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Post-disaster agricultural transitions in Nepal

  • Jessica DiCarlo
  • Kathleen Epstein
  • Robin Marsh
  • Inger Måren
Research Article
  • 150 Downloads

Abstract

In Spring 2015, a series of earthquakes and aftershocks struck Nepal. The earthquakes caused significant changes in labor and land availability, cash income needs, and land quality. We examine how these post-earthquake impacts converged with ongoing agricultural shifts. Earthquake-related socio-economic and landscape changes specifically motivate the adoption of cardamom, Amomum subulatum, a high-value ecologically beneficial, and low labor commercial crop. We investigate reasons for the increased interest in cardamom post-earthquake, and challenges associated with it. We find that adopting cardamom serves as an important post-disaster adaptation. However, more broadly, unevenly distributed interventions coupled with the high capital costs of agricultural transition exacerbate social differentiation in communities after the disaster. Adoption is often limited to economically better off smallholder farmers. This paper extends previous research on disasters and smallholder farming by highlighting the specific potential of disasters to accelerate agricultural transitions and resulting inequality from the changes.

Keywords

Cardamom Disasters Himalaya Rural differentiation Small-scale agriculture 

Abbreviations

VDC

Village Development Committee

DADO

District Agricultural Development Office

MoA

Ministry of Agriculture

UN

United Nations

HVC

High-value crop

TFRDC

Tropical Fruits Rootstock Development Center

Terai

Lowland plains

Masl

Meters above sea level

Amomum subulatum

(Latin) Black cardamom, also known as Nepal cardamom

Alnus nepalensis

(Latin) Nepalese alder; utis in Nepali

Khet

(Nepali) Irrigated fields; typically used to cultivate rice and wheat

Bari

(Nepali) Rainfed fields; typically used to cultivate maize and millet

Notes

Acknowledgements

We heartily thank the participants from Charikot, Sundrawati and Boch in Dolakha District, Nepal, for spending time with the research team and contributing to this study. We thank collaborators at ForestAction Nepal: Bikash Adhikari, Govinda Paudel, Naya Sharma Paudel and Dil Bahadur Khatri, for their fieldwork assistance. We thank Isha Ray, Emily Yeh, Sarah Turner, Kripa Jagannathan, Veronica Jacome, Galen Murton, Rupak Shresta and Dinesh Paudel for their review, generous comments and guidance, and Michael MacDonald for the study location map. Funding and support was provided by the American Alpine Club, the Peder Sather Fellowship, a joint collaborative of the University of California, Berkeley and the University of Bergen, and ©Patagonia.

Supplementary material

13280_2018_1021_MOESM1_ESM.pdf (33 kb)
Supplementary material 1 (PDF 34 kb)

