References
- Ambak , K. , Bakar , Z. A. and Tadano , T. 1991 . Effect of liming and micronutrient application on the growth and occurrence of sterility in maize and tomato plants in a Malaysian deep peat soil . Soil Science and Plant Nutrition , 37 : 689 – 698 .
- Ambak , K. and Tadano , T. 1991 . Effect of micronutrient application on the growth and occurrence of sterility in barley and rice in a Malaysian deep peat soil . Soil Science and Plant Nutrition , 37 : 715 – 724 .
- Ando , H. , Hirabayashi , D. , Kakuda , K. , Watanabe , A. , Jong , F.-S. and Purwanto , B. H. 2007 . Effect of chemical fertilizer application on the growth and nutrient contents in leaflet of sago palm at the rosette stage . Japanese Journal of Tropical Agriculture , 51 : 102 – 108 .
- Davies , G. , Ghabbour , E. A. , Cherkasskiy , A. and Fataftah , A. 2001 . “ Tight metal binding by solid phase peat and soil humic acids ” . In Humic substances and chemical contaminants , Edited by: Clapp , C. E. , Hays , M. H. B. , Senesi , N. , Bloom , P. R. and Jardine , P. M. 371 – 395 . Madison , , Wisc : SSSA .
- Funakawa , S. , Yonebayashi , K. , Jong , F.-S. and Khun , E. C. O. 1996 . Nutritional environment of tropical peat soils in Sarawak, Malaysia, based on soil solution composition . Soil Science and Plant Nutrition , 42 : 833 – 843 .
- Haynes , R. J. and Swift , R. S. 1985 . Effects of soil acidification on the chemical extractability of Fe, Mn, Zn, and Cu and the growth and micronutrient uptake of highbush blueberry plants . Plant and Soil , 84 : 201 – 212 .
- Jong , F.-S. 2001 . Commercial sago palm cultivation on deep peat in Riau, Indonesia . Sago Palm , 9 : 16 – 20 .
- Jong , F.-S. and Flach , M. 1995 . The sustainability of sago palm (Metroxylon sagu) cultivation on deep peat in Sarawak . Sago Palm , 3 : 13 – 20 .
- Kawahigashi , M. , Sumida , H. , Yamamoto , K. , Tanaka , H. and Kumada , C. 2003 . Chemical properties of tropical peat soils and peat soil solution in sago palm plantation . Sago Palm , 10 : 55 – 63 .
- Laiho , R. , Sallantaus , T. and Laine , J. 1999 . The effect of forestry drainage on vertical distributions of major plant nutrients in peat soils . Plant and Soil , 207 : 169 – 181 .
- Logan , E. M. , Pulford , I. D. , Cook , G. T. and Mackenzie , A. B. 1997 . Complexation of Cu2+ and Pb2+ by peat and humic acid . European Journal of Soil Science , 48 : 685 – 696 .
- Lu , A. X. , Zhang , S. Z. and Shan , X. Q. 2005 . Time effect on the fractionation of heavy metals in soils . Geoderma , 125 : 225 – 234 .
- Ma , Y. B. and Uren , N. C. 1998 . Transformations of heavy metals added to soil: Application of a new sequential extraction procedure . Geoderma , 84 : 157 – 168 .
- Maltby , E. and Immirzi , P. 1993 . Carbon dynamics in peatlands and other wetland soils: Regional and global perspectives . Chemosphere , 27 : 999 – 1023 .
- Martin , H. W. , Ivanoff , D. B. , Graetz , D. A. and Reddy , K. R. 1997 . Water table effects on Histosol drainage water carbon, nitrogen, and phosphorus . Journal of Environmental Quality , 26 : 1062 – 1071 .
- Mathur , S. P. and Levesque , M. P. 1983 . The effects of using copper for mitigating Histosol subsidence on: 2. the distribution of copper, manganese, zinc, and iron in an organic soil, mineral sublayers, and their mixtures in the context of setting a threshold of phytotoxic soil-copper . Soil Science , 135 : 166 – 176 .
- Miyamoto , E. , Matsuda , S. , Ando , H. , Kakuda , K. , Jong , F.-S. and Watanabe , A. 2009 . Effect of sago palm (Metroxylon sagu Rottb.) cultivation on the chemical properties of soil and water in tropical peat soil ecosystem . Nutrient Cycling in Agroecosystms , 85 : 157 – 167 .
- Pokrovsky , O. S. and Schott , J. 2002 . Iron colloids / organic matter–associated transport of major and trace elements in small boreal rivers and their estuaries (NW Russia) . Chemical Geology , 190 : 141 – 179 .
- Purwanto , B. H. , Kakuda , K. , Ando , H. , Jong , F.-S. , Yamamoto , Y. , Watanabe , A. and Yoshida , T. 2002 . Nutrient availability and response of sago palm (Metroxylon sagu Rottb.) to controlled release N fertilizer on coastal lowland peat in the tropics . Soil Science and Plant Nutrition , 48 : 529 – 537 .
- Purwanto , B. H. , Watanabe , A. , Jong , F.-S. , Kakuda , K. and Ando , H. 2005 . Kinetic parameters of gross N mineralization of peat soils as related to the composition of soil organic matter . Soil Science and Plant Nutrition , 51 : 109 – 115 .
- Shuman , L. M. 1985 . Fractionation method for soil microelements . Soil Science , 140 : 11 – 22 .
- Steinmann , P. and Shotyk , W. 1997 . Chemical composition, pH and redox state of sulfur and iron in complete vertical pore profiles from two sphagnum peat bogs, Jura Mountains, Switzerland . Geochimica Cosmochimica Acta , 61 : 1143 – 1163 .
- Yamaguchi , C. , Okazaki , M. and Kaneko , T. 1994 . Sago palm growing on tropical peat soil in Sarawak, with special reference to copper and zinc . Sago Palm , 2 : 21 – 30 .
- Yamamoto , Y. , Yoshida , T. , Goto , Y. , Nitta , Y. , Kakuda , K. , Jong , F.-S. , Hilary , L. B. and Hassan , A. H. 2003 . Differences in growth and starch yield of sago palms (Metroxylon sagu Rottb.) among soil types in Sarawak, Malaysia . Japanese Journal of Tropical Agriculture , 47 : 250 – 259 .
- Yonebayashi , K. , Pechayapisit , J. , Vijarnsorn , P. , Zahari , A. B. and Kyuma , K. 1994 . Chemical alterations of tropical peat soils determined by Waksman's proximate analysis and properties of humic acids . Soil Science and Plant Nutrition , 40 : 435 – 444 .