The use of biofertilizers is part of an environmentally friendly plant cultivation. In order to analyze the effect of soaking seeds with several types of biofertilizers on seedling growth and damping off disease in tomatoes, a greenhouse experiment has been carried out using biofertilizers and the fungicide Propineb as control treatment. The biofertilizers used were mixed biofertilizer (BION-UP), Consortium isolates of tomato rhizosphere bacteria (CITRB), consortium of Azotobacter chrococcum and Trichoderma harzianum (Azoto-Tricho). The results showed that soaking tomato seeds in bioagens solution increased plant height, number of petioles, fresh weight and dry weight of plants, as well as suppressed damping off disease in tomato nursery. The CITRB biofertilizer has a better effect on plant growth and diseases suppression than another biofertilizers and Propineb fungicide. CITRB enable to increase plant height by 49.97%, number of petioles by 60.00%, plant fresh weight by 107.23%, dry weight of plants by 129.41%, and suppress damping off disease by 56.67%. BION-UP, CITRB and Azoto-Tricho were able to suppress damping off disease by 22.22%, 27.78% and 16.67% respectively.  The ability of all biofertilizer to suppress damping off disease incidence were better than Propineb fungicide.

Al – Azawi, A. Q., Nawar, H.H. and M. I. Abdulla. 2012. Biocontrol of Fusarium oxysporum f. Sp. lycopersici by Plant Growth Promoting Bacteria on Tomato Plant. The 2nd Scientific Conference the Collage of Agriculture. Ministry of Science & Technology/Directorate of Agricultural Researches.

Arimarsetiowati, R dan F. Ardiyani. 2012. Pengaruh penambahan auxin terhadap pertunasan dan perakaran kopi arabika perbanyakan Somatik Embriogenesis. Pelita Perkebunan 28(2) : 82-90

Azzamy, 2020 Apa Itu PROPINEB. Kegunaan bahan aktif PROPINEB, Manfaat, Dosis, Cara Kerja Lengkap dengan cara Aplikasinya. http://mitalom.com.pestisida/5069/apa-itu-propineb-kegunaan- bahan-aktif-propineb-manfaat-dosis-cara-kerja-lengkap-dengan-cara-aplikasinya/. [19/04/2021].

Barnett, H.L and L.L. Hunter. 1999. Illustrated genera of Imperpect fungi. 3rd Edition. Minesota (US): WH Freeman & Company.

Bhattacharjee, R. and U. Dey. 2014. An overview of fungal and bacterial biopesticides to control plant pathogens/diseases. African Journal of Microbiology Research, 8(17), 1749–1762.

Eckert, B.O.B., Weber., Kirchhof, G., Halbritter, A., Stoffelsl, M. and A. Hartmann. 2001. Azospirillum doebereinerae sp. nov., a nitrogen-fixing bacterium associated with the C4-grass. Miscanthus Intern, J. Systematic and Evolutionary Microbiol 51 : 17-26

Gholami, A., Shahsavani, S. and S. Nezrat. 2009. The Effect of Plant Growth Promoting Rhizobacteria (PGPR) on Germination, Seedling Growth and Yield of Maize. Proceedings of World Academy of Science, Engineerring and Technology. 3(7): 2070-3740.

Ha, T.N. 2010. Using Trichoderma Species For Biological Control Of Plant Pathogens In Vietnam. J. ISSAAS 16 (1): 17-21.

Harman, G. E. 2006. Overview of Mechanisms and Uses of Trichoderma spp. Phytopathology 96: 190-194.

Hindersah, R, Arief, D.H. dan Y. Sumarni 2000. Kontribusi Hormonal Azotobacter chroococcum Pada Pertumbuhan Kecambah Jagung System Kultur Cair, prosiding Seminar Nasional Bioteknologi Pertanian.

Hindersah, R. dan T. Simarmata. 2004. Kontribusi Rizobakteri Azotobacter dalam Meningkatkan Kesehatan Tanah melalu Fiksasi N2 dan Produksi Fitohormon di Rizosfir. Jurnal Natural Indonesia 6: 127- 133

Hindersah, R., Kalay, A.M., Talahaturuson, A, dan Y. Lakburlawa. 2018. Bakteri Pemfiksasi Nitrogen Azotobacter Sebagai Pupuk Hayati Dan Pengendali Penyakit Pada Tanaman Kacang Panjang. AGRIC 30 (1): 25 – 32.

Hindersah, R., Kalay, A.M. dan R. Osok. 2019. Pengaruh Bahan Organik dan Azotobacter terhadap pertumbuhan Jagung di Tailing terkontaminasi merkuri dari Pulau Buru. Agrologia 8(1): 12-20.

Ida, P. 2012. Seleksi dan Karakteristik Bakteri Penghasil Siderofor Sebagai Agens Antagonis Ralstonia solanacearum Pada Tomat. http://repository.ipb.ac.id/handle/123456789/54126.

Irwansyah, A. 2008. Penggunaan Beberapa Jenis Aktivator untuk Meningkatkan Laju Degradasi Tanah Gambut dan Pertumbuhan Tanaman Jati Putih (Gmelina arborea roxb). [Skripsi]. Universitas Sumatera Selatan. Medan.

Jayalakshmi, S.K., Raju, S., Usha-Rani, S., Benagi, V.I and K. Sreeramulu. 2009. Trichoderma harzianum L1 as a potential source for lytic enzymes and elicitor of defense responses in chickpea (Cicer arietinum L.) against wilt.

