The acidic soil is generally less productive due to soil pH ranging from 3.1 to 5.0. However, it could be solved through soil amelioration, planting tolerant varieties to acidic soil condition, and a combination of both. Twenty peanut genotypes including two check varieties (Jerapah and Talam 1) were evaluated on dolomite-ameliorated and non ameliorated soil. In the greenhouse, the treatments were laid out in factorial design with four replications, while in the field using strip plot design with three replications. Assessment of tolerance was using Stressed Tolerance Index (STI) according to Fernandez (1992). Results showed that dolomite application at dose equivalent to 0.5 x exchangeable Al was optimal in improving peanut growth, and peanut yield on acidic soil. Lines of GH3 (G/92088/92088-02-B-2-8-1) and GH 4 (G/92088/ 92088-02-B-2-8-2) genotypes had high STI with average yield of 2.47 tha^-1 and 2.62 t ha^-1 of dry pods and potential yield of 4.05 t ha^-1 and 3.73 t ha^-1 of dry pods, respectively as well as check varieties (Jerapah and Talam-1). It is concluded that peanut genotype of G/92088//92088-02-B-2-8-1 and G/92088//920 88- 02-B-2-8-2 were adaptable and tolerance to acidic, and tolerance of peanuts on acidic soil condition were probably controlled by the buffering mechanisms.

Keywords: peanut, acidic soil, tolerance

Ackura, M., F. Partigoc, and Y. Kaya. 2011. Evaluation of drought stress tolerance based on selection indices in Turkish bread wheat landraces. J. of Animal & Plant Sci. 21(9): 700-709.

Fernandez, G.C.J. 1992. Effective selection criteria for assessing plant stress tolerance. in C.G Kuo (Edt). Adaptation of Food Crops to Temperature and Water Stress. Proc. of an Inter. Symp. Taiwan. 13-18 August 1999. AVRDC. p. 257-270.

Giaveno,C.D. andB.M. Filho. 2002. Field comparison between selection methods at maize seedling stage in relation to aluminium tolerance. Sci. Agric. 59(4): 397-401.

Hairiah, K., Widianto, S.R Utami, D. Suprayogo, Sunaryo, S.M Sitompul, B. Lusiana, R. Noble, M.V Noordwijk and G. Cadisch. 2000. Land Management. in Biology: Reflection Experience of North Lampung. SMT Graphic Son Village. Jakarta. pp.187.

Haynes, R.J. and 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. Nut. Cycl. Agroecosys. 59: 47–63

Hede, A.R., I.B. Scovmand and J. Lopez-Cesati. 2001. Acid Soil and Aluminium Toxicity. in. Reynolds, M.P.,J.I Ortiz Monasterio, and A. McNab (eds.). Application of physiology in wheat breeding. CIMMYT, Mexico.

Hede, A.R, B. Skovmand, J.M Ribaut, D. Gonzalez-de-leon and O. Stolen. 2002. Evaluation of aluminium tolerance in a spring rye collection by hydroponic screening. Plant Breeding 121(3): 241-248.

Kasno, A. 2006. Development prospects in dryland peanut acidic and tidal land. Crop Bulletin. Crops Buletin No. 11.

Kasno, A., Trustinahand and B. Swasono. 2011. Optimization of genetic diversity in the formation of essentially derived varieties tolerant of acidic soil in peanuts. p. 390-402. In Adi Widjono et al. (Eds). Innovation acceleration technology to support increased production assorted nuts and sweet. Proceedings. CRIFC.

Kasno, A., Trustinah, and A.A Rahmianna. 2012. Selection of lines peanut adaptive and productive land acidic. p. 489-501. in Adi Widjono et al. (Eds). Innovation technology and economic assessment commodities assorted nuts and bulbs supports for successful Ministry of Agriculture. Proceedings. Puslitbangtan.

Koesrini, A.N., and M. Sabran. 1994. Tolerance of some peanut lines on red yellow podzolic acidic. Kindai. 5(1): 1-6. Balittan Banjarbaru, Banjarmasin.

Koesrini, A.N, Sumanto, and Mukarji. 2005. Variability tolerance and yield of peanuts in acidic soil. In Proceedings of the National Seminar on Technological Innovation Swamp Land Reacidicce Management and Control of Environ-mental Pollution. Swamp Land Res. Center. Banjarbaru, South Kalimantan. p. 229-241.

Makmun, M.Y., M. Gamanik and M. Willis. 1996. System of production and development of peanuts in Borneo. p. 195-206. in Saleh, N., K.H. Hendroatmojo, A. Kasno, A.G. Manshuri, and A. Winarto (Eds). Proc. of Seminar on Prospects Abribisnis Peanuts in Indonesia. Special Issue No. 7 Balitkabi.

