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Livelihood and Carbon Management by Indigenous People in Southern Himalayas

  • Dil Kumar Limbu
  • Basanta Kumar Rai
  • Krishna Kumar Rai
Chapter

Abstract

The two important anthropogenic drivers for carbon cycle in the Himalayas are land use (rangeland, shifting cultivation and community-based forest management) and fuel use (biomass energy). Shifting cultivation, though illegal in the southern Himalayan regions of India, Bhutan and Nepal, is still widely practiced by indigenous people for their livelihood. This chapter reviews carbon dioxide and methane management in the southern Himalayan region, in particular, Nepal, India and Bhutan. The review will be limited to land and fuel use, as these are the most important anthropometric drivers of the carbon cycle and reduce livelihood security in the Himalayas.

Keywords

Southern Himalayas Indigenous people Livelihood security Carbon management Biomass energy 

References

  1. AEPC. 2018. Improved cooking stoves. Alternative Energy Program Center. Ministry of Energy, Water Resources and Irrigation. Government of Nepal.Google Scholar
  2. Agrawal, S. 1987. Prospects for community biogas plant. In Rural energy planning for the Indian Himalaya, ed. T.M.V. Kumar and D.R. Ahuja, 94–117. Rome: ICIMOD and TERI. Wiley Eastern Limited.Google Scholar
  3. Amare, Z.Y. 2014. The role of biogas energy production and use in greenhouse gas emission reduction: The case of Amhara National Regional State, Fogera District, Ethiopia. Journal of Multidisciplinary Engineering Science and Technology 1 (5): 404–410.Google Scholar
  4. Aryal, S., T.N. Maraseni, and G. Cockfield. 2014. Sustainability of transhumance grazing systems under socio-economic threats in Langtang, Nepal. Journal of Mountain Science 14 (4): 1023–1034.CrossRefGoogle Scholar
  5. Bajracharya, K., N.R. Dhakal, and D. Paudel. 2012. Success stories of ICS promotion. Nepal: Biomass Support Program (BMSP)/Alternative Energy Promotion Center (AEPC)/Energy Sector Support Program (ESSP.Google Scholar
  6. Bajracharya, K.M., K.B. Malla, and P.B. Thapa. 1993. Shifting cultivation in Southern Gorkha. Kathmandu: Forestry and Conservation Technology Services.Google Scholar
  7. Banjade, M.R., and N.S. Paudel. 2008. Mobile pastoralism in crisis: Challenges, conflicts and status of pasture tenure in Nepal Mountains. Journal of Forest and Livelihood 7 (1): 36–48.Google Scholar
  8. Barthakur, I.K. 1981. Shifting cultivation and economic change in the north-eastern Himalaya. In The Himalaya: Aspects of change, ed. J.S. Lall, 447–460. Delhi: Oxford University Press.Google Scholar
  9. Bensel, T.G. 2008. Fuelwood, deforestation, and land degradation: 10 years of evidence from Cebu Province, the Philippines. Land Degradation & Development 19: 587–605.CrossRefGoogle Scholar
  10. Bhasin, V. 2011. Pastoralists of Himalayas. Journal of Human Ecology 33 (3): 147–177.CrossRefGoogle Scholar
  11. Bhatt, B.P., and M.S. Sachan. 2004. Firewood consumption pattern of different tribal communities in Northeast India. Energy Policy 24: 1–6.CrossRefGoogle Scholar
  12. Bhatt, B.P., and S.K. Sarangi. 2010. Fuelwood characteristics of some firewood trees and shrubs of eastern Himalaya, India. Energy Sources 32: 449–474.Google Scholar
  13. Bhol, J., B.Β. Sahoo, C.K. Mishra. 2011. Biogas digesters in India: A review. National Conference on Renewable and New energy Systems, Odisha, Dec 22–23, 2011.Google Scholar
  14. Bhuyan P., M. Khan, R. Tripathi. 2003. Tree diversity and population structure in undisturbed and human-impacted stands of tropical wet evergreen forest in Arunachal Pradesh, Eastern Himalayas, India. Biodivers Conserv 12: 1753–1773.Google Scholar
