Effect of Humic Compounds and CaCO3 Combination on Aluminium and Phosphate of Typic Paleudult Kentrong Banten (S. Winarso, E. Handayanto, Syekhfani and D. Sulistyanto): Decomposition of organic matter releases humic compounds, that can chelate metals include Al in acidic soils. This chelation of Al is important for decreasing of Al activity and P fixation in acidic soils. This study was aimed to test the effect of humic compounds extracted from rice-straw compost and CaCO3 combination on aluminium activity and phosphate (available P) on an Ultisol (Typic Paleudult) collected from Kentrong Banten.  A laboratory study was conducted by series consentration of CaCO3 (0, 500, 1.000, 2.000, dan 3.000 ppm) in 8 grams of acidic soil. The acidic soil had previously been subjected to continuously addition of humic compounds and none. Then, these mix of soil and CaCO3 were added 40 ml contained 5.000 ppm humic compounds to obtain 1:5 soil:suspension ratio and  control was made by using aquadest. They were shaked for 2 hours every day and pH was measured. At 11st days incubation  Alexch (N KCl) and soluble of P (PB and PC) were measured.  The results  showed that liming or addition of CaCO3 to the acidic soils decreased Alexch (precipitated to be Al(OH)3) linearly with formula y = -0.778x + 6.108; y = Alexch (Cmol kg-1), x = CaCO3 (M); R² = 0,916. Combination addition of humic compounds and CaCO3 was able to increase pH and Alexch up to not detected. The increased of P-soluble or desorption P untill 384% took place at addition of 0.0016 M CaCO3 and 5000 ppm humic compounds. More desorption of P was observed if the acidic soils has previously been subjected to continuously addition of humic compounds, such us the increased of soluble P up to 739% at addition of CaCO3 0.0008 M.

Alexch; CaCO3; humic compound; P desorption

Abruna, F., R.W. Pearson, and R. Perez-Escolar. 1975. Lime response of corn and beans in typical Ultisols and Oxisols of Puerto Rico. In E. Bornemisza and Alvarado (Eds.). Soil Management in Tropical America. Proceeding of a Seminar, North Caroline State University, Raleigh, pp. 262-279.

Agbenin., J.O. 2003. Extractable Iron and Aluminum Effects on Phosphate Sorption in a Savanna Alfisol. Soil Sci. Soc. Am. J. 67: 589-595.

Arya, L.M. 1990. Properties and process in upland acid soils in Sumatera and their management for crop production. Sukarami Research Institute for Food Crops. 109 p.

Hakim, N. 1982. Pengaruh pemberian pupuk hijau dan kapur pada tanah Podzolik Merah Kuning terhadap ketersediaan fosfor dan produksi tanaman jagung (Zea Mays). Disertasi Doktor. Fakultas Pascasarjana IPB. Bogor.

Mitchell, C.C. Soil Acidity and Liming (Overview). http://hubcap.clemson.edu/~blpprt/acidity2_review. html; Diakses 15 April 2006.

Moody, P.W. and R.L. Aitken. 1995. Soil acidification and lime use in some agricultural systems in Queensland Australia. In: R.A. Date, N.J. Grundon, G.E. Rayment and M.E. Probert (Eds.). 1995. Palnt-Soil Interactions at Low pH: Principles and Management. Kluwer Academic Publishers. London, pp. 749-752.

Prasetyo, B.H. dan D.A. Suriadikarta. 2006. Karakteristik, Potensi, dan Teknologi Pengelolaan Tanah Ultisol untuk Pengembangan Pertanian Lahan Kering di Indonesia. J. Litb. Pert.. 25(2): 39-46

Rima, V. 2002. Acidification of soil-the indicator of chemical soil degradation process. World Congress of Soil Science 17. 14-21 August 2002. Thailand. Paper No.10: 1-7.

Saito, M. and T. Sakuma .1995. Historical review of liming practices in Hokkaido, Northern Japan. In: R.A. Date, N.J. Grundon, G.E. Rayment and M.E. Probert (Eds.). 1995. Palnt-Soil Interactions at Low pH: Principles and Management. Kluwer Academic Publishers. London. 753-755.

Soepardi, G. 1983. Sifat dan Ciri Tanah. Institut Pertanian Bogor.

Stevenson, F.J. 1982. Humus Chemistry, Genesis, Composition, Reaction. A Wiley-Interscience Pub. John Willey and Sons. Toronto.

Subandi. 2007. Teknologi Produksi dan Strategi Pengembangan Kedelai pada Lahan Kering Masam. Iptek Tanaman Pangan Vol. 2 (1): 12-24.

USDA. 1999. Liming To Improve Soil Quality in Acid Soils. Technical Note No. 8. May 1999. Independence Avenue, SW, Washington, D. C. 20250-9410.

Wilson, D. E.and P. Kinney. 1976. Effects of polymeric charge variations on the proton-metal ion equilibria of humic materials. Department of Environmental Sciences, University of Virginia, Charlottesville 22903.

Winarso, S. 1996. Pengaruh penambahan bahan organik segar dan dikomposkan terhadap pengkelatan alumunium oleh senyawa-senyawa humik pada Typic haplohumult. Tesis S2. Institut Pertanian Bogor.

Winarso, S. 2007. Efektivitas Kombinasi Senyawa Humik, Bakeri Pelarut Fosfat, dan Zeolit dalam Memperbaiki Tanah Mineral Masam. Prosiding Seminar HITI 2007: Solusi Miskelola Tanah dan Air untuk Memaksimalkan Kesejahteraan Rakyat. Fakultas Pertanian UPN Veteran Yogyakarta. Buku 2: 1175-1185.

Winarso, S., E. Handayanto, Syekhfani, dan D. Sulistyanto. 2008. Pengaruh senyawa humik terhadap aktivitas alumunium dan Fosfat Typic Paleudult Kentrong Banten. J. Agrivita. In Press.