1. Armstrong, A. 1971. Radial oxygen loss from intact rice roots as affected by distance from the apex, respiration and waterlogging. Physiologia Plantarium 25: 192?197.

2. Attanandana, T. and S. Vacharotayan. 1982. Chemical characteristics and fertility status of acid sulfate soils of Thailand, p. 118?130. In H. Dost and N. van Breemen (ed.). Proc. Bangkok Symp. on acid sulfate soils. ILRI Pub. 31, Wageningen, The Netherlands.

3. Attanandana, T., J. Pechayapisit and W.H. Patrick, Jr. 1985. Factors affecting amelioration of the oxidized potential acid sulfate soil for rice cultivation. Proceedings of International Seminar on Environmental Factors in Agricultural Production, Thailand, pp. 413?421.

4. Bandyopadhyay, B.K., S.R.Perzeshki, R.D.DeLaune, and C.W.Lindau. 1993. Influence of soil oxidation-reduction potential and salinity on nutrition,15N uptake and growth ofSpartina patens. Wetlands 13: 10?15.

5. Charoenchamratcheep, C., B. Tantisira, P. Chitnuson, and V. Sin-Aiem. 1981. The effects of liming and fertilizer applications of acid sulfate soils for improvement of rice production in Thailand. Pages 157?171in H. Dost and N. van Breemen, ed. Proc. Bangkok Symp. on acid sulfate soils. ILRI Pub. 31, Wageningen, The Netherlands.