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Influence of organic and inorganic fertilization on the growth and nutrition of rice and fish in a dual culture system

Published online by Cambridge University Press:  27 March 2009

B. C. Ghosh ,
R. Ghosh ,
B. N. Mittra ,
A. Mitra  and
M. K. Jana
B. C. Ghosh
Affiliation:
Agricultural Engineering Department, Indian Institute of Technology, Kharagpur 721 302, India
R. Ghosh
Affiliation:
Agricultural Engineering Department, Indian Institute of Technology, Kharagpur 721 302, India
B. N. Mittra
Affiliation:
Agricultural Engineering Department, Indian Institute of Technology, Kharagpur 721 302, India
A. Mitra
Affiliation:
Agricultural Engineering Department, Indian Institute of Technology, Kharagpur 721 302, India
M. K. Jana
Affiliation:
Agricultural Engineering Department, Indian Institute of Technology, Kharagpur 721 302, India
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Summary

Field experiments were conducted for three consecutive years during 1988–90 at a research farm near the Indian Institute of Technology, Kharagpur, West Bengal, India to study the influence of organic and inorganic fertilizers on the performance of rice and fish in a dual culture system. Under waterlogged conditions the grain yield and dry matter of the rice variety CR1018 was increased both when inorganic N fertilizer (50 kg N/ha) was supplied or when a combination of organic (lOt FYM/ha) and inorganic N fertilizer (25 kg N/ha) were applied as compared with an organic fertilizer alone (20 t FYM/ha). The recovery of N as well as grain yield response per kg of N applied was also greater when inorganic N was applied. On the other hand, the growth of the fish species Java punti (Puntius javanicus) when grown alone (monoculture) and Catla (Catla catla), Mrigal (Cirrhinus mrigala) and Java punti (Puntius javanicus) grown together (polyculture) in the rice field was found to be superior when organic fertilizer was applied either alone or in combination with an inorganic fertilizer. The total number of phytoplankton species as food for the fish under organic manuring was more than under inorganic fertilization. In low-lying waterlogged situations (15–45 cm water depth), the total productivity could be increased by supplying the appropriate nutrition to both rice and fish in such dual culture systems.

Type
Crops and Soils
Information
The Journal of Agricultural Science , Volume 122 , Issue 1 , February 1994 , pp. 41 - 45
Copyright
Copyright © Cambridge University Press 1994

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References

Broadbent, F. E. (1979). Mineralization of organic nitrogen in paddy soils. In Nitrogen and Rice, pp. 105118. Los Baños, Philippines: International Rice Research Institute.Google Scholar
Colt, J. & Tehobonoglous, (1978). Chronic exposure of channel catfish (Iclalurus pimctatus) to ammonia: effects on growth and survival. Aquaculture 15, 353372.CrossRefGoogle Scholar
Huet, M. (1973). Textbook of Fish Culture. Norwich: M. Huet in collaboration with J. A. Timmermans.Google Scholar
Jackson, M. L. (1973). Soil Chemical Analysis. New Delhi1: Prentice Hall of India.Google Scholar
Khan, M. R. & Vergara, B. S. (1981). Response of traditional deepwater rice to nitrogen application. International Rice Research Newsletter 6 (3), 1011.Google Scholar
Matsuguchi, T. (1979). Factors affecting heterotrophic nitrogen fixation in submerged rice soils. In Nitrogen and Rice, pp. 207221. Los Banos, Philippines: International Rice Research Institute.Google Scholar
Odum, W. (1970). Utilization of the direct grazing and plant detritus food chains by the striped mullet (Mugil cephalus). In Marine Food Chains (Ed. Steele, J. H.), pp. 222240. Berkeley: University of California Press.Google Scholar
Ponnamperuma, F. M. (1972). The chemistry of submerged soils. Advances in Agronomy 24, 2996.CrossRefGoogle Scholar
Rao, M. V., Reddy, B. B., Ghosh, B. C. & Panda, M. M. (1985). Nitrogen management in direct sown intermediate deep water rice (15–50 cm). I. Effect of form, method and time of urea N application on growth, yield and N uptake. Plant and Soil 83, 243253.CrossRefGoogle Scholar
Tanaka, A., Patnaik, S. & Abichandani, C. T. (1959). Studies on the nutrition of rice plant (Oryza saliva L.) IV. Growth and nitrogen uptake of rice varieties (O. salivavar lndica) of different durations. Proceedings of the Indian Academy of Sciences, Section B 49 (4), 217226.CrossRefGoogle Scholar
Vandyke, M. J. & Green, V. E. (1974). The interrelations of agriculture and aquaculture in multi-cropping rice and fish. II Riso 28, 365391.Google Scholar
Yoshida, T. (1978). Microbial metabolism in rice soils. In Soil and Rice, pp. 443463. Los Baños, Philippines: International Rice Research Institute.Google Scholar