  15. Bluffstone, R., E. Somanabhan, P. Jha, et al. 2015. Collective action and carbon sequestration in Nepal. Journal of Forest and Livelihood 13 (1): 1–7.CrossRefGoogle Scholar
  16. Briske, D.D. 2017. Rangeland systems: Foundation for a conceptual framework. In Rangeland systems: Processes, management and challenges, ed. D.D. Briske, 5. Switzerland: Springer Nature.  https://doi.org/10.1007/798-3-319-46709-2.CrossRefGoogle Scholar
  17. Chaudhary, P., R. Seidler, and K. Bawa. 2017. Patterns and determinants of domestic energy use in Kanchenjunga Himalaya. International Journal of Energy and Environmental Science 2 (1): 1–11.Google Scholar
  18. Choudhary, V.K. 2012. Improvement of jhum with crop model and carbon sequestration techniques to mitigate climate change in Eastern Himalayan Region, India. Journal of Agricultural Science 4 (4): 181–189.CrossRefGoogle Scholar
  19. Claassen, R. and M. Morehart. 2009. Agricultural land tenure and carbon offsets. Economic Brief Number 14.Google Scholar
  20. Costanza, R., R. d’Arge, R. de Groot, et al. 1997. The value of the world’s ecosystem services and natural capital. Nature 387 (15): 253–260.CrossRefGoogle Scholar
  21. Delang, C.O., and W.M. Li. 2013. Ecological succession on fallowed shifting cultivation fields: A review of the literature. New York: Springer.CrossRefGoogle Scholar
  22. Derville, M. and J. Bonnemaire, 2010. In Marginalization of yak herders in Bhutan: Can public policy generate new stabilities that can support the transformation of their skills and organizations? Innovation and Sustainable Development in Food and Agriculture (ISDA), France. Retrieved from https://hal.archives-ouvertes.fr/hal-00522045.Google Scholar
  23. Dhital, M.R. 2015. Geology of the Nepal Himalaya: Regional geology reviews. Switzerland: Springer.CrossRefGoogle Scholar
  24. Dong, S. 2016. Overview: Pastoralism in the world. In Building resilience of human-natural systems of pastoralism in the developing world—interdisciplinary perspectives, ed. S. Dong, K-A.S. Kassam, F.F. Tourrand, R.B. Boone, et al, 2, 8–10. Switzerland: Springer Nature.Google Scholar
  25. Dong, S., S.L. Yi, and Z.L. Yan. 2016. Maintaining the human–natural systems of pastoralism in the Himalayas of South Asia and China. In Building resilience of human-natural systems of pastoralism in the developing world—interdisciplinary perspectives, ed. S. Dong, K.-A.S. Kassam, F.F. Tourrand, and R.B. Boone, 93–137. Switzerland: Springer Nature.CrossRefGoogle Scholar
  26. Donovan, D.G. 1981. Fuelwood: How much do we need? Hanover, NH: Institute of Current World Affairs.Google Scholar
  27. Dorji, M. 2011. Securing tenureship over tseri land cultivation, Kingdom of Bhutan. Kathmandu, Nepal: Consultancy Report, Council for Renewable Natural Resources Research of Bhutan, Ministry of Agriculture and Forest, submitted to ICIMOD.Google Scholar
  28. Ekholm, T., V. Krey, S. Pachauri, et al. 2010. Determinants of household energy consumption in India. Energy Policy 38: 5696–5707.CrossRefGoogle Scholar
  29. FAO. 2010a. Managing forests for climate change: Supporting countries to manage fragile forest ecosystems. Food and Agriculture Organization. I1960E/1/11.10.Google Scholar
  30. ———. 2010b. Criteria and indicators for sustainable woodfuels. FAO forestry paper 160. Rome: Food and Agriculture Organization of the United Nations.Google Scholar
  31. Fox, J. 1984. Firewood consumption in a Nepali village. Environment Management 8 (3): 243–250.CrossRefGoogle Scholar
  32. Frank, D.Α., S.J. McNaughton, and B.F. Tracy. 1998. The ecology of earth’s grazing ecosystems. Bioscience 48 (7): 629–634.CrossRefGoogle Scholar
  33. FRMD. 2017. Land use and land cover of Bhutan 2016, maps and statistics. Bhutan: Forest Resources Management Division.Google Scholar
  34. Fujisaka, S., L. Hurtado, and R. Uribe. 1996. A working classification of slash-and- burn agricultural systems. Agroforestry Systems 34: 151–169.CrossRefGoogle Scholar
