DAFTAR PUSTAKA Ae, N. and R.F. Sen. 2002. Root cell-wall properties are proposed to contribute to phosphorus (P) mobilization by groundnut and pigeonpea. Plant Soil 245: 95-103. Agustina, K., D Sopandie, Trikoesoemanigtyas. 2010. Tanggap Fisiologi Akar Sorgum [Sorghum bicolor (L.) Moench] terhadap Cekaman Aluminium dan Defisiensi Fosfor di dalam Rhizotron. J. Agron. Indonesia 38(2): 88—94. Akhter, A., S.H. Khan, E. Hiroaki, K. Tawaraya, M. Rao, P. Wenzl, S. Ishikawa and T. Wagatsuma. 2009. Greater contribution of low-nutrient tolerance to sorghum and maize growth under combined strees conditionwith high aluminum and low nutrient in solution culture simulating the nutrient status of tropical acid soils. Soil Sci. Plant Nutr. 55: 394-406. Anas and T. Yoshida. 2000. Screening of Al-tolerant Sorghum by Hematoxylin Staining and Growth Response. Plant Prod Sci. 3:246-253. Archambault DJ, Zhang G, Taylor GJ.1996. Accumulation of Al in root mucilage of an Al-resistent and Al-sensitif cultivar of wheat. Plant Physiol 112:1471—1478. Badan Penelitian dan Pengembangan Departemen Pertanian. 2005. Rencana Aksi Pemantapan Ketahanan Pangan 2005-2010. Lima Komoditas: Beras, Jagung, Kedelai, Gula, dan Daging Sapi. Balitbangtan Deptan., Jakarta. Bakhtiar, B.S. Poerwoko, Trikoesoemaningtyas, M.A. Chozin, M. Amin. 2007. Penapisan galur-galur haploid ganda padi gogo hasil kultur antera untuk toleransi terhadap cekaman aluminium. Buletin Agronomi 35(l):8—14 Baligar VC, Pitta GVE, Gama EEG, Schaffer RE, de Bahia Filho, Clark RB.1997. Soil acidity affects on nutrient use efficiency in exotic maize genotypes. Plant Soil 192:9—13 Bar-Yosef B. 1991. Root excretions and their enviromental effects: Influence of availability of phosphorus. Dalam Waisel Y, Eshel A dan Kaficafi U (eds) Plant roots, The Hidden Half Marcel Dekker. Biomass Conversion Committee of CAREI. 2006. Green Oil Field: Sweet sorghum-Bioethanol. “Chuntian” series: Sweet sorghum cross breed 3 strain breeding. Blair G. 1993. Nutrient efficiency-what do we really mean? Randal PJ, Deihaize B, Richards RA, Mun R (eds). Genetic Aspects of Plant Mineral Nutrition. Kluwer, Dodrecht, tha Netherland. P 205—213 Blum A. 1998. Plant Breeding for Stress Enviroments. Boca Raton, Florida. CRC Press. Borrell, A., E.V. Oosterom, G. Hammer, D. Jordan, and A. Douglas. 2006. The physiology of “stay-green” in sorghum. Hermitage Research Station, University of Quensland, Brisbande.