References

  1. Aase, T.H. 2017. Climate change and the future of himalayan farming. Oxford, UK: Oxford University Press.Google Scholar
  2. Achterbosch, T., S.V. Berkum, G.W. Meijerink, and D. Oudendag. 2014. Cash crops and food security: Contributions to income, livelihood risk and agricultural innovation. The Hague, The Netherlands: University and Research Centre.Google Scholar
  3. Altieri, M., C.I. Nicholls, A. Henao, and M.A. Lana. 2015. Agroecology and the design of climate change-resilient farming systems. Agronomy for Sustainable Development 35: 869–890.CrossRefGoogle Scholar
  4. Baiphethi, M.N., and P.T. Jacob. 2009. The contribution of subsistence farming to food security in South Africa. Agrekon 48: 459–482.CrossRefGoogle Scholar
  5. Behera, R.N., D.K. Nayak, H.P. Andersen, and I.E. Måren. 2016. From jhum to broom: Agricultural land use change and food security implications on the Meghalaya Plateau, India. Ambio 45: 63–77. https://doi.org/10.1007/s13280-015-0691-3.
  6. Blaikie, P., and D. Coppard. 1998. Environmental change and livelihood diversification in Nepal: Where is the problem? Himalaya 18: 28–40.Google Scholar
  7. Blaikie, P., J. Cameron, B. Rogaly, and D. Seddon. 1998. Livelihood trajectories and long term change. Final report to the Economic and Social Committee for Overseas Research (ESCOR). Norwich, UK: Overseas Development Group (ODG), University of East Anglia.Google Scholar
  8. Brown, S., and G. Kennedy. 2005. A case study of cash cropping in Nepal: Poverty alleviation or inequity? Agriculture and Human Values 22: 105–116.CrossRefGoogle Scholar
  9. Chaudary, R., and S.P. Vista. 2015. Proceedings of the stakeholders consultation workshop on large cardamom development in Nepal. Nepal Agricultural Research Council (NARC) Publication Series.Google Scholar
  10. Chhetria, N., P. Chaudhary, P.R. Tiwari, and R.B. Yadaw. 2012. Institutional and technological innovation: Understanding agricultural adaptation to climate change in Nepal. Applied Geography 33: 142–150.CrossRefGoogle Scholar
  11. Crang, M., and I. Cook. 2007. Doing ethnographies. London: Sage.CrossRefGoogle Scholar
  12. Cutter, S.L., C.G. Burton, and C.T. Emrich. 2010. Disaster resilience indicators for benchmarking baseline conditions. Journal of Homeland Security and Emergency Management 7: 51.Google Scholar
  13. Diao, X., P. Hazell, and J. Thurlow. 2010. The role of agriculture in African development. World Development 38: 1375–1383.CrossRefGoogle Scholar
  14. Eklund, L., A. Persson, and P. Pilesjo. 2016. Cropland changes in times of conflict, reconstruction, and economic development in Iraqi Kurdistan. Ambio 45: 78–88.CrossRefGoogle Scholar
  15. Ellis, F. 2000. Rural livelihoods and diversity in developing countries. Oxford: Oxford University Press.Google Scholar
  16. Epstein, K., J. DiCarlo, R. Marsh, I. Ray, and I. Måren. 2017. Post-disaster coping strategies of smallholder farmers in Nepal. Case Studies in the Environment. Oakland: UC Berkeley Press.Google Scholar
  17. Epstein, K., J. DiCarlo, R. Marsh, B. Adhikari, D. Paudel, I. Ray, and I. Måren. in press. Adoption and recovery after the 2015 earthquakes in Nepal: A smallholder perspective. Ecology and Society. Google Scholar
  18. Eriksson, M., X. Jianchu, A.B. Shrestha, R.A. Vaidya, A. Nepal, and K. Sandström. 2009. The changing Himalayas: Impact of climate change on water resources and livelihoods in the greater Himalayas. Kathmandu: International Centre for Integrated Mountain Development (ICIMOD).Google Scholar
  19. Fitzpatrick, I.C. 2011. Cardamom and class: A Limbu village and its extensions in east Nepal. Kathmandu: Vajra Publications.Google Scholar
  20. Folke, C. 2006. Resilience: The emergence of a perspective for social-ecological systems analyses. Global Environmental Change 16: 253–267.CrossRefGoogle Scholar
  21. Food and Agricultural Organization of the United Nations (FAO). Family farm knowledge platform: Smallholders data portrait. Retrieved from: http://www.fao.org/family-farming/data-sources/dataportrait/farm-size/en/.
