Pengaruh Formula Pembenah Tanah Organik Granul Terhadap Sifat Kimia Tanah Dan Pertumbuhan Tanaman Pada Lahan Kering Masam
DOI:
https://doi.org/10.25181/prosemnas.v2018i0.1172Abstrak
Acid upland needs to be managed intensively to overcome the inherent constraints of the physical and chemical properties of the soil. Research on the effect of granular organic soil amendment formula to the soil chemical properties and plant growth on acid upland was carried out in the greenhouse.The study aimed to evaluate the effectiveness of granular organic soil amendment formulas that have been enriched with humic compounds as a substitute for lime to improve soil chemical properties and plant growth. The study was conducted with a pot experiment using a randomized block design with 10 treatments and 3 replications. The treatments are consist of 3 types of soil amendment, namely lime, chicken manure compost (CMC) and cow dung compost (CDC), each with 3 dosage levels. Mungbean plants are used as indicators planted in pots with 3 plants each. The results revealed that lime as soil amendment quickly increased soil pH and decreased exchangable Aluminium (Exch-Al). Meanwhile the formula CMC is superior in increasing soil organic carbon. The CMC also increase soil pH and reduce the exch-Al levels, but the intensity is lower than lime. The CDC soil amendment has less effect on increasing pH and neutralizing exch-Al. The CMC soil amendment can increase the growth and production of mungbean. Mungbean dry biomass increased about 60% and grain production increased about 56% compared to control treatment. The growth and production of mungbean from CMC treatment is better than lime treatment. It can be concluded that chicken manure compost and cow dung compost can be used to substitute of lime as soil amendment on acid upland. Keyword: acid upland, lime, manure, productivity, soil amendmentUnduhan
Referensi
Adimihardja, A. Dariah, dan A. Mulyani. 2007. Teknologi Dan Strategi Pendayagunaan Lahan Kering
Mendukung Pengadaan Pangan Nasional. Jurnal Badan Litbang Pertanian.
Adiningsih, J. dan M. Sudjadi. 1993. Peranan Sistem Bertanam Lorong (Alley Cropping) dalam
meningkatkan Kesuburan Tanah pada Lahan Kering Masam. Risalah Seminar, Hasil Penelitian Tanah
dan Agroklimat. Pusat Penelitian Tanah dan Agroklimat, Bogor.
BBSDLP, 2015. Sumber Daya Lahan Pertanian Indonesia: Luas, penyebaran dan potensi. Laporan Teknis
Balai Besar Penelitian dan Pengembangan Sumberdaya Lahan Pertanian.
Chen, Y. and Aviad, T. 1990. Effect of humic substance on plant growth. In: MacCarthy, P., Clapp, C.E.,
Macolm, R.L., Bloom, P.R. (Eds.), Humic Substance in Soil and Crop Sciences:Selected Readings.
SSSA, Madison, pp.161-186.
Dariah, A., Nurida N.L., dan Sutono. 2007. Formulasi bahan pembenah untuk rehabilitasi lahan
terdegradasi. Disampaikan pada Seminar Sumberdaya Lahan dan Lingkungan. Bogor, 7-8 Nopember
Engyeraguibel, B., J. Silvestre, dan P. Morard. 2007. Effects of humic substance derived from organic
waste enhancement on the growth and minberel nutrition of maize. Elsevier. Bio resource
Technology 99 (2008) 4206-4212.
Glaser, B., J. Lehmann, and W. Zech. 2002. Ameliorating physical and chemical properties of highly
weathered soils in the tropics with charcoal: A review. Biol. Fertil. Soils 35:219-230.
Husaini. 2007. Karakteristik dan deposit pembenah tanah zeolit di Indonesia. Dipresentasikan pada
Semiloka Pembenah Tanah Menghemat Pupuk,Memdukung Peningkatan Produksi beras. Direktorat
Jenderal Pengelolaan Lahan dan Air, Depaetermen Pertanian bekerjasama dengan Konsorsium
Pemebenah Tanah Indonesia. Jakarta 5 April 2007.
Nardi, S., Pizzeghello, D.Muscolo, A., Vianello, A. 2002. Physiological effect of humic substances on
higher plants. Soil Biol. Biochem. 34, 1527-1536.
Said-Pullicino, D., Erriquens, F.G., Gigliotti, G. 2007a. Changes in the chemical characteristics of water-
exstractable organic matter during composting and their influence on compost stability and maturity.
Bioresour. Technol. 98:1822-1831.
Said-Pullicino, D., Kaiser, K., Guggenberger, G., Gigliotti, G. 2007b. Changes in the chemical
composition of water-extractable organic matter compossting distribution between stable and labile
organic matter pool. Chemosphere 66:2166-2176.
Sastiono, A. dan Suwardi. Pemanfaatan zeolit alam untuk meningkatkan kesuburan tanah. Disampaikan
pada Seminar Pembuatan dan pemanfaatan Zeolit Agro untuk Meningkatkan Produksi Industri
Pertanian, Tanaman pangan dan perkebunan. Departemen pertambangan dan energi, Direktorat
Jenderal Pertambangan Umum. Bandung, 23 Agustus 1999.
Sparks, D.L., and W.C. Leibhardt, 1981. Effect long-term lime and potassium application on quantity-
intensity (Q/I) relationships in sandy soil. Soil Sci Soc. Am. J. : 45 : 786-790
Subiksa, IGM. 2005. Evaluasi ketersediaan hara kalium berdasarkan hubungan kuantitas-intensitas (Q-I)
pada tanah mineral masam. Disertasi Sekolah Pasca Sarjana Institute Pertanian Bogor.
Suriadikarta, D.A., T. Prihatini, D. Setyorini, dan W. Hartatiek. 2002. Teknologi Pengelolaan Bahan Organik
Tanah. Buku Teknologi Pengelolaan Lahan Kering menuju Pertanian Produktif dan Ramah
Lingkungan. Puslitbangtanak.. Hal 183-238.
Travera, A., E. Loffredo, C.E. Gattulo, N. Senesi. 2010. Water-extractable organic matter of different
composts:A cpmparaive study of properties and allelochemical effect on horticultural plats. Elsevier.
Geoderma 156:287-296.
Vaughan, D. and Malcolm, R.E. 1985. Influence of humic substance on growth and physiological
proceseses. In: Vaughan, D. Macolm, R.E (Eds.) Soil organic matter and biologica activity.
Dordrech, Boston. Pp. 1-36.l
Zsolnay, A. 2003. Dissolved organic matter: Artefacts, definitions, and functions. Geoderma 113: 187-209.