74 Bullard, R.W. and J.O. York. 1985. Breeding for bird resistance in sorghum and maize. In Progress in Plant Breeding 1. G.E Russel (Ed.). Butterworthand Co. Ltd. London. 325 p. Caradus JR. 1990. Mechanisms improving nutrient use by crops and herbage legumes. Dalam Baligar VC and Duncan RR (eds) Crops as Enhancher of Nutrient Use. San Diego, CA. Academic Press, pp.253-311. Cardoso, I.M dan T. W. Kuyper. 2006. Mycorrhizas and tropical soil fertility. Agriculture, Ecosystems and Environment 116: 72—84. Clark RB, Flores CL, Gourley LM, Duncan RR. 1990. Mineral element concentration and grain yield of sorghum (Sorghum bicolor) and pearl millet (Pennisetum glaucum) grown on acid soil. Di dalam ML van Beusichem, editor. Plant Nutrition-Physiology an Application. Netherlands: Kluwer Acad Publ. Him 391— 396 Degenhardt J, Larsen PB, Howell SH, Kochian LV.1998. Aluminium resistance in the Arabiclopsis mutant alr-104 is caused by aluminium-induced increase in rhizospere pH. Plant Physiol 117:18—27. Departemen Kesehatan RI. 1992. Daftar Komposisi Bahan Makanan. Bhrata. Jakarta. 57 hal. Direktorat Jenderal Tanaman Pangan. 2007. Arah Kebijakan Pengembangan Sorgum Manis sebagai Sumber Bahan Baku Bioetanol. Makalah pada workshop “Peluang dan Tantangan Sorgum Manis sebagai Bahan Baku Bioetanol”. Dirjen Perkebunan, Departemen Pertanian, Jakarta. 14 hal. FAO. 2002. Sweet Sorgum in China. Spotlight 2000. Freeman, J.E. 1970. Development and Structure of The Sorghum Plant and Its Fruit. Dalam Sorghum Production and Utilization: Major Feed and Food Crops in Agriculture and Food Series. Editor: Joseph S. Wall dan William M. Ross. The Avi Publishing Company, Connecticut. Pp. 28—72. Gardner, F.P., R.B. Pearce dan R.L. Mitchell. 1991. Fisiologi Tanaman Budidaya. Penerjemah Herawati Susilo. Universitas Indonesia Press, Jakarta. 428 hal. Grassi, G. 2001. Sweet sorghum: one of the best world food-feed-energy crop. Latin America Thematic Network on Bioenergy (LAMNET). Grassi, G. 2005. Technologies of liquid biofuels production in Europe. European Biomass Industry Association (EUBIA). 24p. Gerloff GC. 1976. Genetic potentials in nitrogen, phosphorus and potassium efficiency. Dalam Wright MJ (ed.) Plant Adaptation to mineral Stress in Problem Soils. 205—215 Glass DM. 1990. Ion Absorbtion and utilization: the cellular level. Dalam Baligar VC and Duncan (eds) Crops as Enhaneher of Nutrient Use. San Diego, CA. Academic Press, pp 3—35 Hardjowigeno, S. 2003. Ilmu Tanah. Akademika Pressindo. Jakarta.
75 Harjadi, S.S. 1996. Pengantar Agronomi. Gramedia Pustaka Umum. Jakarta. Havlin, J.L., J.D. Beaton, S.L. Tisdale and W.L. Nelson. 1999. Soil Fertility and Fertilizer. Sixth Ed. Prentice-Hall, Inc. New Jersey. Haynes RJ. 1990. Active ion uptake and maintenance of cation-anion balance; A critical examination of their role in regulating rhizosphere pH. Plant Soil 126: 247—264. Hidayat, A. dan A. Mulyani. 2002. Lahan Kering untuk Pertanian. Dalam Teknologi Pengelolaan Lahan Kering. Penyunting: A. Adimihardja, Mappaona dan Arsil Saleh. Pusat Penelitian dan Pengembangan Tanah dan Agroklimat, Badan Litbang Deptan, Bogor. Hal. 1-34. Hoeman, S. 2007. Peluang dan potensi pengembangan sorgum. Makalah pada Workshop ―Peluang dan tantangan sorgum sebagai bahan baku bioetanol‖. Dirjen Perkebunan, Departemen Pertanian. Jakarta. 10 hal. Hoorwitz, W (Ed.). 