  35. Gandhi, M.K. 1968. The selected works of Mahatma Gandhi: Satyagraha in South Africa. Navajivan: Navajivan Publishing House. Retrieved Nov 25, 2008.Google Scholar
  36. Gilmour, D. 2016. Forty years of community-based forestry: A review of its extent and effectiveness. FAO forestry paper 176. Rome: Food and Agriculture Organization of the United Nations.Google Scholar
  37. Go-N. 2014. Statistical information on Nepalese agriculture 2014/2015. Nepal: Government of Nepal, Ministry of Agricultural Development.Google Scholar
  38. Grassroots. 2009. Bio-gas: Renewable energy for the Himalaya. Pan Himalayan Grassroots Development Foundation. Retrieved from https://youtube/sMFe%2D%2DbLKdI?list=UUX7rXSJ7oDDpb65drGYSjFg.
  39. Gross, T., A. Zahnd, S. Adhikari, et al. 2017. Potential of biogas production to reduce firewood consumption in remote high-elevation Himalayan communities in Nepal. Renewable Energy and Environmental Sustainability 2: 8.CrossRefGoogle Scholar
  40. Gyamtsho, P. 2002. Condition and potential for improvement of high altitude rangelands. Journal of Bhutan Studies, Centre for Bhutan Studies, Thimphu, Bhutan 7: 82–98.Google Scholar
  41. Gyeltshen, T., N. Shering, K. Tsering, et al. 2010. Implication of legislative reform under the land act of Bhutan, 2007: A case study on nationalization of Tsamdrog and Sokshing and its associated socioenomic and environmental consequences. Thimphu: Watershed Management Division, Department of Forest and Park Services.Google Scholar
  42. ICIMOD. 2015. Shifting cultivation in Bangladesh, Bhutan, and Nepal: Weighing government policies against customary tenure and institutions. ICIMOD Working Paper 2015/7. Kathmandu: Center for Integrated Mountain Development.Google Scholar
  43. IEA. 1998. World energy outlook. International Energy Agency. 1998 Edition. www.iea.org.
  44. ———. 2006. World energy outlook. Paris: International Energy Agency/Organization for Economic Cooperation and Development. Interscience Publishers.Google Scholar
  45. Kafle, G. 2011. An overview of shifting cultivation with reference to Nepal. International Journal of Biodiversity and Conservation 3 (5): 147–154.Google Scholar
  46. Kafle, G., P. Limbu, B. Pradhan, et al. 2009. Piloting ecohealth approach for addressing land use transition, climate change and human health issues. NGO group bulletin on climate change. Pokhara: LIBIRD.Google Scholar
  47. Karan, P.P. 1987. Population Characteristics of the Himalayan Region. Mountain Research and Development 7 (3): 271–274.CrossRefGoogle Scholar
  48. Kerkhoff, E., and E. Sharma. 2006. Debating shifting cultivation in the Eastern Himalayas. In Farmers’ Innovations as Lessons for Policy. Kathmandu: International Centre for Integrated Mountain Development (ICIMOD).Google Scholar
  49. Khawas, V. 2003. Joint forest management in India with special reference to Darjeeling Himalaya. Ahmedabad, India: School of Planning, Center for Environmental Planning and Technology. Retrieved from http://lib.icimod.org/record/11260/files/209.pdf. Retrieved June 30, 2018.Google Scholar
  50. Kreutzmann, H. 2012. Pastoralism: A way forward or back?. In Pastoral practices in High Asia (pp. 323–336). Dordrecht: Springer.Google Scholar
  51. Kumar, R., M.K. Patra, A. Thirugnanavel, et al. 2016. Towards the natural resource management for resilient shifting cultivation system in eastern Himalayas. In Conservation agriculture—An approach to combat climate change in Indian Himalaya, ed. J.K. Bisht, V. Singh, M. Pankaj, K. Mishra, and A. Pattanayak, 409–436. Singapore: Springer Science + Business Media.Google Scholar
  52. Le Fort, P. 1975. Himalayas: The collided range. Present knowledge of the continental arc. American Journal Science 275A: 1–44.Google Scholar