  22. Gartaula, H., K. Patel, D. Johnson, R. Devkota, K. Khadka, and P. Chaudery. 2016. From food security to food wellbeing: Examining food security through the lens of food wellbeing in Nepal’s rapidly changing agrarian landscape. Agriculture and Human Values 33: 1–17.CrossRefGoogle Scholar
  23. Gautam, Y. 2011. Food security in the context of agricultural commercialization in Ilam, East Nepal. Thesis, University of Bergen Department of Geography.Google Scholar
  24. Gautam, Y., and P. Andersen. 2016. Rural livelihood diversification and household well-being: Insight from Humla, Nepal. Journal of Rural Studies 44: 239–249.CrossRefGoogle Scholar
  25. Hart G., A. Turton, B. White, B. Fegan, and L.T. Ghee (eds.). 1992. Agrarian transformations: Local processes and the state in Southeast Asia. Oxford: University of California Press.Google Scholar
  26. Hartkamp, A.D. 1993. Black gold: A study on large cardamom in the eastern hills of Nepal. Wageningen: Wageningen Agricultural University.Google Scholar
  27. Harvey, C.A., Z.L. Rakotobe, N.S. Rao, R. Dave, H. Razafimahatratra, R.H. Rabarijohn, H. Rajaofara, and J.L. MacKinnon. 2014. Extreme vulnerability of smallholder farmers to agricultural risks and climate change in Madagascar. Philosophical Transactions of the Royal Society.  https://doi.org/10.1098/rstb.2013.0089.Google Scholar
  28. Hazell, P., C. Poulton, S. Wiggins, and A. Dorward. 2010. The future of small farms: Trajectories and policy priorities. World Development 38: 1349–1361.CrossRefGoogle Scholar
  29. Herbert, S. 2000. For ethnography. Progress in Human Geography 24: 550–568.CrossRefGoogle Scholar
  30. Holt-Gimenez, E. 2002. Measuring farmers’ agroecological resistance after Hurricane Mitch in Nicaragua: A case study in participatory, sustainable land management impact monitoring. Agriculture, Ecosystems & Environment 93: 87–105.CrossRefGoogle Scholar
  31. ICIMOD (International Centre for Integrated Mountain Development). 27 February 2016. Enhancing large cardamom production. http://www.icimod.org/?q=21571.
  32. Jayne, T.S., D. Mather, and E. Mghenyi. 2010. Principal challenges confronting smallholder agriculture in Sub-Saharan Africa. World Development 38: 1384–1398.CrossRefGoogle Scholar
  33. Jayne, T.S., J. Chamberlin, and D.D. Headey. 2014. Land pressures, the evolution of farming systems, and development strategies in Africa: A synthesis. Food Policy 48: 1–17.CrossRefGoogle Scholar
  34. Joshi, P.K., A. Gulati, and R. Cummings Jr. (eds.). 2007. Agricultural diversification and smallholders in South Asia. New Delhi, India: Academic Foundation.Google Scholar
  35. Khan, M.D., M. Hossain, I. Bryceson, K.N. Kolivras, F. Faruque, M.M. Rahman, and U. Haque. 2015. Natural disasters and land-use/land-cover change in the southwest coastal areas of Bangladesh. Regional Environmental Change 15: 241–250.CrossRefGoogle Scholar
  36. Kremen, C., A. Iles, and C. Bacon. 2012. Diversified farming systems: An agroecological, systems-based alternative to modern industrial agriculture. Ecology and Society 17: 44.Google Scholar
  37. Kremen, C., and A. Miles. 2012. Ecosystem services in biologically diversified versus conventional farming systems: Benefits, externalities, and trade-offs. Ecology and Society 17: 40.Google Scholar
  38. Lesk, C., P. Rowhani, and N. Ramankutty. 2016. Influence of extreme weather disasters on global crop production. Nature 529: 84–87.CrossRefGoogle Scholar
  39. Li, T. 2011. Centering labor in the land grab debate. The Journal of Peasant Studies 38: 281–298.CrossRefGoogle Scholar
  40. Li, T. 2014. Land’s end: Capitalist relations on an indigenous frontier. Durham: Duke University Press.Google Scholar
  41. Lin, B.B. 2011. Resilience in agriculture through crop diversification: Adaptive management for environmental change. BioScience 61: 183–193.CrossRefGoogle Scholar
  42. Lowder, S.K., J. Skoet, and T. Raney. 2016. The number, size, and distribution of farms, smallholder farms and family farms worldwide. World Development 87: 16–29.CrossRefGoogle Scholar