2005. Official Methods of Analysis of AOAC International. 18th edition. Vol I. Agricultural Chemicals, Contaminants, Durgs. AOAC International, Maryland USA. Hopkins, A.A., D.P. Malinowski, H. Zhang, and D.W. Walker. 2004. Russian Wildrye Seedling are Sensitive to Acid Soil. Crop Sci. 44: 2187-2192. House, LR. 1985. A guide to Sorghum Breeding. 2nd Ed. International Crops Research Institute for Semi-Arid Tropics (ICRISAT). India. 206p. Hu, B., P. Wu, C.Y. Liao, W.P. Zhang and J.J. Ni. QTLs and epistasis underlying activity of acid phosphatase under phosphorus sufficient and deficient condition in rice (Oryza sativa L.). Plant Soil 230: 99-105. Illmer, P.A. and F. Schinner. 1992. Solublization of inorganic phosphate by microorganism isolated from forest soils. Soil Biol. Biochem. 24 (4): 389395. Iman, P. dan Nurcahyo. 2005. Krisis Minyak Dunia dan Indonesia. ―Priyadi’s Place‖. Previous Post. International Crops Research Institute for Semi-Arid Tropics (ICRISAT). 1996. A guide to Sorghum Breeding. [ICRISAT]. India. 206p. Isnaini, 2010. Studi Pewarisan Sifat Toleransi Aluminium Tanaman Sorgum Manis [Sorghum bicolor (L.) Moench]. [Tesis]. Sekolah Pascasarjana. Institut Pertanian Bogor. Jakobsen, I. 1995. Transport of phosphorus and carbon in VA mycorrhizas. In A Varma, B Hock, eds, Mycorrhiza. Springer-Verlag, Berlin, pp 297—324 Johnson, J.F., C.P. Vance, and D.L. Allan. 1996. Phosphorus deficiency in Lupinus albus: Altered lateral root development and enhanced expression of phosphoenolpyruvate carboxylase. Plant Physiol. 112: 31—41. Johnson, S.E. and R. H. Loeppert. 2006. Role of Organic Acids in Phosphate Mobilization from Iron Oxide. Soil Sci. Soc. Am. J. 70:222—234
76 Kabirun, S. 2002. Tanggapan Padi Gogo Terhadap Inokulasi Jamur Mikoriza Arbuskula dan Pemupukan Posfat di Entisol. Jurnal Ilmu Tanah dan Lingkungan Vol 3(2) Hal. 49-56. Kaeppler, S. M., J. L. Parke, S. M. Mueller, L. Senior, C. Stuber, W. F. Tracy. 2000. Variation among Maize Inbred Lines and Detection of Quantitative Trait Loci for Growth at Low phosphorus and Responsiveness to Arbuscular Mycorrhizal Fungi. Crop Science 40:358-364. Kaltjen WG, Ulden PSR. 1987. Effect of Al on nitrogen (N03 and NH4) uptake, nitrate reductase activity and proton release in two cultivar differing in Al tolerance. Plant Soil 104: 227—234 Karandashov, V and M. Bucher. 2005. Symbiotic phosphate transport in arbuscular mycorrhizas. TRENDS in Plant Science Vol.10 No.1 January 2005. Kelly, C.N., J.B. Morton, and J.R. Cumming. 2005. Variation in aluminum resistance among arbuscular mycorrhizal fungi. Mychorrhiza 15: 193-201. Kochian LV, Pineros MA, Heokenga OA. 2005. The physiology, genetics and molecular biology of plant aluminum tolerance and phosphorus efficiency. Annu Rev Plant Physiol Mo! Blot 46: 273—260 Kochian LV.1995. Sellular mechanisms of aluminum toxicity and resistance in plant. Annu Rev Plant Physiol Mo! Biol 46: 273—260 Kochian, Leon V. dan Owen A. Hoekenga. 2004. How do crop plant tolerance acid soils? Mechanism of aluminium tolerance and phosphorus efficiency. Ann. Rev. Plant Biol. 55: 459—493 Koyama H, Kawam.ura A, Kihara T, Hara T, Takita E, Shibata D. 2000. Over expression of mitochondrial citrate synthase in Arabidopsis thaliana improved growth on a phosphorus-limited soil. Plant Cell Physiol 41: 1030—l 037 Li, M., M. Osaki, I.M. Rao, and T. Tadano. 