Physiological quality of seeds could be seen from viability and vigor. The used of matriconditioning treatment using biological agent and bokashi fertilizer could be the way to enhance physiological quality of seeds. The objective of experiment was to determind the most effective dosage interaction of biological agent and bokashi fertilizer to improve physiological quality of seeds.This research was held at Ciparanje Experimental Farm and Laboratory of Seed Technology Faculty Agriculture Universitas Padjadjaran.from November 2016 until February 2017.  The experiment’s method design using randomized block design factorial pattern with Duncan’s Multiple Range Test (DMRT) at 5 %. The Cultivar that used for this research was Grobogan with Bokashi that tested at 0 ton/ha, 16 ton/ha, 32 ton/ha, and 48 ton/ha respectively combined with matriconditioning that used biological agent and control without biological agent. The biological agent that used for this treatment were Trichoderma spp., Azotobacter spp., Trichoderma spp + Azotobacter spp., with three replication.  The result of the experiment showed that interaction of biological agent and bokashi fertilizer affected the weight of 100 seeds and vigor index. The treatment that used Trichoderma spp. + Azotobacter spp. and bokashi fertilizer 48 ton/ha has showed that this dosage was the best for weight of 100 seeds parameter. Thus the treatment with trichoderma and azotobacter without bokashi fertilizer showed that this treatment affected the best for vigor index.

Keyword: Soybean seeds, physiological quality, Trichoderma spp., Azotobacter spp., Bokashi.

Badan Pusat Statistik. 2015. Produksi Tanamn Pangan. Jakarta: Badan Pusat Statistik.

Sutariati, G. 2009. Peningkatan Mutu Benih Kedelai Melalui Aplikasi Teknik Invigrasi benih plus Agen Hayati. Warta WIPTEK 17(2)

Ruliyansyah, A. 2011. Peningkatan Performansi Benih Kacangan dengan Perlakuan Invigorasi. J. Perkebunan & Lahan Tropika Vol 1:13-18.

Koes, F. dan Ramlah, A. 2010.Pengaruh Perlakuan Matriconditioning Terhadap Viabilitas dan Vigor Benih Jagung. Seminar Nasional Serealia. Hal 548-555

Silva HSA, Romeiro RSR, Macagnan D, Vieira BAH, Pereira MCB, Mounteer A. 2004. Rhizobacterial induction of systemic resistance in tomato plants: non-specific protection and increase in enzyme activities. Biol Control 29:288-295.

Bai Y, Zhou X, Smith DL. 2003. Enhanced soybean plant growth resulting from coinoculation of Bacillus spp. Strains with BradyRhizobium japonicum.Crop Sci 43:1774-1781.

Faccini G, Garzon S, Martines M, Varela A. 2004. Evaluation of the effects of a dual inoculum of phosphate solubilizing bacteria and Azotobacter chroococcum, in creolo potato (Papa “Criolla”) (Solanum phureya) var ‘Yema de Huevo’.

Ahmad, F., Iqbal A, and Mohd Saghir K. 2005. Indole Acetid Acid Production and Fluorescent Pseudomonas in the Presence and Absense of Tryptophan. Turk J Biol 29: 29-34

Kalay, A.M., Latupapua, A.I., dan H. Talahatu. 2015. Efek Aplikasi Trichoderma sp dan Bikashi Terhadap Pertumbuhan Bibit Kakao yang ditanam pada Tanah Terinfeksi Phytophthora palmivora. Jurnal Agroekoteknologi 7(1): 75-87

Pujisiswanto, H dan Darwin P. 2008.Pengaruh Dosis Kompos Pupuk Kandang Sapi terhadap Pertumbuhan dan Produksi Buah Tomat.Seminar Nasional Sains dan Teknologi-II. Universitas Lampung

Tola, F., Hamzah, Dahlan dan Kaharuddin. 2007. Pengaruh Penggunaan Dosis Pupuk Bokashi Kotoran Sapi Terhadap Pertumbuhan Dan Produksi Tanaman Jagung. Jurnal Agrisistem. 3 (1) :

Permadi A.D, A. Majid, S. Hasjim. 2015. Efektivitas Agen Pengendalian Hayati Trichoderma Harzianum untuk Mengendalikan Penyakit Bercak Daun Tembakau Rajang di Jember vol.1 no.1

Rahman, FH, Sumadi dan Anne N. 2014. Pengaruh Pupuk P dan Bokashi terhadap Pertumbuhan, Komponen Hasil, dan Kualitas Hasil Benih Kedelai (Glycine max L. (Merril)). Agric.Sc.J 1(4): 254-261

Agustiansyah, S.Ilyas, Sudarsono, dan M. Machmud. 2013. Perlakuan Benih dengan Agen Hayati dan Pemupukan P untuk Meningkatkan pertumbuhan Tanaman, Hasil, dan Mutu Benih Padi. J.Agron Indonesia 41(2): 98-104

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

Shende, S.T., R.G. Apte, and T. Singh. 1977. Influence of Azotobacter on germination of rice and cotton seeds. Curr. Sci. 46:675-679.

Sucahyono, D. 2013. Pengaruh Perlakuan Invigorasi pada Benih Kedelai Hitam (Glycine soja) terhadap Vigor Benih, Pertumbuhan Tanaman, dan Hasil. J. Agron. Indonesia 41 (2) : 126 – 132.

Paul, E. A. 2007. Soil Microbiology, Ecology and Biochemistry.3rd Edition. United State of America : Elsivier.

Kalay A.M, Hindersah R, Talahaturuson A, dan A.I. Latupapua. 2017. Dual Inoculation of Azotobacter chroococcum and Trichoderma harzianumTo Control Leaf Blight (Rhizoctonia solani) and Increase Yield of Choy Sum. International Journal of Scientific & Engineering Research 8 (6): 1288-1292.

Dwiastuti M.E, Fajri M.N, dan Yunimar. 2015. Potensi Trichoderma spp. sebagai Agens Pengendali Fusarium spp. Penyebab Penyakit Layu pada Tanaman Stroberi (Fragaria x ananassa Dutch.), J. Hort. 25 (4): 331-339

Kalay, A.M. 2006. Pengujian Tiga Spesies Jamur Sebagai Agens Hayati Pengendali Globodera rostochiensis (woll.). J. Peng. Wil. 2:116-121.

Martines-Medina. A. A., Alguicil. M.D.M., J. A. Pascual dan S.C.M. Van Wess. 2014. Phytohormone Profiles Induced by Trichoderma Isolates Corespond With Ther Biocontrol and Plant Growth-Promoting Activity on Melon Plants. Jurnal of Chemical Ecoligy : 40 (7): 804-15.

Indarto, B., Suyadi dan Taryono. 2011. Pengaruh Kadar NaCl Terhadap Keragaan Bibit Wijen (Sesamum indicum L.). Tersedia online di http://jurnal.ugm.ac.id/jbp/article/view/1381/pdf_15 [11/12/2016].