Modifikasi Titik Muatan Nol Tanah Bermuatan Terubahkan melalui Pemberian Campuran Abu Terbang Batubara-Kotoran Ayam

Agus Hermawan, Sabaruddin Sabaruddin, Marsi Marsi, Renih Hayati, Warsito Warsito


ABSTRAK. Tujuan penelitian ini adalah untuk mengetahui pengaruh pemberian campuran abu terbang-kotoran ayam (ATB-KA) terhadap perubahan titik muatan nol (TMN) tanah dan dampaknya terhadap jerapan dan ketersediaan P pada Ultisol. Dua perlakuan yang diuji adalah ATB-KA (w/w 1:1) pada dosis 0, 15, 30, 45 dan 60 ton ha-1, dan pemupukan P pada dosis 0, 87, 174, 261 dan 348 kg P2O5 ha-1.  Perlakuan ini ditata dalam Rancangan Acak Lengkap yang diulang sebanyak tiga kali. Hasil penelitian menunjukkan bahwa aplikasi CATK untuk setiap dosis pemupukan P berkorelasi secara nyata dengan status tanah TMN, pH, muatan negatif, jerapan dan ketersediaan P. TMN berkorelasi positif dengan pH dan muatan negatif. Muatan negatif secara nyata berkorelasi negatif dengan jerapan P, dan berkorelasi positif dengan P tersedia.


Modification of PZS of Soil With Variable Charge by Application of Coal Fly Ash-Chicken Manure Mixture

ABSTRACT. The objective of current research was to study the effect of coal fly ash-chicken manure mixture (FA-CM) on the changes on the soil PZC status and its impact on P sorption and availability in Ultisols. Two treatments - FA-CM mixture (w/w of 1:1) at the rate of 0, 15, 30, 45 and 60 ton ha-1, and P fertilization at the rate of 0, 87, 174, 261 and 348 kg P2O5 ha-1 were tested.  These treatments were arranged according to Factorial Completely Random Design with three replicates. The results showed that the application of FA-CM for each dosages of P fertilizer correlated significantly with the status of soils PZC, pH, negative charge, P sorption and P-available. PZC has possitive correlation with pH and negative charge. Negative charge has a significantly negative correlation with P sorption, and posssitively correlation with P-available.


kotoran ayam; abu terbuang; perubahan titik nol; Ultisols; chicken manure; coal fly ash; point of zero charge (PZC)

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Ano, A.O. & C.I. Ubochi. 2007. Neutralization of soil acidity by animal manures: mechanism of reaction. Afr. J. Biotechnol 6(4): 364-368

Brouwers, H.J.H. & R.J. Van Eijk. 2003. Chemical reaction of fly ash. p.791-800. Proceedings of the 11th International Congress on the Chemistry of Cement (ICCC). The Cement and Concrete Institute of South Africa, Durban, South Africa.

Djuniwati, S., B. Nugroho, & H.B. Pulunggono. 2012. The changes of P-fractions and solubility of phosphate rock in Ultisol treated by organic matter and phosphate rock. J Trop Soils, 17(3): 203-210.

Fox, R. L. & Kamprath, E. J. 1970. Phosphate sorption isotherm for evaluating the phosphate requirements of soils. Soil Sci. Soc. Am. Proc. 34: 902-907.

Havlin, J.L., J.D. Beaton, S.L. Tisdale & W.L. Nelson. 1999. Soil fertility and fertilizers an introduction to nutrient management. 6th ed. Prentice Hall, New Jersey.

Haynes, R.J., & M.S. Mokolobate. 2001. Amelioration of Al toxicity and P deficiency in acid soils by additions of organic residues: a critical review of the phenomenon and the mechanisms involved. Nutr. Cycl Agroecosyst 59: 47-63.

Hermawan, A., Sabaruddin, Marsi, & R. Hayati. 2013. Status jerapan dan ketersediaan P abu terbang batubara akibat penambahan kotoran ayam. Hal 245-255Prosiding Seminar Nasional Lahan Suboptimal. Palembang.

Huang, P.M., M. Wang & C. Chiu. 2005. Soil mineral-organic matter-microbe inter-actions: Impacts on biogeochemical processes and biodiversity in soils. Pedobiologia 49: 609-635.

