Abstract
Fuelwood is the only important source of energy in the mountainous region of the Garhwal Himalaya, India. Since the commercial source of energy is generally beyond the reach of ordinary people due to their poor socio-economic conditions and due to limited supply and lack of communication facilities for transport of LPG, the villages of the inner region of the Garhwal Himalaya depend on their fuel requirement from the forest. In the present study, two villages of the Nanda Devi Biosphere Reserve in Uttarakhand part of the Indian Himalaya i.e. Lata and Dunagiri located at 2,415 and 3,600 m altitudes, respectively, were selected for the study of socio-economic profile and vegetation and for estimation of per capita fuelwood consumption and the degree of disturbance. The study was conducted from 2002–2005. The population of these villages is migratory and belongs to the Bhotiya community, a scheduled tribe consisting of two subgroups known as Tolcha and Marchha. They grow traditional crops as well as cash crops. Important tree species used for fuelwood include Cedrus deodara, Pinus wallichiana, Cupressus torulosa, Taxus wallichiana, Acer indicum, Quercus dilatata and Viburnum cotinifolium. Maximum density among trees was shown by Pinus wallichiana (169.6 trees ha−1) in village Lata and by Cedrus deodara (89.6 trees ha−1) in village Dunagiri. The average per capita consumption of fuelwood in villages Lata and Dunagiri was 4.03 and 4.77 kg capita−1 day−1. Maximum number of trees (29 and 31% lopping for Lata and Dunagiri, respectively) belonged to disturbance class 1 (1–20% lopping) followed by the disturbance class 2 (20–40% lopping). Due to location of these villages in the buffer zone of the biosphere reserve, the fuelwood consumption may cause an adverse impact on the ecological status of this reserve, which urgently requires employing strategies for the conservation and management of this biosphere in terms of fuelwood sustainability e.g. regulation of livestock stock and grazing, using alternative sources of fuels, plantation of multipurpose trees and adoption of ecotourism.
This is a preview of subscription content, log in via an institution to check access.
Similar content being viewed by others
References
Abbot, P., & Lowore, J. (1999). Characteristics and management potential of some indigenous firewood species from Malawi. Forest Ecology and Management, 119, 111–217.
Almeeruddy-Thomas, Y., Shinwari, Z. K., Ayaz, A., & Khan, A. A. (2004). Ethnobotany and the management of fodder and fuelwood at Ayubia National Park, north west Frontier Province, Pakistan. People and Plants Working Paper.
Awasthi, A., Uniyal, S. K., Rawat, G. S., & Rajvanshi, A. (2003). Forest resource availability and its use by the migratory villages of Uttarkashi, Garhwal Himalaya, India. Forest Ecology and Management, 174, 13–24.
Bensel, T. G., & Remedio, E. M. (1995). Residential energy use patterns in Cebu City, Philippines. Energy, 20, 173–187.
Bhatt, B. P., Negi, A. K., & Todaria, N. P. (1994). Fuelwood consumption pattern at different altitudes in Garhwal Himalaya. Energy, 19, 465–468.
Bhatt, B. P., Tomar, J. M. S., & Bujarbaruah, K. M. (2004). Characteristics of some firewood trees and shrubs of the north eastern Himalayan region, India. Renewable Energy, 29, 1401–1405.
Brouwer, R., & Falcão, M. P. (2004). Wood fuel consumption in Maputo, Mozambique. Biomass and Bioenergy, 27, 233–245.
Chen, L., Heerink, N., & Berg, M. (2006). Energy consumption in rural China: A household model for three villages in Jiangxi Province. Ecological Economics, 58, 407–420.
Curtis, J. T., & McIntosh, R. P. (1950). The interrelations of certain analytic and synthetic phytosociological characters. Ecology, 31, 434–455.
Donovan, D. G. (1981). Fuelwood: How much do we need?. Hanover: Institute of Current Affairs.
FRI (1978). Indian Timber Deodar (Information Series 18). Dehradun: Forest Research Institute.
Gupta, T., & Ahuja, V. (1992). Demand forecast of household energy and policy for wasteland and management. In A. Agrawal (Ed.), The price of forests (pp. 85–88). New Delhi: Centre for Science and Environment.
Hajra, P.K. & Balodi, B. (1995). Plant Wealth of Nanda Devi Biosphere Reserve: Flora of India (Series-4). Calcutta: Botanical Survey of India.
Hedge, M. S. (1984). Fuel problem in villages: Challenges and opportunities. Proceedings of the National Academy of Sciences India, 8, 8–13.
Kituyi, E., Marufu, L., Wandiga, S., Jumba, I. O., Andreae, M., & Helas, G. (2001). Biofuel availability and domestic use patterns in Kenya. Biomass and Bioenergy, 20, 71–82.
Mahapatra, A. K., & Mitchell, C. P. (1999). Biofuel consumption, deforestation, and farm level tree growing in rural India. Biomass and Bioenergy, 17, 291–303.
Mahat, T. B. S., Grigffin, D. M., & Shepherd, K. P. (1987). Human impact on some forests of the middle hills of Nepal, Part-4: A detailed study in south-east Sindhu Palanchock, north-east Kabhere Palanchock. Mountain Research and Development, 7, 114–131.
Maikhuri, R. K. (1991). Fuelwood consumption pattern of different tribe communities living in north-East India. Bioresource Technology, 35, 291–296.