1997. Secretion of phytase from the roots of several plant species under phosphorus-deficient conditions. Plant Soil 195:161— 169. Linderman, R. G. 1988. Mycorrhizal interaction with the rhizosphere microflora: The mycorhizosphere effect. In: Phytopathology, 78, no. 3; p. 366-371. Liu, M. 2007. Phosphorus Requirement of St. Augustinegrass. Dissertation. University of Florida. Ma JF, Hiradate S. Matsumoto H. 1998. High aluminum resistance in buckwheat IL Oxalic acid detoxifies aluminum internally. Plant Physiol 117: 753—759. Ma JF, Hiradate S. Nomoto K, Iwashita T, Matsumoto H. 1997. Internal detoxification mechanism of Al in hydrangea: Identification of Al form in leaves. Plant Physiol 113: 1033—1039 Ma JF, Hiradate S. 2000. Form of aluminum for uptake and translocation in buckwheat (Fogopyrum sculentum Moench). Planta 211: 3 55—360
77 Ma JF. 2000. Role of organic acids in detoxification of aluminum in higher plants. Plant Cell Physiol 41: 383—390 Marschner, H. 1995. Mineral Nutrition of Higher Plants. 2nd Edition. Academic Press. London, San Diego, New York, Boston, Sydney, Tokyo, dan Toronto. 889p. Matsumoto H., Yamamoto, Y dan Kasai M. 2003. Change of some properties of the plasma membrane enriched fraction of barley roots related to aluminium stress: membranes associated ATP-ase, aluminium, and calcium. Soil Sci. Plant Nutrition. 38: 411—419 Medco Energi. 2007. Kesimpulan Workshop ―Peluang dan Tantangan Sorgum Manis sebagai Bahan Baku Bioetanol’. Dirjen Perkebunan, Departemen Pertanian. Jakarta. Murley VR, Theodorou ME and Placton W.1998. Phosphate starvation-inducible pyrophosphate dependent phosphofructokinase occurs in plants whose roots do not form symbiotic association with mycorrhyzal fungi. Physiologia Plantarum 103: 405—414 Nagy, R, Vasconcelos MJ, Zhao S. McElver 3, Bruce W, Amrhein N, Raghothama KG, Bucher M. 2006. Differential regulation of five Phtl. phosphate transporters from maize (Zea mays L.). Plant Biology 8:186-497. Nielsen NE, Schooring JK. 1983. Efficiency and kinetics of phosphorus uptake from soil by various barley genotypes. Plant and Soil 72: 225—230 Okada K, Fischer AJ, Ferez-Salasar FA, Canon-Romero Y. 2003. Difference in retention of Ca and Al as possible mechanism of Al resistance in upland rice. Soil Sci Plant Nutr 49: 889—895 Ozawa K, Osaki M, Matsui H, Houma M, Tadano T. 1995. Purification and properties of acid phosphate secreted from lupin roots under P deficiency condition. Soil Sci. Plant Nutr 41: 461—469 Petunjuk Teknis Analisis Kimia Tanah, Tanaman Air, dan Pupuk. 2005. Balai Penelitian dan Pengembangan Pertanian. Departemen Pertanian. Bogor Poerwanto, R. 2003. Peran Manajemen Budidaya Tanaman Dalam Peningkatan Ketersediaan dan Mutu Buah-buahan. Orasi Ilmiah Guru Besar Tetap Ilmu Hortikultura. Fakultas Pertanian, Institut Pertanian Bogor, Bogor. 13 September 2003 Poirer Y, Thama S, Sommerville C. Scievelbien 3. 1991. A mutant of Arabidopsis deficient in xylem loading of phosphate. Plant Physiol 97: 1087—1093 Prasetiyono, J. dan Tasliah. 2003. Strategi pendekatan bioteknologi untuk pemuliaan tanaman toleran keracunan aluminium. Jurnal Ilmu Pertanian 10: 64-76. Prosiding. Simposium Nasional Pendayagunaan Tanah Masam, Bandar Lampung, 29— 30 September 2003. BUKU II. Pusat Penelitian dan Pengembangan Tanah dan Agroklimat. Badan Penelitian dan Pengembangan Pertanian. Departemen Pertanian.
