Abstract
Home gardens are defined as a system of production of diverse crop plant species, which can be adjacent to household or slightly further away and is easily accessible. Species composition and management systems of Nepalese home gardens are poorly known. The study was conducted to develop an inventory on composition of crop species and varietal diversity to characterise the home gardens of Rupandehi and Gulmi of western Nepal, and to observe the species change over the time for last 10–15 years. Semi-structured Interviews, Direct Observation and Focus Group Discussions were employed to collect primary data. Shannon–Weaver index (SWI) was used to determine the species richness. Principal Component Analysis (PCA) was employed to characterise the home gardens. Mid-hill SWI (H′ = 4.41) revealed the higher species diversity (131 species) as compared to terai (123 species). This species richness was significantly higher (p = 0.001) in the mid-hill area. The vegetable species constitute the major component followed by fruits and fodder species that also contributed to the species diversity. The size of home gardens and species richness was positively correlated (r s = 0.29, p = 0.001). Twenty crop species have been lost during the last 10–15 years and eleven species were threatened in the studied home gardens. Inaccessibility of local seed crops and deforestation were the major causes reported accounting for this trend. Self-saved seed was the major source of planting material in home gardens. There is a need to study the seed supply system for these home gardens. Therefore, a challenge is to make these home gardens self-supporting through creating a mechanism on strengthening local seed supply systems for long term sustainability of home garden in agrobiodiversity management.
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Agelet A., Bonet M. and Valles J. (2000). Home gardens and their role as a main source of medicinal plants in mountain regions of Catalonia (Iberian Peninsula). Econ. Bot. 54(3): 295–309
CBD (1992). Convention on Biological Diversity. Text and Annexes. United Nations Environment Programme, Rio de Janeiro
De Clerck F.A.J and Negreros C.P. (2000). Plant species of traditional Mayan home gardens of Mexico as analogs for multistrata agroforests. Agrofor. Syst. 48: 303–317
De Miguel J.G., Malo J.E., Hernández-Bermejo J.E and Jiménez-Osorino J.J. Available [Online]: http://org.nlh.no/etfrn/lofoten/malopap.htm. [2002–03–01].
Eyzaguirre P.B. and Linares O.F. 2001. A new approach to study and promotion of home gardens. People Plants (7):30–33.
Fernandes E.C.M., O'Ktingati A. and Maghembe J. (1984). The Chagga homegardens: a multistoreyed agroforestry cropping system on Mt. Kilimanjaro, Northern Tanzania. Agrofor. Syst. 2: 73–86
Fowler J., Cohen L. and Jarvis P. (2001). Practical Statistics for Field Biology. John Wiley and Sons Ltd, UK reprinted
Gajaseni J. and Gajaseni N. (1999). Ecological rationalities of the traditional homegarden system in the Chao Phraya Basin, Thailand. Agrofor. Syst. 46: 3–23
Gessler M., Hodel U. and Eyzaguirre P.B. (1998). Home Gardens and Agrobiodiversity: Current State of Knowledge with Reference to Relevent Liture. IPGRI Home gardens Project Document, Rome
Heywood V. (1999). Trends in agricultural biodiversity. In: Janick, J. (eds) Reprented From: Perspectives on New Crops and New Uses, pp. ASHS Press, Alexandria, VA
Hodel U., Gessler M., Cai H.H., Thoan V.V., Ha N.V., Thu N.X. and Ba T. (1999).. IPGRI, Rome, Italy
Hodkin T. (2001). Home gardens and the maintenance of genetic diversity. In: Watson, J.W. and Eyzaguirre, P.B. (eds) Home gardens and in-situ conservation of plant genetic resources n farming systems. Proceedings of the Second International Home Gardens Workshop, 17–19 July. pp. Witzenhausen, Federal Republic of Germany
Hoogerbrugge I.D and Fresco L.O. 1993. Homegarden Systems: Agricultural Characteristics and Challenges. International Institute For Environment and Development (IIED).
Jacob V.J and Alles W.S. (1987). Kandyan Gardens of Sri Lanka. Agroforestry Systems 5: 123–137
Karyono E. (1981). Homegarden structure in rural area of Citarum watershed, West Java. Padjadjaran University, Bandung, Indonesia
King A. (2000). A brief review of participatory tools and techniques for the conservation and use of plant genetic resources. In: Fris-Hansen, Esbern and Bhuwon, Sthapit (eds) Participatory Approaches to the Conservation and Use of Plant Genetic Resources, pp 27–43. International Plant Genetic Resources Institutes, Rome, Italy
Levasseur V. and Olivier A. (2000). The farming system and traditional agroforestry systems in the Maya community of San Jose, Belize. Agrofor. Syst. 49: 275–288
Maxted N., Guarino L., Myer L. and Chiwona E.A. (2002). Towards methodology for on-farm conservation of plant genetic resources. Genet. Res. Crop Evol. 49: 31–46
Méndez V.E., Lok R. and Somarriba E. (2001). Interdisciplinary analysis of home gardens in Nicaragua: micro-zonation, plant use and socio-economic importance. Agrofor. Syst. 51: 85–96
Nair P.K. (2001). Do tropical homegardens elude scienceor is it the other way round?. Agrofor. Syst. 53: 239–245
Nair M.A and Sreeharan C. (1986). Agroforestry farming system in the homesteads of KeralaSouthern India. Agrofor. Syst. 4: 339–363
Okafor J.C. and Fernandes E.C.M. (1987). Compound farms of South Eastern Nigeria: a predominant agroforestry home garden system with crops and small livestock. Agrofor. Syst. 5: 153–168
Padoch C. and De Jong W. (1991). The housegardens of Santa Rosa: diversity and variability in an Amazonian agricultural system. Econ. Bot. 45(2): 166–175
Petit M., Fowler C., Collins W., Correa C. and Thornström C.-G. (2001). Why Government Can't Make Policy. The Case of Plant Genetic Resources in the International Arena. Printed by the Internationa Potato Center (CIP), Lima, Peru, 80
Powers E. Laura and McSorley R. 2000. Ecological Principles of Agriculture. Library of Congress Cataloging -in- Publication Data, pp. 243–248.