Mohammadi, R., M. Armion, D. Kahriziand A. Amri. 2010. Efficiency of screening techniques for evaluating durum wheat genotypes under mild drought conditions. Inter.J. Plant Pro. 4(1): 11-24

Mousavi, S.S., S.B. Yazdi, M.R. Naghavi, A.A. Zali, H. Dashti and A. Pourshahbazi. 2008. Introduction of new indices to identify relative drought tolerance and resistance in wheat genotypes. Desert. 12: 165-178.

Mulyani, A. 2006. The potential for the development of dryland agriculture acidic. News Research and Development 28(2): 16-17.

Murata, M.R., P.S. Hammeand G.E Zharare. 2003. Effect of solution pH and calcium concentration on germination and early growth of peanut . J. of Plant Nut. 26(6): 1247-1262.

Narasimhamoorthy, B., E.B. Blancaflor, J.H. Bouton, M.E. Payton, and M.K. Sledge. 2007. A comparison of hydroponics, soil, and root staining method for evaluation of aluminium tolerance in Medicago truncatula (Barrel Medic) Germplasm. Crop Sci. 47: 321-328.

Nursyamsi, D., M. Osaki, and T. Tadano. 2002. Mechanism of aluminium toxicity avoidance in tropical rice (Oryza sativa), maize ((Zea mays), and soybean (Glycine max). Indonesion J. of Agric. Sci. 3(1):12-24.

Prasetyo, B.H. and D.A. Suriadikarta. 2006. Krakteristik, potential, and ultisol soil management technologies for dryland agriculture development in Indonesia. J. of Agric. Res. 25(2) :39-46.

Rosolem, C.A.,J.P.T Witacker, S. Vanzolini, and V.J Ramos. 1999. The significance of root growth on cotton nutrition in an acidic low-P soil. Plant and Soil 212: 185-190.

Scott, B.J. andJ.A. Fisher. 1989. Selection of genotypes tolerant of aluminium and manganese. p: 167-203. In Robson, A.D (Ed.). Soil Acidity and Plant Growth Academic Press. Harcourt Brace Jovanovich. Publishers.

Saleh N. 2010. Optimization of integrated control leaf spot and rust diseases in peanuts. Development of Agricultural Innovation 3(4): 289-305.

Soenartiningsih, and I.H Talanca. 2002. Characteristics of bacteria (Pseudomonas solanacearum) causes wilt disease of peanut and its control. Proceedings of the Scientific Seminar and Annual Meeting of the PEI, PFI, and HPTI XV province. p.22-27.

Sopandie, D., M. Josephand S. Aisah. 2000. Tolerance to aluminum in soybean roots: Detection of visual penetration of aluminum with hematosilin staining method. Comm. Agric. 6(1): 25-32.

Subrahmanyam, P.D., F. McDonald, L.J. Waliyar, Reddy, S.N. Nigam, R.W. Gibbons, R.V. Ramanatha, A.K. Singh, S. Pande, P.M. Reddy, and P.V.S. Rao. 1995. Screening methods and source of resistance to rust and lat leaf spot of Peanut. Information Bull. No. 47. ICRISAT.

Sumarno. 1995. Peanut agribusiness development model. p. 103-128. In Saleh N., K.H. Hendroatmojo, A. Kasno, A.G Manshuri, and A. Winarto (Eds). Proceedings of Seminar on Prospects Agribisnis of Peanuts in Indonesia. Special Issue No. 7, Balitkabi.

Trustinah, A. Wijanarko and A. Kasno. 2008. Response of peanut genotypes to aluminum stress on germination stadia. p. 675-685. in Zaini, Z., F. Kasim, Herman, and Sunihardi. Crop Technology Innovation. Book 3. Symposium V Foodstuffs. Proc., CRIFC.

Trustinah, A. Kasno, and A. Wijanarko. 2009. Line tolerance to dryland peanut acidic. Crops Research 28 (3): 183-191.

Trustinah, A. Kasno, J. Purnomo, and B. Suwarsono. 2011. Peanut yield lines in acidic soil. p. 450-458. In Adie M.M. et al. (Editors). Technology innovation for the development of soybean towards self-sufficiency. Proc. Puslitbangtan.

Voigt, P.W. and T.E. Staley. 2004. Selection for aluminium and acid-soil resistance in white clover. Crop Sci. 44:38-48.

Zhang, X.,T. Garnett,K. Davies, D. Peck, A. Humphries, and G. Auricht. 2004. Genetic evaluation and improvement of acid stress tolerance in lucerne breeding. New direction for a divers planet: Proc. of the 4th International Crop Science Congress. Barisbane, Australia. 26 Sep. - 1 Oct. 2004.