78 Rahmi, Y.A., Syuryawati, dan Zubachtirodin. 2009. Deskripsi Sorgum Varietas Kawali dan Numbu. Balai Penelitian Tanaman Serealia, Maros, Sulawesi Selatan. Rao IM. 1996. The role of phosphorus in photosynthesis. Dalam Handbook of photosynthesis. New York. Marcel Dekker. Rao IM, Frisen DK, Osaki M. 1999. Plant adaptation to phosphorus limited tropical soils. Dalam Pessarakli M (ed.) Handbook of Plant and Crop Stress. New York. Marcel Dekker. Reddy, B.V.S. and W.D. Dar. 2007. Sweet Sorghum for Bioethanol. Makalah pada workshop ―Peluang dan Tantangan Sorgum Manis sebagai Bahan Baku Bioetanol‖. Dirjen Perkebunan, Departemen Pertanian, Jakarta. 8 hal. Rengel, Z. 2000.Role of calcium in aluminium. New Phytol. 21:499-513 Rismunandar. 1989. Sorgum Tanaman Serba Guna. Bandung; Sinar Baru. 62 hal. Ruaysoongnem, S. and P. Keerati-kasikorn. 1996. Role of phosphorus fertilization in improving soil fertility of acid tropical and subtropical soils in Asia. In. Nutrient Management for Sustainable Food Production in Asia. International Conference in Asia, at December 9-12, 1996, Bali, Indonesia. Agency for Agricultural Research and Development (AARD). Ministry of Agriculture-Republic of Indonesia. Ryan, P.R., R.J. Reid and F.A. Smith. 1997. Direct evaluation of the Ca+2displacement hyphothesis for Al toxicity. Plant Physiol. 113: 1351-1357. Salisbury, F.B. and C.W. Ross. 1985. Plant Physiology. Third Edition. Wadsworth Publishing Company, Belmont, California. 540p. Samac Da, Tasfaye M. 2003. Plant improvement for tolerance to aluminum in acid soils. Plant Cell Tissue and Organ Culture 75: 1 89—207 Sanchez, P.A., Palm, C.A., Buol, S.W., 2003. Fertility capability soil classification, a tool tohel assess soil quality in the tropics. Geoderma 114: 157—185 [SFSA] Syngenta Foundation for Sustainable Agriculture. 2003. Sorghum: increasing opportunities and choice for poor rural communities in semi-arid areas through sustainable innovation in agriculture. http://www.syngenta foundation.com/sorghum.htm [24 juli 2008]. Sierra, J., H.O. Lafontaine, L. Dufour, A. Meunier, R. Bonhomme and C. Welcker. 2005. Nutrient and assimilate pertitioning in two tropical maize cultivars in relation to their tolerance to soil acidity. Article in Press Field Crops Research. 16p. Sivaguru M and Paliwal K. 1993. Differential Al-tolerance in some tropical rice cultivar: Growth Performance. J of Plant Nutr 16:1705-1716 Soepardi, G. 1983. Sifat dan Ciri Tanah. Institut Pertanian Bogor. 591p. Sopandie, D. 2006. Perspektif Fisiologi dalam Pengembangan Tanaman Pangan di Lahan Marjinal. Orasi Ilmiah Guru Besar Tetap Fisiologi Tanaman. Fakultas Pertanian, Institut Pertanian Bogor, Bogor. 26 Sept. 2006.
79 Sungkono. 2007. Seleksi tanaman sorgum [Sorghum bicolor (L.) Moench] untuk produktivitas biji dan bioetanol tinggi pada tanah masam melalui pendekatan Participatory Plant Breeding. Disertasi. Sekolah Pascasarjana Institut Pertanian Bogor. Sungkono. 2010. Seleksi Galur Mutan Sorgum [Sorghum bicolor (L.) Moench] Untuk Produktivitas Biji dan Bioetanol Tinggi Di Tanah Masam Melalui Pendekatan Participatory Plant Breeding. [Disertasi]. Bogor: Sekolah Pasca Sarjana, Institut Pertanian Bogor. Susila, A.D, 2004. Fungsi Hara. Bahan Kuliah Interaksi Hara dan Tanaman. Institut Pertanian Bogor. Bogor Suwarno, H.M. Toha dan Ismail B.P. 2004. Ketersediaan teknologi dan peluang pengembangan padi gogo. Dalam Seminar IPTEK Padi pada Pekan Padi Nasional II. Balai Penelitian Tanaman Padi, Sukamandi. 18 hal. Swasti E. 2004. Fisiologi dan Pewarisan Sifat Efisiensi Fosfor pada Padi Gogo dalam Keadaan Tercekam Aluminium. Disertasi . Sekolah Pascasarjana IPB. Bogor. Taiz, L. and E. Zeiger. 2002. Plant Physiology. Third Edition. Associates, Publishers. Sunderland, Massachusetts. 690p.