  53. Limbu, D.K. (Photographer). 2010a. Rangeland of eastern Nepal (kharka). [Photograph]. (Author’s collection).Google Scholar
  54. ———. 2010b. A thriving community forest of eastern Nepal. [Photograph]. (Author’s collection).Google Scholar
  55. ———. 2010c. Drying and stacking firewood in eastern Nepal. [Photograph]. (Author’s collection).Google Scholar
  56. Liebig, M.A., J.A. Morgan, J.D. Reeder, et al. 2005. Greenhouse gas contributions and mitigation potential of agricultural practices in northwestern USA and western Canada. Soil and Tillage Research 83: 25–52.CrossRefGoogle Scholar
  57. Lungmuana, A.C., B.U. Choudhury, S. Saha, et al. 2018. Impact of post-burn jhum agriculture on soil carbon pools in the north-eastern Himalayan region of India. Soil Research 56 (6): 615–622.CrossRefGoogle Scholar
  58. Maden, K. (Photographer). 2017. Rangeland of western Nepal. [Photograph]. (Author’s collection).Google Scholar
  59. Maikhuri, R.K., L.S. Rawat, P.C. Phondani, et al. 2018. Livestock—The engine and inspiration of mountain economy. Bangalore: LEISA-India. Retrieved from https://leisaindia.org/livestock-the-engine-and-inspiration-of-mountain-economy/.Google Scholar
  60. Meena, V.S., T. Mondal, B.M. Pandey, et al. 2018. Land use changes: Strategies to improve soil carbon and nitrogen storage pattern in the mid-Himalaya ecosystem, India. Geoderma 321: 69–78.CrossRefGoogle Scholar
  61. Mertz, O., and T.B. Bruun. 2017. Shifting cultivation policies in Southeast Asia: A need to work with, rather than against, smallholder farmers. In Shifting cultivation policies: Balancing environmental and social sustainability, ed. M. Cairns, 27–31. New York: CABI Publishing.CrossRefGoogle Scholar
  62. Molnar, A., M. France, L. Purdy, et al. 2011. Community-based forest management—The extent and potential scope of community and smallholder forest management and enterprises. 5th rights + resource anniversary, 7. Washington, DC: The Rights and Resources Initiative.Google Scholar
  63. Namgay, K., J. Millar, R. Black, et al. 2013. Transhumant agro-pastoralism in Bhutan: Exploring contemporary practices and socio-cultural traditions. Pastoralism 3 (1): 1–26.CrossRefGoogle Scholar
  64. Nandy, S.N., and P.K. Samal. 2005. An outlook of agricultural dependency in the IHR. ENVIS Newsletter: Himalayan Ecology 2: 4–5.Google Scholar
  65. Naudiyal, N., and J. Schmerbeck. 2017. The changing Himalayan landscape: Pine-oak forest dynamics and the supply of ecosystem services. Journal of Forest Research 28 (3): 431–443.CrossRefGoogle Scholar
  66. Nayak, P.K. 2002. Community-based forest management in India: The issue of tenurial significance. Paper for the 9th Biennial Conference of the IASCP.Google Scholar
  67. Oestereich, C. 2017. Green growth initiative in Bhutan: Bhutan biogas project. Retrieved from https://sdghelpdesk.unescap.org/sites/default/files/2018-03/GG%20-%20Bhutan%20Biogas%20Project.pdf.
  68. Ojha, H.R., N.P. Timsina, C. Kumar, et al. 2007. Community-based forest management programs in Nepal: An overview of issues and lessons. Journal of Forest and Livelihood 6 (2): 1–7.Google Scholar
  69. Osei, W.Y. 1993. Wood fuel and deforestation-answers for a sustainable environment. Journal of Environmental Management 37: 51–62.CrossRefGoogle Scholar
  70. Pandeya, S.C. 1988. Status of Indian rangelands, 213. Jhansi, India: Range Management Society if India.Google Scholar
  71. Pathak, B.R., X. Yi, and R. Bohara. 2017. Community based forestry in Nepal: Status, issues and lessons learned. International Journal of Sciences 6 (3): 120–129.Google Scholar
  72. Paudel, M.N. 2015. Global effect of climate change and food security with respect to Nepal. Journal of Agriculture and Environment 16: 1–20.CrossRefGoogle Scholar
  73. Rai, K. K. (Photographer). 2018. The Himalayan Region. [Photograph]. (Author’s collection)Google Scholar