Rana R.B., Joshi K.D. and Lohar D.P. (1998). On-farm Conservation of Indigenous Vegetables by Strengthening Community Based Seed Banking in Seti River Valley, Pokhara, Nepal. Local Initiatives for Biodiversity, Research and Development LI BIRD, Pokhara, Nepal
Rana R., Shrestha P., Rijal D., Subedi A. and Sthapit B. (2000). Understanding farmers' knowledge systems and decision-making: Participatory techniques for rapid biodiversity assessment and intensive data plot in Nepal. In: Fris-Hansen, Esbern and Bhuwon, Sthapit (eds) Participatory Approaches to the Conservation and Use of Plant Genetic Resources, pp 117–126. International Plant Genetic Resources Institutes, Rome, Italy
Shrestha P., Gautam R., Rana R.B. and Sthapit B. (2001). Home gardens in Nepal: Status and scope for research and development. In: Watson, J.W. and Eyzaguirre, P.B. (eds) Home Gardens and in-situ Conservation of Plant Genetic Resources in Farming Systems. Proceedings of the Second International Home Gardens Workshop, 17–19 July. pp. Witzenhausen, Federal Republic of Germany
Shrestha P., Subedi M., Poudel D. and Sunwar S. (1999). Users' and Gender Perspectives of Maize Production at Darbar Devisthan and Simichaur Research Sites in Gulmi District of Western Hill of Nepal: Findings of a Baseline Socio-economic Survey, 1999. Research and Development. (LI-BIRD), Pokhara, Nepal
Soemarwoto O. (1987). Homegardens: A traditional agroforestry system with a promising future. In: Steppler, H.A. and Nait, P.K.R. (eds) Agroforestry: A Decade of Development, pp 157–170. ICRAF, Nairobi, Kenya
Soemarwoto O. and Conway G.R. (1992). The Javanese homegarden. J. Farm. Syst. Res.-Extension 2(3): 95–118
Sthapit B. and Fris-Hanson E. (2000). Local plant genetic resources management. In: Fris-Hansen, Esbern and Bhuwon, Sthapit (eds) Participatory Approaches to the Conservation and Use of Plant Genetic Resources, pp 84–89. International Plant Genetic Resources Institutes, Rome, Italy
Subedi A., Chaudhary P., Baniya B.K., Rana R.B., Tiwari K.R., Rijalz D.K., Jarvis D.I. and Sthapit B.R. (2003). Who maintains crop genetic diversity and how: Implications for on-farm conservation and utilization. In: Sthapit, B.R., Upadhaya, M.P., Baniya, B.K., Subedi, A., and Joshi, B.K. (eds) On-farm Management of Agricultural Biodiversity in Nepal. Proceedings of National Workshop of In Situ Conservation of Agrobiodiversity, 24–26 April 2001. pp. Lumle, Pokhara, Nepal
Sunwar S. (2003). Home garden in western Nepal: opportunities and challenges for on-farm management of agrobiodiversity. Masters thesis. Swedish Biodiversity Center (CBM), Swedish Agriculture University and Uppsala University, Sweden
Trinh L.N., Watson J.W., Hue N.N., De N.N., Minh N.V., Chu P., Sthapit B.R. and Eyzaguirre P.B. (2003). Agrobiodiversity Conservation and Development in Vietnamese Home Gardens. Agric. Ecosyst. Environ. 97(1): 317–344
Vogl-Lukasser B., Vogl C.R and Bolhár-Nordenkampf H. (2002). The composition of Home gardens on small peasant farms in the alpine regions of Osttirol (Austria) and their role in sustainable rural development. In: Stepp, J.R., Wyndham, F.S., and Zarger, R.K. (eds) Ethnobotany and Biocultural Diversity, pp. University of Georgia Press, Athens, Georgia, USA
Watson J.W. and Eyzaguirre P.B. (eds) (2002). Proc. Int. Home Garden Workshop. Witzenhausen, Germany. 17–19 Jul. 2001.
Wood D.J. and Lenne M. (1997). The conservation of agrobiodiversity on-farm: questioning the emerging paradigm. Biodivers. Conserv. 6: 109–129
Zaldivar M.E., Rocha O.J., Castro E. and Barrantes R. 2002. Species diversity of edible plants grown in home gardens of Chibchan Amerindians from Costa Rica. Hum. Ecol. 30 (3): 301–316.
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Sunwar, S., Thornström, CG., Subedi, A. et al. Home gardens in western Nepal: opportunities and challenges for on-farm management of agrobiodiversity. Biodivers Conserv 15, 4211–4238 (2006). https://doi.org/10.1007/s10531-005-3576-0
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DOI: https://doi.org/10.1007/s10531-005-3576-0