Hostname: page-component-8448b6f56d-gtxcr Total loading time: 0 Render date: 2024-04-24T21:40:04.756Z Has data issue: false hasContentIssue false
  • English
  • Français

Home gardens management of key species in Nepal: a way to maximize the use of useful diversity for the well-being of poor farmers

Published online by Cambridge University Press:  30 October 2008

R. Gautam ,
B. Sthapit ,
A. Subedi ,
D. Poudel ,
P. Shrestha  and
P. Eyzaguirre
R. Gautam
Affiliation:
Local Initiatives for Biodiversity, Research and Development (LI-BIRD), PO Box 324, Pokhara, Nepal, e-mail: info@libird.org
B. Sthapit*
Affiliation:
Bioversity International (formally International Plant Genetic Resource Institute)-Asia Pacific Oceania (IPGRI-APO), 10, Dharmashila Buddha Marg, Nadipur, Pokhara, Nepal
A. Subedi
Affiliation:
Local Initiatives for Biodiversity, Research and Development (LI-BIRD), PO Box 324, Pokhara, Nepal, e-mail: info@libird.org
D. Poudel
Affiliation:
Local Initiatives for Biodiversity, Research and Development (LI-BIRD), PO Box 324, Pokhara, Nepal, e-mail: info@libird.org
P. Shrestha
Affiliation:
Local Initiatives for Biodiversity, Research and Development (LI-BIRD), PO Box 324, Pokhara, Nepal, e-mail: info@libird.org
P. Eyzaguirre
Affiliation:
Bioversity International, Diversity for Livelihoods Programme, Via dei Tre Denari 472/a, 00057Maccarese, Rome, Italy, e-mail: p.eyzaguirre@cgiar.org
*
*Corresponding author. E-mail: b.sthapit@cgiar.org
Get access Rights & Permissions [Opens in a new window]

Abstract

The purpose of this study is to identify key home garden species in order to address basic research questions aimed at understanding farmers' home gardens management practices. The study was conducted in two contrasting Hill and Tarai sites in Nepal with households (HHs) ranging from 355 to 634. Unlike larger production systems, home gardens harbour many species in small areas often with a few crop varieties and species that are not well represented in larger fields. Given the number of species and their small population sizes, species and genetic diversity are best studied by identifying representative key species characterizing the complex productive niches within farms. Although species diversity within community is large (172–342), 24 key species were identified for the study. There is no fixed size of a home garden. The log of home garden size and species richness was positively correlated (r = 0.42, P < 0.001). Species richness was significantly higher in vegetable followed by fodder, fruits and spices. This paper also explores the diversity in home gardens to identify the composition and characteristics of the key species and how they are managed, used and conserved. Most of the farmers save the seeds of these home garden species for their own use, but many also exchange and buy and sell seed in local weekly market. Farmers' practices for selecting seed vary according to the reproductive biology of the key home garden species. Home gardens provide the HH with fresh and diverse supply of nutritious food, which improves their self-sufficiency, while conserving diversity on-farm. Despite this, they are neglected in research and development by policy makers and researchers.

Keywords

agricultural biodiversityhome gardenkey speciesNepalon-farm conservationspecies diversity
Type
Research Article
Information
Plant Genetic Resources , Volume 7 , Issue 2 , August 2009 , pp. 142 - 153
Copyright
Copyright © NIAB 2008

Access options

Get access to the full version of this content by using one of the access options below. (Log in options will check for institutional or personal access. Content may require purchase if you do not have access.)