  74. Ramakrishnan, P.S. 1984. The science behind rotational bush fallow agriculture system (Jhum). Proceeding of the Indian Academy of Science (Plant Science) 93: 379.Google Scholar
  75. Rangeland Policy of Nepal, 2012. Kathmandu, Nepal: Government of Nepal, Ministry of Agriculture and Co-operatives. http://www.nepalpolicynet.com/new/wp-content/uploads/2014/01/2070_-NEPAL-Government_IrrigationPolicy.pdf.Google Scholar
  76. Rathore, S.S., N. Krose, M. Naro, et al. 2012. Weed management through salt application: An indigenous method for shifting cultivation areas, Eastern Himalaya. Indian Journal of Traditional Knowledge 11: 354–357.Google Scholar
  77. Rayamajhi, S., C. Smith-Hall, and F. Helles. 2012. Empirical evidence of the economic importance of Central Himalayan forests to rural households. Forest Policy and Economics 20: 25–35.CrossRefGoogle Scholar
  78. Regmi, B.R., A. Subedi, K.P. Aryal, et al. 2005. Shifting cultivation systems and innovations in Nepal. Unpublished report. Pokhara: LIBIRD.Google Scholar
  79. Royal Government of Bhutan (RGoB). 2010. National strategy for community forestry: The way ahead. Thimphu, Bhutan: Department of Forests and Park Services, Ministry of Agriculture and Forests.Google Scholar
  80. Rijal, H.B., and H. Yoshida. 2002. Investigation and evaluation of firewood consumption in traditional houses in Nepal. In Proceedings: Indoor air (pp. 1000–1006).Google Scholar
  81. Robinson, D.T., D.G. Brown, N.H.F. French, et al. 2013. Linking land use and carbon cycle: Advances in integrated science, management and policy. In Land use and the carbon cycle, ed. G.B. Daniel, T.R. Derek, H.F.F. Nancy, and C.R. Bradley. Cambridge, USA: Cambridge University Press.CrossRefGoogle Scholar
  82. Samal, P.K., P.P. Dhyani, and M. Dollo. 2010. Indigenous medicinal practices of Bhotia tribal community in Indian Central Himalaya. Indian Journal of Traditional Knowledge 9 (1): 140–144.Google Scholar
  83. Satapathy, K.K., B.K. Sharma, S.N. Goswami, et al. 2003. Developing lands affected by shifting cultivation. New Delhi: Department of Land Resources, Ministry of Rural Development, Government of India.Google Scholar
  84. Sati, V.P., and P. Rinawma. 2014. Practices of shifting cultivation and its implications in Mizoram, North-east India: A review of existing research. Nature and Environment 19 (2): 179–187.Google Scholar
  85. Sharma, V.P., I. Kohler- Rollefson, J. Morton, et al. 2003. Pastoralism in India: A scoping study. A report from Livestock Production Programme of the United Kingdom. Department for International Development.Google Scholar
  86. Singh, P. 1986. Status of Himalaya rangeland in India and their sustainable management. In Proceedings of rangeland and pastoral development in Hindu Kush-Himalayas (5–7 November 1996), ed. D.J. Miller and S.R. Craig, 13–22. Kathmandu, Nepal.Google Scholar
  87. Singh, A., K. Tuladhar, K. Bajracharya, et al. 2012. Assessment of effectiveness of improved cook stoves in reducing indoor air pollution and improving health in Nepal. Energy for Sustainable Development 16: 406–414.CrossRefGoogle Scholar
  88. Smith, K.R. 1998. Indoor air pollution in India: National health impacts and cost-effectiveness of intervention. Report Prepared for Capacity 21 Project of India, Mumbai: Indira Gandhi Institute of Development Research.Google Scholar
  89. TED. 2016. Tshering Tobgay. This country isn’t just carbon neutral -it’s carbon negative [Video file]. Retrieved from https://www.ted.com/talks/tshering_tobgay_this_country_isn_t_just_carbon_neutral_it_s_carbon_negative?language=en#t-3411.
  90. Tenzing, K. 2018. Exploring governance structures of high altitude rangeland in Bhutan using Ostrom’s Design Principles. International Journal of the Commons 12 (1): 428–459.CrossRefGoogle Scholar
