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A Novel System of Tossa Jute (Corchorus Olitorius) Husbandry for Seed, Vegetables and Fuelwood

Published online by Cambridge University Press:  03 October 2008

S. M. Asaduzzaman
Affiliation:
Regional Agricultural Research Station (RARS), Bangladesh Agricultural Research Institute (BARI), Jessore-7400, Bangladesh and LL57 2UW, UK
G. Bright
Affiliation:
School of Agricultural and Forest Sciences, University of Wales, Bangor, Gwynedd, LL57 2UW, UK
R. M. Brook
Affiliation:
School of Agricultural and Forest Sciences, University of Wales, Bangor, Gwynedd, LL57 2UW, UK
M. A. Hussain
Affiliation:
Regional Agricultural Research Station (RARS), Bangladesh Agricultural Research Institute (BARI), Jessore-7400, Bangladesh and LL57 2UW, UK

Summary

The implications of a novel system of seed production for tossa jute (Corchorus olitorius), involving late sowing and intercropping with vegetables, were studied in 1989 and 1990. The greatest jute seed yield was obtained from jute-radish intercropping, where radish yielded 12–13 t ha−1 roots and gave the highest average gross margin, although jute-amaranthus intercropping performed marginally better in 1989. This system of husbandry yielded 3–4 t ha−1 of jute stick for fuelwood, which is of great value to rural households, and proved to be a viable means of producing jute seed, vegetables and fuel.

Type
Research Article
Copyright
Copyright © Cambridge University Press 1995

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References

REFERENCES

Adetiloye, P. O. and Adejunle, A. A. (1989). Concept of monetary equivalent ratio and its usefulness in the evaluation of intercropping advantages. Tropical Agriculture (Trinidad) 66:337341.Google Scholar
Asaduzzaman, S. M. & Sikder, F. S. (1990). Farmers' risk adjustment strategies: A package technology for late jute seed production for flood affected areas of Bangladesh. Abstract published in Proceedings of an International Symposium on Natural Resource Management for Sustainable Agriculture, New Delhi, India, February 1990.Google Scholar
BARG (1990). Fertilizer Recommendation Guide. Dhaka, Bangladesh: Bangladesh Agricultural Research Council.Google Scholar
BBS (1991). Statistical Yearbook of Bangladesh. Dhaka, Bangladesh: Bangladesh Bureau of Statistics.Google Scholar
BJRI (1988). Socio-economic assessment of improved jute production technologies and identification of constraints to their adoption. In Terminal Report of the Project. Published by Economics and Statistics Division, Dhaka, Bangladesh: Bangladesh Jute Research Institute.Google Scholar
BJRI (1989). Achievements in Farming Systems Research in Paglapir (1986–88). In Terminal Report of the Project, 1618. Rangpur, Bangladesh: Bangladesh Jute Research institute.Google Scholar
BJRI (1992). Production Economics and Farm Management of jute. Dhaka, Bangladesh: Bangladesh Jute Research Institute.Google Scholar
Dargan, K. S. (1978). Jute cultivation in India. World Crops 30:6670.Google Scholar
Dempsey, J. M. (1975). Fiber Crops. Gainsville, USA: The University Presses of Florida.Google Scholar
FAO (1970). Jute, Kenaf and Allied Fibres. Commodities and Trade Division, Quarterly Statistics, March 1970. Rome, Italy: Food and Agriculture Organisation.Google Scholar
FAO (1988). Jute, Kenaf and Allied Fibres. Commodities and Trade Division, Quarterly Statistics, March 1988. Rome, Italy: Food and Agriculture Organisation.Google Scholar
FAO (1989). Jute, Kenaf and Allied Fibres. Commodities and Trade Division, Quarterly Statistics, March 1989. Rome, Italy: Food and Agriculture Organisation.Google Scholar
FAO (1992). Jute, Kenaf and Allied Fibres. Commodities and Trade Division, Quarterly Statistics, March 1992. Rome, Italy: Food and Agriculture Organisation.Google Scholar
Husain, A. H. M. (1987). Jute: present and future. Paper presented at the 12th Annual Science Conference, Jahangir Nagar University, Savar, Dhaka. Organised by Bangladesh Association for the Advancement of Science, January 1987.Google Scholar
MOJ (1977). An Annual Review, jute Seasons 1972–73 to 1976–77. Dhaka, Bangladesh: Ministry of Jute.Google Scholar
Morshed, G., Ali, M. & Mahtabuddin, M. (1988). Jute seed production technology of jute and kenaf. Paper presented at 13th Annual Science Conference, Engineers' Institute, Dhaka. Organised by Bangladesh Association for the Advancement of Science, January 1988.Google Scholar
Patel, C. S. & Mandat, A. K. (1983). Effect of moisture regimes and level of fertilizer application on yield and water requirement of jute (Corchorus olilorius L. and Corchorus capsularis L.). journal of Agricultural Science, Cambridge 101:311316.CrossRefGoogle Scholar
Sarma, M. S. (1969). Jute. Field Crop Abstracts 22:323336.Google Scholar
Sikder, M. F. S. (1980). An analysis of bulk line cost of jute cultivation in Bangladesh. Bangladesh journal of Jute and Fibre Research, 5:7176.Google Scholar
Willey, R. W. (1979). Intercropping-its importance and research needs. Part l. Competition and yield advantages. Field Crop Abstracts 32:110.Google Scholar
Willey, R. W. & Osiru, D. J. (1972). Studies on mixtures of maize and beans (Phaseolus vulgaris) with particular reference to plant population. journal of Agricultural Science, Cambridge 79:519529.Google Scholar