Kishor P, A.K. Ghosh & D. Kumar. 2010. Use of fly ash in agriculture: A way to improve soil fertility and its productivity. Asian J. of Agric. Res 4(1): 1-14

Marsi & Sabaruddin. 2011. Phosphate adsorption capacity and organic matter effect on dynamics of P availability in upland Ultisol and lowland Inceptisol. J Trop Soils 16(2): 107-114

Ricou, P.H, I. Lecuyer & P. Le Cloirec. 2001. Experimental design methodology applied to adsorption of metallic ions onto fly ash. Wat. Res. 35(4): 965-976.

Sabaruddin, K., S. Ishizuka, K. Sakurai, S. Tanaka, S. Kubota, M. Hirota, S.J. Priatna, & Juairiah. 2001. Characteristics of Ultisols under different wildfire history in South Sumatra, Indonesia: I. Physicochemical properties. Tropics 10(4): 565 – 580

Sajwan, K.S, S. Paramasivam, A.K. Alva & S.V. Sahi. 2006. Fly ash-organic byproduct mixture as soil amandment. Soil and Water Pollution Monitoring, Protection and Remediation, 3–23.

Sakurai, K., Nakayama, A., Watanabe, T., & Kyuma, K. 1989. Influences of aluminum ions on the determination of ZPC (zero point of charge) of variable charge soils. Soil Sci. Plant Nutr., 35(4): 623-633

Sakurai, K., Y. Ohdate, & K. Kyuma. 1988. Comparison of salt titration and potentiometric titration methods for the determination of zero point of charge (ZPC). Soil Sci. Plant Nutr., 34(2): 171-182

Sakurai, K., S. Kozasa, B. Puriyakorn, P. Preechapanya, V. Tanpibal, K. Muangnil, & B. Prachaiyo. 1996. Mineralogical and physico-chemical properties of four Thai soils with special reference to specific surface area (SSA) and zero point of charge (ZPC). Soil Sci. Plant Nutr., 42(1): 93-103

Sanchez, P. A. & Uehara. G. 1980. Management considerations for acid soils with phosphorus fixation capacity. In. The Role of Phosphorus in Agriculture. ASA-CSSA-SSSA. Madison.

Shamshuddin, J. & M. Anda. 2008. Charge properties of soils in Malaysia dominated by kaolinite, gibbsite, goethite and hematite. Bulletin of the Geological Society of Malaysia 54: 27-31

Shamshuddin, J. & M. Anda. 2012. Enhancing the productivity of Ultisols and Oxisols in Malaysia using Basalt and/or Compost. Pedologist 382-391

Sims, J.T. 2009. A phosphorus sorption index. p. 20-21. In: Kovar, J.L., and G.M. Pierzynski (eds). Methods for Phosphorus Analysis for Soils, Sediments, Residuals, and Waters – 2nd Edition. Southern Cooperative Series Bulletin No. 408. Virginia Tech University.

Sposito, G. 2008. The chemistry of soils. 2nd Ed. Oxford University Press, Inc. New York.

Stevens, G & D. Dunn. 2004. Fly ash as a liming material for Cotton. J. Environ. Qual. 33:343–348

Sulaeman, Suparto, & Eviati. 2005. Petunjuk Teknis Analisis Kimia Tanah, Tanaman, Air, dan Pupuk. Balai Penelitian Tanah, Balitbangtan, Departemen Pertanian. Jakarta.

Tan, K.H. 1998. Principles of Soil Chemistry. Third Edition. Revised and Expanded. Marcel Dekker, Inc., New York.

Tan, K.H. 2003. Humic Matter in the soil and the environment: Principles and Controversies. Marcel Dekker, Inc. new York. USA.

Uehara, G & G.P. Gillman. 1981. The mineralogy, chemistry and physics of tropical soils with variable charge clays. Westview Press. Colorado.

Yunusa, I. A. M., Eamus, D., DeSilva, D.L., Murray, B.R., Burchett, M.D., Skilbeck, G. C, & C. Heidrich. 2006. Fly-ash: An exploitable resource for management of Australian agricultural soil. Fuel. 85: 2337-2344.


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