  91. Tinker, P.B., J.S.I. Ingram, and S. Strue. 1996. Effects of slash-and-burn agriculture and deforestation on climate change. Agriculture Ecosystem and Environment 58: 13–22.CrossRefGoogle Scholar
  92. Tomar, J.M.S., A. Das, L. Puni, et al. 2012. Shifting cultivation in Northeastern region of India—Status and strategies for sustainable development. Dehradun: Central Soil & Water Conservation Research & Training Institute.Google Scholar
  93. Tutton, M., and K. Scott 2018. CNN: What tiny Bhutan can teach the world about being carbon negative. Retrieved from http://cnnphilippines.com/world/2018/10/12/bhutan-carbon-negative-greenhouse-gases.html.
  94. Uddin, S.N., R. Taplin, and X. Yu. 2007. Energy, environment and development in Bhutan. Renewable and Sustainable Energy Reviews 11: 2083–2103.CrossRefGoogle Scholar
  95. UF. 2018. Biogas—A renewable biofuel. Florida: University of Florida. Retrieved from http://biogas.ifas.ufl.edu/FAQ.asp.Google Scholar
  96. Upadhyay, K.P. 1995. Shifting cultivation in Bhutan: A gradual approach to modifying land use patterns: A case study from Pema Gatshel District, Bhutan. Community forestry case study, series 11. Food and Agriculture Organization of the United States (FAO).Google Scholar
  97. Upadhyay, S. 2012. Community based forest and livelihood management in Nepal. In The wealth of the commons: A world beyond market and state, ed. D. Bollier and S. Helfrich, 362–364. Amherst: Levellers Press.Google Scholar
  98. USAID. 1989. Sustainable natural resources assessment—Philippines, prepared by Dames and Moore International, Louis Berger International and Institute for Development Anthropology. Philippines: USAID/Manila.Google Scholar
  99. Vakkilainen, E., K. Kuparinen, and H. Jussi. 2013. Large industrial users of energy biomass. IEA bioenergy, task 40: International bioenergy trade, 55. Lappeenranta: Lappeenranta University of Technology.Google Scholar
  100. Valdiya, K.S. 1998. Dynamic Himalaya. Jawaharlal Nehru Center for Advanced Scientific Studies, Hyderabad: Universities Press (India) Limited.Google Scholar
  101. Wadia, D.N. 1931. The syntaxis of the northwest Himalaya: Its rocks, tectonics and orogeny. Record Geological Survey of India 65 (2): 189–220.Google Scholar
  102. Wangchuk, S. 2011. Fuelwood consumption and production in alpine Bhutan: A case study of resource use and implications for conservation and management in Wangchuk Centennial Park. MSc (Resource Conservation, International Conservation and Development) thesis, University of Montana: Montana.Google Scholar
  103. Wangchuk, S., S. Siebert, and J. Belsky. 2013. Fuelwood use and availability in Bhutan: Implications for National Policy and Local Forest Management. Human Ecology 42: 127–135.CrossRefGoogle Scholar
  104. Wapongnungsang, C. Manpoong, and S.K. Tripathi. 2018. Changes in soil fertility and rice productivity in three consecutive years cropping under different fallow phases following shifting cultivation. International Journal of Plant & Soil Science 25 (6): 1–10.CrossRefGoogle Scholar
  105. World Bank. 2009. Forests sourcebook: Practical guide for sustaining forests in international cooperation. Washington, DC: The World Bank.Google Scholar
  106. Yao, T., X. Guo, L. Thompson, et al. 2006. δ 18 O record and temperature change over the past 100 years in ice cores on the Tibetan Plateau. Science in China Series D 49 (1): 1–9.CrossRefGoogle Scholar

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© Springer Nature Switzerland AG 2020

Authors and Affiliations

  • Dil Kumar Limbu
    • 1
  • Basanta Kumar Rai
    • 1
  • Krishna Kumar Rai
    • 2
  1. 1.Central Campus of TechnologyTribhuvan UniversityDharanNepal
  2. 2.Mahendra Multiple CampusTribhuvan UniversityDharanNepal

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