey, D.A., 1997. Principles and procedures of statistics: A biological approach. McGraw-Hill.

Wamani, A.O., 2020. Screening of microbial antagonists and plant extracts against selected tomato pathogens and their potential in the management of bacterial wilt, Doctoral dissertation, University of Nairobi.

Wang, S., Hu, T., Jiao, Y., Wei, J., Cao, K., 2009. Isolation and characterization of Bacillus subtilis EB-28, an endophytic bacterium strain displaying biocontrol activity against Botrytis cinerea Pers. Frontiers of Agriculture in China 3, 247-252.

Williamson, B., Tudzynski, B., Tudzynski, P., Van Kan, J.A., 2007. Botrytis cinerea: The cause of grey mould disease. Molecular Plant Pathology 8, 561-580.