The high number of soybean's import  has led to various efforts to increase soybean production through increasing productivity, expanding planting areas, and improving management. One that can be done in maximizing soybean performance is the application of biological fertilizer such as mycorrhiza because  it was able  to increase nutrien tuptake and water and even drought tolerance. This study aims to determine the effect of encapsulation of soybean seeds enriched with mycorrhiza and explain the effect of mycorrhiza on soybean growth and yield. This study used three soybean varieties namely Anjasmoro, Grobogan, and Argomulyo which treated with encapsulation + mycorrhiza, mycorrhiza addition, and without mycorrhiza. The observation include number of pods per plant, number of seeds per plant, percentage of filled pods per plant, seed weight per plant and weight of 100 seeds. Data on seed weight per plant showed significantly different among varieties and Anjasmoro was the highest. The application of mycorrhiza through seed encapsulation did not improve the soybean performance.

soybean, mycorrhiza, encapsulation

Anonim. 2016. Outlook Komoditas Pertanian Tanaman Pangan: Kedelai. Pusat Data dan Sistem Informasi Pertanian, Kementerian Pertanian.

Azcon, R. And J.A. Ocampo. 1981. Factors affecting the vesicular-arbuscular infection and mycorrhizal dependency of thirteen wheat cultivars. New Phytol 87: 677-685.

Boddington, C.L. dan J.C. Dodd. 1999. Evidence that differences in phosphate metabolism in mychorrhizae formed by species of glomus and gigaspora might be related to their life cycle strategies in khotamasi. Tropical Ecology 42: 1-13.

Devi, P., P. Radha, L. Sitamahalakshmi, D. Syamala, dan S. M. Kumar. 2004. Plant regeneration via somatic embryogenesis in mung bean [Vigna radiata (L) Wilczek]. Scientia Horticulturae 99: 1 – 8.

Hamida, R. 2010. Efektivitas Mikoriza Vesikular Arbuskular dan Penambahan 5-Aminolevulinic Acid Terhadap Pertumbuhan Jagung Lokal (Zea mays L. Var. Guluk-guluk) pada Intensitas Penyiraman yang Berbeda. Thesis. Program Pascasarjana Program Studi Biologi Universitas Gadjah Mada.

Linderman, R.G. 1992. Mychorriza in Sustainable Agriculture. American Society of Agronomy. USA.

Mosse, B. 1981. Advances in The study of vesicular-arbuscular mycorrhiza. Annu. Rev. Phytopathol 11 : 171 – 96.

Muhammad, H., A. Rochim., S. Sabiham., dan H. Adijuwana. 2000. Serapan maksimum sulfat pada tanah Vertisol, Inceptisol, dan Entisol dari Kabupaten Jeneponto. Jurnal Tanah Tropika 10: 153-159.

Pang, P.C. and Paul E.A. 1980 Effect of VAM on 14C and 15N distribution on nodulated fababeans. Can. J. Soil. Sci. 60: 241-249.

Pato, U. dan Yusmarini. 2002. Gizi dan Pangan. Unri Press. Pekanbaru. 143hal.

Permanasari, I., K. Dewi, M. Irfan, dan A. T. Arminudin. 2016. Peningkatan efisiensi pupuk fosfat melalui aplikasi mikoriza pada kedelai. Agroteknologi 6(2) : 23-30.

Rukmana, R. dan Y. Yuniarsih. 1996. Kedelai. Budidaya & Pasca Panen. Kanisius. Yogyakarta.

Rungkat, J.A. 2009. Peranan MVA dalam Mengingkatkan Pertumbuhan dan Produksi Tanaman. Jurnal FORMAS 4: 270-276.

Simanungkalit, R. D. M. 1993. Efficiency of vesikular-arbuscular mycorrhizal (VAM) fungi-soybean symbiosis at various levels of P fertilizer. Biotrop. Special Publication No 42.

Sutejo, M.M. 2002 Penerapan Pertanian Organik. Kanisius, Yogyakarta.