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Factors affecting crop diversity in farmers' fields in Nepal

Published online by Cambridge University Press:  27 November 2013

Sushil Pandey
Sushil Pandey*
Affiliation:
Central Queensland University, Centre for Plant and Water Science (CPWS), Locked Bag 3333, Bundaberg, QLD 4670, Australia.
*
*Corresponding author: pandeysushil2003@yahoo.com
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Abstract

A study was conducted on the spatial dimension of crop diversity in Jutpani Village Development Committee (VDC) in central Nepal. Many crop diversity studies focus only on home gardens, but this study aimed to investigate the crop diversity among different production systems, and the factors affecting variations in the crop diversity on a household level. A survey of inter-household variation in cultivated crop diversity in different land-use types among 134 households indicates that 96 different types of annual crops, perennial crops and fruit trees are cultivated. Individual farms cultivated an average of 26 different crops, with this number ranging from 11 to 45. Crops were used as food by the households and, based on their adaptive characters, they were grown either in home gardens or in upland, Tandikhet and lowland. Research showed that home gardens have the highest crop diversity (a total of 78 different crops grown) compared to upland, Tandikhet and lowland. Statistical analysis to understand the factors affecting the variation in crop diversity in the household level showed that the total number of crops grown (crop diversity) on a farm is significantly higher (P<0.001) in the Indo-Aryan ethnic group compared to the Tibeto-Burman group. Farmers with three different production domains maintained higher (P<0.001) crop diversity compared to having only one or two production domains. Poor farmers with small land holdings were associated with higher crop diversity (P<0.001) compared to rich farmers with large land holdings. Therefore, planning for agrobiodiversity management should focus on the production systems, and social and economic settings within the farming community.

Keywords

crop diversityhome gardensJutpanilowlandupland
Type
Research Papers
Information
Renewable Agriculture and Food Systems , Volume 30 , Issue 2 , April 2015 , pp. 202 - 209
Copyright
Copyright © Cambridge University Press 2013 

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References

1 Bellon, M.R. 2004. Conceptualizing interventions to support on-farm genetic resource conservation. World Development 32(1):159172.CrossRefGoogle Scholar
2 Bajracharya, J., Steele, K., Witcombe, J., Tiwari, P.R., Sthapit, B.R., and. Jarvis, D.I. 2003a. A study of genetic relationships in rice (Oryza sativa L) landraces of Jumla using microsatellite DNA markers. In Sthapit, B.R. et al. (eds). On-farm management of agricultural biodiversity in Nepal. Proceedings of a National Workshop, 24–26 April 2001, NARC, LI-BIRD and IPGRI, Lumle, Nepal. p. 103111.Google Scholar
3 Rijal, D.K., Sthapit, B.R., Rana, R.B., and Jarvis, D.I. 2003. Adaptation and uses of taro diversity in agro-ecosystems of Nepal. In Sthapit, B.R. et al. (eds). On-farm Management of Agricultural Biodiversity in Nepal: Proceedings of a National Workshop, 24–26 April 2001, NARC, LI-BIRD and IPGRI, Lumle, Nepal. p. 2936.Google Scholar
4 Tiwari, R.P., Joshi, K.D., Rana, R.B., Baniya, B.K., Bajracharya, J., Khatiwada, S.P., Tiwari, R.K., Upadhyay, M.P., Sthapit, B.R., and Joshi, B.K. 2003. Finger millet diversity in Kaski, Nepal. In Sthapit, B.R. et al. (eds). On-farm Management of Agricultural Biodiversity in Nepal: Proceedings of a National Workshop, 24–26 April 2001, NARC, LI-BIRD and IPGRI, Lumle, Nepal. p. 7172.Google Scholar
5 Bajracharya, J., Tiwari, P.R., Pandey, D., and Baniya, B.K. 2003b. Preliminary study of genetic diversity in buckwheat (Fagopyrum tataricum Gaertn) revealed by isozyme analysis. In Sthapit, B.R. et al. (eds). On-farm Management of Agricultural Boidiversity in Nepal. Proceedings of a National Workshop, 24–26 April 2001, NARC, LI-BIRD and IPGRI, Lumle, Nepal. p. 112118.Google Scholar
6 Wezel, A. and Bender, S. 2003. Plant species diversity of Home gardens of Cuba and its significance for household food supply. Agroforestry Systems 57:3949.Google Scholar
7 Coomes, O.T. and Ban, N. 2004. Cultivated plant species diversity in Home gardens of an Amazonian peasant village in Northeastern Peru. Economic Botany 58(3):420434.Google Scholar
8 Sunwar, S., Thornstrom, C-G., Subedi, A., and Bystrom, M. 2006. Home garden in western Nepal: Opportunities and challenges for on-farm management of agrobiodiversity. Biodiversity and Conservation 15(3):42114238.CrossRefGoogle Scholar
9 Pandey, C.B., Rai, R.B., Singh, L., and Singh, A.K. 2007. Home gardens of Andaman and Nicobar, India. Agricultural Systems 92:122.Google Scholar
10 Perrault-Archambault, M. and Comes, O.T. 2008. Distribution of agrobiodiversity in Home gardens along the Corrientes River, Peruvian Amazon. Economic Botany 62(2):109126.Google Scholar
11 CBS (Central Bureau of Statistics). 2010. Statistical Year Book of Nepal. Central Bureau of Statistics, Kathmandu, Nepal.Google Scholar
12 IDRC (International Development Research Centre). 1991. Glossary of Some Important Plants and Animals in Nepal. Agricultural Projects Services Centre (APROSC), Kathmandu, Nepal.Google Scholar
13 R Core Team. 2012. R: A language and environment for statistical computing. R foundation for statistical computing, Vienna, Austria. Available at Web site http://www.R-project.org/ (accessed September 25, 2013).Google Scholar
14 JVP (Jutpani Village Profile). 2008. Village Profile of Jutpani Village Development Committee (VDC). Jutpani, Chitwan, Nepal.Google Scholar
15 Pandey, S. 2005. Linking dietary diversity with crop genetic conservation on farm: A study from inner Terai of Nepal. MSc thesis, Norwegian University of Life Sciences (UMB), Norway.Google Scholar
16 Benin, S., Smale, M., Pender, J., Gebremedhin, B., and Ehui, S. 2004. The economic determinants of cereal crop diversity on farm in the Ethiopian highlands. Agricultural Economics 31:197208.Google Scholar
17 Van Dusen, M.E. 2000. In situ conservation of crop genetic conservations in the Mexican Milpa System. PhD dissertation, University of California, Davis, Ann Arbor, USA.Google Scholar