  43. Manandhar, S., D.S. Vogt, S.R. Perret, and F. Kazama. 2011. Adapting cropping systems to climate change in Nepal: A cross-regional study of farmers’ perception and practices. Regional Environmental Change 11: 335–348.CrossRefGoogle Scholar
  44. Måren, I.E., and O.R. Vetaas. 2007. Does regulated land use allow regeneration of keystone forest species in the Annapurna Conservation Area, Central Himalaya. Mountain Research and Development 27: 345–351.CrossRefGoogle Scholar
  45. Måren, I.E., K.R. Bhattarai, and R.P. Chaudhary. 2013. Forest ecosystem services and biodiversity in contrasting Himalayan forest management systems. Environmental Conservation 41: 73–83.CrossRefGoogle Scholar
  46. Marschke, M.J., and F. Berkes. 2006. Exploring strategies that build livelihood resilience: A case from Cambodia. Ecology and Society 11: 42.CrossRefGoogle Scholar
  47. Ministry of Agricultural Development, Agribusiness Promotion and Statistics Division (MoAD). 2013. Statistical Information on Nepalese Agriculture. Government of Nepal. Google Scholar
  48. Ministry of Agricultural Development, Agribusiness Promotion and Statistics Division (MoAD). 2015. Trade Flow Analysis of Large Cardamom in Eastern Region. Government of Nepal. Google Scholar
  49. Ministry of Science, Technology and Environment (MoSTE). 2015. Indigenous and local knowledge and practices for climate resilience in Nepal, mainstreaming climate change risk management in development. Kathmandu, Nepal.Google Scholar
  50. National Planning Commission (NPC) of the Government of Nepal. 2015. Nepal Earthquake 2015: Post-disaster needs assessment.Google Scholar
  51. National Strategy for Disaster Risk Reduction in Nepal (NSDRR). 2008. UNDP Nepal and the European Commission on Humanitarian Aid.Google Scholar
  52. Nautiyal, A. 2015. Is Chir Pine displacing Banj Oak in the Central Himalaya? Socioeconomic implications for local people and the conservation of Oak Forest biodiversity. Theses and Dissertations, University of Arkansas, Fayetteville.Google Scholar
  53. Nepal ALIA—Agricultural Livelihoods Impact Appraisal in Dhading, Dolakha, Gorkha, Nuwakot, Rasuwa and Sindhupalchok. 2015. Nepal Food Security Cluster and the Food and Agriculture Organization of the United Nation.Google Scholar
  54. Pandit, M.K., K. Manish, and K.P. Koh. 2014. Dancing on the roof of the world: Ecological transformation of the Himalayan landscape. BioScience 64: 980–992.Google Scholar
  55. Patel, R. 2008. Stuffed and starved: The hidden battle for the world food system. Brooklyn, NY: Melville House Publishing.Google Scholar
  56. Poudel, M.P., and S. Chen. 2012. Effect of production on large cardamom price variability in Nepal. Journal of International Agricultural Trade and Development 8: 99–108.Google Scholar
  57. Randolph, G. and P. Agarwal. 2017. Rebuilding Nepal: Creating good jobs amid reconstruction and migration. JustJobs Network. Google Scholar
  58. Reardon, T., J. Berdegué, and G. Escobar. 2001. Rural nonfarm employment and incomes in Latin America: Overview and policy implications. World Development 29: 395–409.CrossRefGoogle Scholar
  59. Rigg, J. 2006. Land, farming, livelihoods, and poverty: Rethinking the links in the Rural South. World Development 34: 180–202.CrossRefGoogle Scholar
  60. Rockström, J., J. Williams, G. Daily, A. Noble, N. Matthews, L. Gordon, H. Wetterstrand, F. DeClerck, et al. 2017. Sustainable intensification of agriculture for human prosperity and global sustainability. Ambio 46: 4–17.CrossRefGoogle Scholar
  61. Sharma, S. 1997. Agricultural transformation processes in the mountains of Nepal: Empirical evidence from Ilam District. Kathmandu: ICIMOD.Google Scholar
  62. Sharma, E., R. Sharma, K.K. Singh, and G. Sharma. 2000. A boon for mountain populations. Mountain Research and Development 20: 108–111.CrossRefGoogle Scholar
  63. Sharma, E., R. Sharma, G. Sharma, S.C. Rai, P. Sharma, and N. Chettri. 2008. Values and services of nitrogen-fixing alder based cardamom agroforestry systems in the eastern Himalayas. Smallholder Tree Growing for Rural Development and Environmental Services: Lessons from Asia 5: 393–409.CrossRefGoogle Scholar