References

Acharya, KP (2006) Linking trees on farms with biodiversity conservation in subsistence farming systems in Nepal. Biodiversity and Conservation 15: 631646.CrossRefGoogle Scholar
Agnihotri, RK, Sharma, S, Joshi, M and Paini, LMS (2004) Crop diversity in home gardens of the Kumaun region of central Himalaya, India. Plant Genetic Resources Newsletter 138: 2328.Google Scholar
Benton, TG, Vickery, JA and Wilson, JD (2003) Farmland biodiversity: is habitat heterogeneity the key? TRENDS in Ecology and Evolution 18: 182188.CrossRefGoogle Scholar
Brown, AHD (2000) The genetic structure of crop landraces and the challenge to conserve them in situ on-farms. In: Brush, SB (ed.) Genes in the Field: On-Farm Conservation of Crop Diversity. Chapter II. Washington, DC: IPGRI/IDRC/Lewis Publishers, pp. 2950.Google Scholar
Castineiras, L, Fundora Mayor, Z, Pico, S and Salinas, E (2000) The use of home gardens as a component of the national strategy for the in situ conservation of plant genetic resources in Cuba. Plant Genetic Resources Newsletter 123: 918.Google Scholar
Das, T and Das, AK (2005) Inventorying plant biodiversity in home gardens: a case study in Barak Valley, Assam, North East India. Current Science 89: 55163.Google Scholar
Eyzaguirre, P and Linares, OF (2004) Home Gardens and Agrobiodiversity. Washington, DC, p. 296.Google Scholar
Frankel, OH, Brown, AHD and Burdon, JJ (1995) The Conservation of Plant Biodiversity. Cambridge: Cambridge University Press.Google Scholar
Gautam, R, Suwal, R and Basnet, SB (2005) Baseline Report 2005: enhancing contribution of home gardens to on-farm management of plant genetic resources and to the improvement of the livelihoods of Nepalese farmers. Working Paper 2/05. Pokhara: LI-BIRD/IPGRI/SDC.Google Scholar
Hastings, A and Hartison, S (1994) Meta-population dynamics and genetics. Annual Review of Ecology and Systematics 25: 167188.CrossRefGoogle Scholar
Hodel, U, Gessler, M, Cai, HH, Thoan, VV, Ha, NV, Thu, NX and Ba, T (1999) In Situ Conservation of Plant Genetic Resources in Home Gardens of South Vietnam. Rome: IPGRI.Google Scholar
Jarvis, DI, Brown, AHD, Cuong, PH, Collado-Panduro, L, Latourniere-Moreno, L, Gyawali, S, Tanto, T, Sawadogo, M, Mar, I, Sadiki, M, Hue, NTN, Arias-Reyes, L, Balma, D, Bajracharya, J, Castillo, F, Rijal, D, Belqadi, L, Rana, R, Saidi, S, Ouedraogo, J, Zangre, R, Keltoum, RO, Chavez, JL, Schoen, D, Sthapit, B, de Santis, P, Fadda, C and Hodgkin, T (2008) A global perspective of the richness and evenness of traditional crop genetic diversity maintained by farming communities. Proceedings of the National Academy of Sciences PNAS (USA), pp. 16. Available at wwwpnasorg/cgi/doi/101073/pnas0800607105.Google Scholar
Jarvis, DI, Myer, L, Klemick, H, Guarino, L, Smale, M, Brown, AHD, Sadiki, M, Sthapit, B and Hodgkin, T (2000) A Training Guide for In Situ Conservation On-Farm. Version I. Rome: IPGRI.Google Scholar
Johns, T and Sthapit, BR (2004) Bio-cultural diversity in the sustainability of developing country food systems. Food and Nutrition Bulletin 25: 143155.CrossRefGoogle Scholar
Kumar, BM and Nair, PKR (2004) The enigma of tropical home gardens. Agroforestry System 61: 135152.Google Scholar
Nair, PK (2001) Do tropical home gardens elude science, or is it the other way round? Agroforestry System 53: 239245.CrossRefGoogle Scholar
Oakley, E (2004) Home gardens: a cultural responsibility. LEISA 2004: 2223.Google Scholar
Shannon, CE and Weaver, W (1949) The Mathematical Theory of Communication. Urbana, IL: University of Illinois Press.Google Scholar
