PENGUJIAN PUPUK HAYATI KALBAR UNTUK MENINGKATKAN PRODUKTIVITAS TANAMAN KEDELAI (Glycine max) var. BALURAN
Abstract
Research aimed to evaluate the ability of kalbar biofertilizer to improve productivity of soybean. Experiment was conducted in the field experimental plot of Cibinong Science Centre. Soybean (Glycine max) var Baluran was treated with a series of fertilizer i.e.: compost containing Nitrogen fixing microbes, compost containing Phosphate solubilizing microbes, compost containing lignocelullosic degrading fungus, Kalbar biofertilizer (compost containing Nitrogen fixing, Phosphate solubilizing and lignocellulosic degrading microbes), chemist fertilizer, compost and control. The height of plant, fresh weight of biomass, number of leaves, pod number, and weight of seed were observed. The Nitrogen, Phosphate and Carbon which exist on the soil observed before planting, while flowering and while harvesting. The result was the application of kalbar biofertilizer able to increase the Carbon (C), Nitrogen (N) and Phosphor (P) content in the soil. This treatment also increased the fresh weight of biomass (22%), the number of pods (11, 11%) and the weight of seed (12,22%).
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Ahmed. Z, H. Banu, M.M Rahman, F. Akhter and S. Haque. 2001. Microbial activity on the degradation of lignocellulosic polysaccharides. Online Journal of Biological Sciences 1(10): 993-997.
Anonim. 2002. Prospek Pertanian Organik di Indonesia Badan Penelitian dan Pengembangan Pertanian, Jakarta. Online. Available at webadm@litbang.deptan.go.id
Anonim. 2007. Fungsi Unsur Hara Makro (N-PK).Forum Diskusi Trubus. Kamis, 29 Nov 2007.
Chandrasekar B.R, G. Ambroseand N.Jayabalan. 2005). Influence of biofertilizers and nitrogen source level on the growth and yield of Echinochloa frumentacea (Roxb) Link. Journal of Agricultural Technology 1(2):223-234.
Djayadi, A.S, Murdiyati, Titiek Y, Heri. I. 2000. Efektivitas pupuk hayati dan pupuk nitrogen (ZA) dalam meningkatkan hasil dan mutu tembakau Virginia serta populasi bakteri dan kadar N total tanah. Jurnal penelitian Tanaman Industri 6(1): 18-23.
Gaind, S and A.C. Gaur. 1991. Thermotolerant phosphate solubilizing microorganism and their interaction with mung bean. Plant and Soil (Historitical Archive) 133 (1): 141-149.Hui-lian Xu. 2000. Effect of Microbial Inoculant, Organic Fertilizer and Chemichal Fertilizer on Water Stress Resistance of Sweet Corn. The Haworth Press, Inc. Nagano, Japan
Mezuan, I.P Handayani dan E. Inoriah. 2002. Penerapan formulasi pupuk hayati untuk budidaya padi gogo. Jurnal Ilmu-Ilmu Pertanian Indonesia, 4(1): 27-34
Nabil .E, El-Wakeil and T.N El-Sebai. 2007. Role of Biofertilizer on Faba Bean Growth, Yield, and its Effect on Bean Aphid and the Associated Predators. Research Journal of Agriculture and Biological Sciences, 3(6):800-807.
Parr J.F, Hornick S.B, and Papendick R.I. 2002. Transition from conventional agriculture to natural farmaingsystem: The role of microbial inoculants and Biofertilizer. http://www.emtech.org/data/pdf.
Susanti F.R. 2002. Pertanian Organik Mampu Tingkatkan Kesuburan Tanah. Harian Sinar Harapan, Senin 3 Juni 2002.
Whitelaw M.A, T.J. Harden and G.L. Bender. 2005. Plant growth promotion of wheat inoculated with Penicillium radicum sp.nov. Australian Journal of Soil
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