Sinauer
Tan, K.I-1. 1998. Principle of Soil Chemistry. Thirth Ed. Marcel Dekker, New York, Basel, Hongkong. Tanaka, A. 1980. Physiological aspects of productivity in field crops. Symposium on Potential Productivity of Field Crop under Difference Environments. IRRI, Los Banos, Philippines. pp. 61-80. Toure, A., F.W. Rattunde, and E. Weltzien. 2004. Guinea sorghum hybrids: Bringing the benefits of hybrid technology to a staple crop of sub-Saharan Africa. IER-ICRISAT. Trikoesoemanigtyas, D Sopandie, dan D.Wirnas. 2007. Pengembangan Sorgum untuk Bioetanol di Lahan Kering Masam: Fisiologi, Genetika dan Pemuliaan. Proposal HPTP (tidak dipublikasikan), IPB. Bogor Trikoesoemaningtyas. 2002. Fisiologi dan Pewarisan Sifat Efisiensi Kalium dalam Keadaan Tercekam Aluminium pada Padi Gogo. Disertasi. Program Pascasarjan Institut Pertanian Bogor. Uhde-Stone, C., K.E. Zinn, M.R. Yanez, A. Li, C.P. Vance and D.L. Allan. 2003. Nylon filter arrays reveal differential gene expresion in proteoid roots of white lupin in response to phosphorus deficiency. Plant Physiol. 131: 1064Watanabe T, Okada K. 2005. Interactive effects of Al, Ca and others cations on root elongation of rice cultivar under low pH. Ann Bot 95: 379—385 WANG Jun-ping, RAMAN Harsh, ZHANG Guo-ping, MENDHAM Neville, ZHOU Mei-xue. 2006. Aluminum tolerance in barley (Hordeum vulgare L.): physiological mechanisms, genetics and screening methodes. Journal of Zhejiang University SCIENCE B. 7(10): 769-787.
80 Watanabe T, Osaki M, Yano H, Rao I. 2006. Internal mechanisms of plant adaptation to aluminum toxicity and phosphorus starvation in three tropical forages. J Plant Nutr 29: 1243—1255 Willett, I.R., P.W. Moody and F.P.C. Blarney. 1996. The essential role of phosphorus in crop production. In. Nutrient Management for Sustainable Food Production in Asia. International Conference in Asia, at December 912, 1996, Bali, Indonesia. Agency for Agricultural Research and Development (AARD). Ministry of Agriculture-Republic of Indonesia. Yamamoto YT, K Ono, K Mametsuka, M asai, dan H Matsumoto. 1992. Growth inhibition by aluminum is alleviated by phospathe starvation in cultured tobacco cell. In Plant Cell Walls as Biopolymers with Physiological Function. Yamada Science Foundation, Osaka. Pp 404—406. Yudiarto, M. A. 2006. Pemanfaatan Sorgum sebagai Bahan Baku Bioetanol. Balai Besar Teknologi Pati (B2TP), Badan Pengkajian dan Penerapan Teknologi (BPPT), Lampung. Zheng SJ, Yang JL, He YF, Yu XII, Zhang L. You JF, Shen RF, Matsurnoto H. 2005. Immobilizattion of aluminum with phosphorus in roots is associated with high aluminum resistance in buckwheat. Plant Physiol 138: 297—303.