Shrestha, P, Gautam, R, Rana, RB and Sthapit, BR (2002) Home gardens in Nepal: status and scope for research and development. In: Watson, JW and Eyzaguirre, PB (eds) Home Gardens and In Situ Conservation of Plant Genetic Resources in Farming Systems. Proceeding of the Second International Home Gardens Workshops, 17–19 July 2001, Witzenhausen, Federal Republic of Germany. Rome: IPGRI, pp. 105124.Google Scholar
Simpson, EH (1949) Measurement of diversity. Nature: 163: 688, Available at http://www.wku.edu/~smithch/biogeog/SIMP1949.htm.CrossRefGoogle Scholar
Soemarowoto, O (1987) Homegardens: a traditional agroforestry system with a promising future. In: Steppler, HA and Nair, PKR (eds) Agroforestry: A Decade of Development. Nairobi: ICRAF, pp. 157170.Google Scholar
Sthapit, BR and Rao, VR (2007) ‘Grassroots breeding’: a way to optimise the use of local crop diversity for well-being of people Paper presented at the Tropentag International Conference, 9–11 October, 2007, Witzenhausen, Germany.Google Scholar
Sthapit, B, Rana, RB, Eyzaguirre, P and Jarvis, D (2008) The value of plant genetic diversity for resource poor farmers. International Journal for Agricultural Sustainability 6: 120.CrossRefGoogle Scholar
Sthapit, B, Rana, RB, Hue, NN and Rijal, DK (2004) The diversity of taro and sponge gourds in home gardens of Nepal and Vietnam. In: Eyzaguirre, PB and Linares, OF (eds) Home Gardens and Agrobiodiversity. Washington, DC: Smithsonian Books, pp. 234255.Google Scholar
Sthapit, BR, Rana, RB, Subedi, A, Gyawali, S, Bajracharya, J, Chaudhary, P, Joshi, BK, Sthapit, SR, Joshi, KD and Upadhyay, MP (2006) Participatory four cell analysis (FCA) for local crop diversity. In: Sthapit, BR, Shrestha, PK and Upadhyay, MP (eds) Good Practices #3: On-farm Management of Agricultural Biodiversity in Nepal. Pokhara: NARC/LI-BIRD/IPGRI/IDRC.Google Scholar
Subedi, A, Chaudhary, P, Baniya, BK, Rana, RB, Tiwari, RK, Rijal, DK, Jarvis, DI and Sthapit, BR (2003) Who maintains crop genetic diversity and how: implications for on-farm conservation and utilization. Culture and Agriculture 25: 4150.CrossRefGoogle Scholar
Sunwar, S, Thornstrom, C, Subedi, A and Bystrom, M (2006) Home gardens in Western Nepal: opportunities and challenges for on-farm management of agrobiodiversity. Biodiversity and Conservation 15: 42114238 DOI 10.1007/s10531-005-3576-0.CrossRefGoogle Scholar
Suwal, R, Gautam, R, Sunwar, S, Basnet, SB and Subedi, A (2005) Site Selection Report 2005. Enhancing contribution of home gardens to on-farm management of plant genetic resources and to the improvement of the livelihoods of Nepalese farmers LI-BIRD Working Paper No. 1/05. Local Initiatives for Biodiversity, Research and Development, Pokhara, Nepal.Google Scholar
Trinh, LN, Watson, JW, Hue, NN, De, NN, Minh, NV, Chu, P, Sthapit, BR and Eyzaguirre, PB (2003) Agrobiodiversity conservation and development in Vietnamese home gardens. Agriculture Ecosystems and Environment 2033: 128.Google Scholar
van Bueren, TL, Ostergard, H, Goldringer, I and Scholten, O (2008) Plant breeding for organic and sustainable, low input agriculture: dealing with genotype–environment interactions. Euphytica 163: 321322.CrossRefGoogle Scholar
Watson, JW, Eyzaguirre, PB (ed.) (2002) Proceeding of the Second International Home Gardens Workshops: Contribution of Home Gardens to In Situ Conservation of Plant Genetic Resources in Farming Systems. 17–19 July 2001, Witzenhausen. Federal Republic of Germany, International Plant Genetic Resources Institute, Rome.Google Scholar
Supplementary material: File

Sthapit supplementary material

Tables.doc

Download Sthapit supplementary material(File)
File 129.5 KB