Julfajri. 2019. Pemanfaatan Pupuk Hayati Dalam Perendaman Benih Padi. http://cybex.pertanian.go.id/mobile artikel/70937/Pemanfaatan-Pupuk-Hayati-Dalam-Perendaman- Benih-Padi/ [20 Juli 2020].

Kalay, A.M. Kesaulya., H. Talahaturuson. A, and R. Osok. 2021. The properties of rhizobacteria from tomato rhizosphere as biocontrol and biofertilizer. IOP Conf. Series: Earth and Environmental Science883. (2021) 012001.

Kalay, A.M., Kesaulya, H., Talahaturuson, A., Rehatta, H. dan R. Hindersah. 2020. Aplikasi Pupuk Hayati Konsorsium Strain Bacillus dp dengan Berbeda Konsentrasi dan Cara Pemberian Terhadap Pertumbuhan bibit Pala. Agrologia 9 (1): 30-38.

Loper, J.E. and M.D. Henkels. 1999. Utilization of heterologous siderophores enhances levels of iron available to Pseudomonas putida in the rhizosphere. Appl Environ Microbiol 65: 5357–5363.

Natawigena. 1994. Dasar – dasar perlindungan tanaman. Penerbit Trigenda Karya Bandung.

Novita, T. 2011. Trichoderma sp. dalam Pengendalian Penyakit Layu Fusarium pada Tanaman Tomat. Biospecies, 4 (2): 27 - 29 27.

Oedjijono, Lestanto, U.W., Nasution, E.K. dan Bondansari. 2012. Pengaruh Azospirillum spp. terhadap pertumbuhan tanaman jagung (Zea mays L.) dan kemampuan beberapa isolat dalam menghasilkan IAA. Prosiding Seminar Nasional “Pengembangan Sumber Daya Pedesaan dan Kearifan Lokal Berkelanjutan II”: 156-163. Purwokerto.

Phuwiwat, W. and K. Soy-Tong. 2001. The effect of Penicillium notatum on plant growth. Fungal Diversity 8: 143-148.

Pridachina, N. N., Novogrudskaia., E.D., Krugliak, E.B., Chekasina, E.V. and T.S. Korchak. 1982. Azotobacter chroococcum, a Producer of a New Antifungal Antibiotc. Antibiotiki 27 (1): 3-6.

Schirmbock, M., Lorito, M., Wang, Y., Hayes, C.K., Arisan-Atac, I., Scala F., Harman, G.E. and C.P. Kubicek. 1994. Parallel fomation and synergism of hydrolytic enzymes and peptaibol antibiotics, molecural mechanisms involved in the antagonistic action of Trichoderma harzianum against phytopathogenic fungi. Applied amd Environmental Microbiolgy 60 (12): 4364-4370.

Selfania, W. 2011. Efektivitas Pelet Biofungisida T. harzianum Untuk Mengendalikan Fusarium sp. Penyebab Damping-off Pada Tanaman Tomat (Lycopersicum esculentum) [Skripsi]. Fakultas Biologi Universitas Jenderal Soedirman, Purwokerto.

Shokibatun, K. 2019. Pengaruh Aplikasi Pupuk Hayati VP3 Bersama Kompos Dibandingkan Dengan Pupuk NPK Terhadap Produksi Tanaman Buncis (Phaseolus vulgaris L.) dan Viabilitas Bakteri Tanah. Agronisma 7 (2): 10-27.

Simanungkalit, R.D.M., Suriadikarta, D.A., Saraswati, R., Setyorini, D. dan W. Hartatik. 2006. Pupuk Organik dan Pupuk Hayati: Organic Fertilizer and Biofeltilizer. Balai Besar Litbang Sumberdaya Lahan Pertanian, Badan Penelitian dan Pengembangan Pertanian. Jakarta.

Singh, A., Parmar, N. and R.C. Kuhad. 2011. Bioaugmentation, Biostimulation and Biocontrol. Springer Science & Business Media New York.

Sumarni, N., Rosliana R., Basuki R.S., dan Y. Hilman. 2012. Tanggap Pertumbuhan Tanaman Bawang Merah terhadap pemupukan Fosfat pada Beberapa Kesuburan Lahan (status Ptanah). J. Hort. 22(2):138-138

Syarifudin, R., Kalay, A.M., dan C. Uruilal. 2021. Efek Pemberian Pupuk hayati dan Fungisida Kimia Terhadap Serangan Penyakit Layu Fusarium, Pertumbuhan dan Hasil Pada Bawang Merah (Allium ascaloncum L). Agrologia 10 (2):69-79.

Vikhe, P.S. 2014. Azotobacter species as a Natural Plant Hormone Synthesizer. Res. J. Sci. Vol. 3 (IVC): 59-63.

Wani, S.P., Rupela, O.P. and K.K. Lee. 1995. Sustainable Agriculture In Semi Arid Tropics Thorugh Biological Nitrogen Fixation In Grain Legumes. Plant and Soil. 174 (1-2): 29-49.

Wedhastri, S. 2002. Isolasi dan seleksi Azotobacter spp. penghasil faktor tumbuh dan penambat nitrogen dari tanah masam. Jurnal Ilmu Tanah dan Lingkungan 3(1): 45-51.

Widawati, S. dan Suliasih, 2006, Populasi Bakteri Pelarut Fosfat (BPF) di Cikaniki, Gunung Botol, dan Ciptarasa, serta Kemampuannya Melarutkan P Terikat di Media Pikovskaya Padat, Biodiversitas, 7 (2): 109-113.

Yuleli, 2009 Penggunaan beberapa jenis fungi untuk meningkatkan pertumb uhan tanaman karet (Hevea brasilliensis) di tanah gambut. Universitas Sumatera Utara.