  64. Sharma, G., U. Partap, D.R. Dahal, D.P. Sharma, and E. Sharma. 2016. Declining large-cardamom production systems in the Sikkim Himalayas: Climate change impacts, agroeconomic potential, and revival strategies. Mountain Research and Development 36: 286–298.CrossRefGoogle Scholar
  65. Shivakumar, M.V.K., R.P. Motha, H.P. Das (eds.). 2005. Impacts of natural disasters in agriculture, rangeland and forestry: An overview. In natural disasters and extreme events in agriculture. Berlin: Springer.Google Scholar
  66. Sinha, B. 2002. Pines in the Himalayas: Past, present and future scenario. Energy and Environment 13: 873–881.CrossRefGoogle Scholar
  67. Sony, K.C., and B.R. Upreti. 2017. The political economy of cardamom farming in eastern Nepal: Crop disease, coping strategies, and institutional innovation. SAGE Open 7: 1–15. https://doi.org/10.1177/2158244017705422.
  68. Sony, K.C., B.R. Upreti, and B.P. Subedi. 2016. ‘We know the taste of sugar because of cardamom production’ Links among commercial cardamom farming, women’s involvement in production and the feminization of poverty. Journal of International Women’s Studies 18: 181–207.Google Scholar
  69. Steffen, W., A. Persson, L. Deutsch, J. Zalasiewicz, M. Williams, K. Richardson, C. Crumley, P. Crutzen, et al. 2011. The anthropocene: From global change to planetary stewardship. Ambio 40: 739–761.CrossRefGoogle Scholar
  70. Takahamake, T. 2001. The benefits and problems of cash crop farming in Eastern Nepal: A case study of Ilam District. Journal of International Development and Cooperation 8: 127–146.Google Scholar
  71. Tamang, S., K.P. Paudel, and K.K. Shresta. 2014. Feminization of agriculture and its implications for food security in rural Nepal. Journal of Forest and Livelihood 12: 20–32.Google Scholar
  72. Thapa, G., A. Kumar, and P.K. Joshi. 2017. Agricultural diversification in Nepal: Status, determinants and its impact on rural poverty. International Food Policy Research Institute Discussion Paper 01634.Google Scholar
  73. The World Bank. 2005. Annual Report, submitted by P. Wolfowitz, President of the IBRD and IDA and Chairman of the Board of Executive Directors.Google Scholar
  74. Turner, S. 2017. A fortuitous frontier opportunity: Cardamom livelihoods in the Sino-Vietnamese borderlands. In Trans-Himalayan Borderlands: Livelihoods, territorialities, modernities, ed. D.S. Yü, and J. Michaud. Amsterdam: Amsterdam University Press.Google Scholar
  75. United Nations Office for the Coordination of Humanitarian Affairs (UNOCHA). Nepal Earthquake Assessment Unit. District profile: DOLAKHA. 19 August 2015. Assessment Capacities Project.Google Scholar
  76. USAID ACCESO Project. 2011. The world market for cardamom: Market survey #2. http://pdf.usaid.gov/pdf_docs/PA00KNZM.pdf.
  77. Valdés, A., and W. Foster. 2010. Reflections on the role of agriculture in pro-poor growth. World Development 38: 1362–1374.CrossRefGoogle Scholar
  78. Von Braun, J. (ed). 1992. Improving food security of the poor: Concept, policy, and programs. International Food Policy Research Institute.Google Scholar
  79. Wiggins, S., J. Kirsten, and L. Lambi. 2010. The future of small farms. World Development 38: 1341–1349.CrossRefGoogle Scholar
  80. Wisner, B., P. Blaikie, T. Cannon, and I. Davis. 2013. At risk: Natural hazards, people’s vulnerability and disasters, 2nd ed. London and New York: Routledge.Google Scholar
  81. World Neighbors. 2000. Reasons for resiliency: Toward a sustainable recovery after hurricane Mitch.Google Scholar

Copyright information

© Royal Swedish Academy of Sciences 2018

Authors and Affiliations

  1. 1.Department of GeographyUniversity of Colorado BoulderBoulderUSA
  2. 2.Department of Earth SciencesMontana State UniversityBozemanUSA
  3. 3.Institute for Study of Societal IssuesUniversity of California BerkeleyBerkeleyUSA
  4. 4.Department of Biological SciencesUniversity of BergenBergenNorway

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