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Banik, P., D. Sarkar, T. Basmal, P. K. Ghosal and D. K. Bagohi. (1997). “Effect of different numbers and age of
seedlings on rice (
Oryza sativa
) cultivars in lowland plateau region of Bihar,”
Indian Journal of
Agronomy
. 42, 265-268.
Karim, M. A., A. Ali, S. S. Ali, A. Mohammed, A. Majid and T. A. Akhtar. (1992). “Effect of plant density on
rice grain quality,”
International Rice Research Newsletter
. 17, 12.
Latif, M. A., M. R. Islam, M. Y. Ali and M. A. Saleque. (2005). “Validation of the system of rice intensification
(SRI) in Bangladesh,”
Field Crops Research
. 93, 281-292.
Longxing, T., W. Xi and M. Shaokai. (2002). “Physiological effects of SRI methods on the rice plant,”
Research
Report:China.
132-136.
Moser, C. M. and C. B. Barrett. (2003). “The disappointing adoption dynamics of a yield-increasing, low
external-input technology: the case of SRI in Madagascar,”
Agricultural System
. 76, 1085-1100.
Sheehy, J. E., S. Peng, A. Dobermann, P. L. Mitchell, A. Ferrer, J. Yang, Y. Zou, X. Zhong and J. Huang. (2004).
“Fantastic yields in the system of rice intensification fact or fallacy?,”
Field Crops Research
. 88, 1-8.
Uphoff, N. (2003). “Higher yields with fewer external inputs? The system of rice intensification and potential
contributions to agricultural sustainability,”
International Journal Agricultural Sustainability
. 1, 38-50.