McCrary, J. K., Walsh, B., & Hammet, A. L. (2005). Species, sources, seasonality and sustainability of fuelwood commercialization in Masaya, Nicaragua. Forest Ecology and Management, 205, 299–309.
Misra, R. (1968). Ecology work book. Calcutta: Oxford and IBH Publishing Co.
Moench, M., & Bandhopadhyay, J. (1986). People-forest interaction: A neglected parameter in Himalayan forest management. Mountain Research and Development, 6, 3–16.
Muneer, S. T., & Mohamed, El. W. M. (2003). Adoption of biomass improved cookstoves in a patriarchal society: An example from Sudan. The Science of the Total Environment, 307, 259–266.
Nagothu, U. S. (2001). Fuelwood and fodder extraction and deforestation: mainstream views in India discussed on the basis of data from the semi-arid region of Rajasthan. Geoforum, 32(3), 319–332.
Naithani, B.D. (1984–85). Flora of Chamoli (2 Volumes). Calcutta: Botanical Survey of India.
Negi, K. S., Tiwari, J. K., Gaur, R. D., & Pant, K. C. (1993). Notes on the ethnobotany of five hill districts of Garhwal Himalaya, Uttar Pradesh, India. Ethnobotany, 5, 73–81.
Ouedraogo, B. (2006). Household energy preferences for cooking in urban Ouagadougou, Burkina Faso. Energy Policy, 34, 3787–3795.
Pandey, U., & Singh, J. S. (1984). Energy flow relationship between agro and forest ecosystems in Central Himalaya. Energy Conservation, 11, 45–63.
Rajwar, G. S. (1989). Human impact on the forests of Garhwal Himalaya. Advances in Forestry Research in India, 3, 229–241.
Rajwar, G. S. (1991). Advances in Himalayan ecology. Houston: Scholarly Publications.
Rajwar, G. S. (1993). Garhwal Himalaya: Ecology and environment. New Delhi: Ashish Publishing House.
Rajwar, G. S. (1995). Environmental problems in Garhwal Himalaya. In R. B. Singh & M. J. Haigh (Eds.), Sustainable reconstruction of highland and headwater regions (pp. 155–163). New Delhi: Oxford and IBH Publishing Co. Pvt. Ltd.
Rajwar, G. S. (1998). Changes in plant diversity and related issues for environmental management in the Garhwal Himalaya. In M. J. Haigh, J. Krecek, G. S. Rajwar, & M. P. Kilmartin (Eds.), Headwaters-water resources and soil conservation: Proceedings of the fourth international conference on headwater control (pp. 335–343). Rotterdam, Netherlands: A.A. Balkema.
Ralhan, P. K., Saxena, A. K., & Singh, S. P. (1982). An analysis of forest vegetation at and around Nainital in Kumaun Himalaya. Proceedings of Indian National Science Academy, B48, 121–137.
Ramos, M. A., Medeiros, P. M., Almeida, A. L. S., Feliciano, A. L. P., & Albuquerque, U. P. (2008a). Use and knowledge of fuelwood in an area of caatinga vegetation in NE Brazil. Biomass and Bioenergy, 32, 510–517.
Ramos, M. A., Medeiros, P. M., Almeida, A. L. S., Feliciano, A. L. P., & Albuquerque, U. P. (2008b). Can wood quality justify local preferences for firewood in an area of caatinga (dryland) vegetation. Biomass and Bioenergy, 32, 503–509.
Rao, P. B., & Singh, S. P. (1985). Population dynamics of foothill Sal (Shorea robusta Gaertn. f.) forest in Kumaun Himalaya. Oecologia Plantarum, 6, 161–166.
Reddy, A. K. N. (1981). An Indian village agricultural ecosystem: Case study of Ungra village, Part I. Biomass, 1, 77–88.
Samant, S. S., Dhar, U., & Rawal, R. S. (2000). Assessment of fuel resource diversity and utilization patterns in Askot wildlife sanctuary in Kumaun Himalaya, India, for conservation and management. Environmental Conservation, 27, 5–13.
Saxena, A. K., & Singh, J. S. (1982). A phytosociological analysis of woody species in forest communities of a part of Kumaun Himalaya. Vegetation, 50, 3–22.
Schmidt-Vogt, D. (1990). High altitude forests in the Jugal Himal, eastern-central Nepal: Forest types and human impact. Sfuftgart: Franz Steinar Verlag.
Shackleton, C. M. (1993). Fuelwood harvesting and sustainable utilization in a communal grazing land and protected area of the eastern transval lowveld. Biological Conservation, 63, 247–254.
Singh, J. S. (1992). Man and forest interaction in central Himalaya. In J. S. Singh & S. P. Singh (Eds.), Himalayan environment and development: Problems and perspectives (pp. 51–60). Nainital: Gyanodaya Prakashan, Nainital.
Singh, J. S., & Singh, S. P. (1992). Forests of Himalaya: Structure, functioning and impact of man. Nainital: Gyanodaya Prakashan.
Sundriyal, R. C., & Sharma, E. (1996). Anthropogenic pressure on tree structure and biomass in the temperate forest of mamley watershed in Sikkim. Forest Ecology and Management, 81, 113–134.
Tabuti, J. R. S., Dhillion, S. S., & Lye, K. A. (2003). Firewood use in Bulamogi County, Uganda: Species selection, harvesting and consumption patterns. Biomass and Bioenergy, 25(6), 581–596.
The State Forest Report. (1991). Forest survey of India. Dehradun: Ministry of Environment and Forests. Government of India Press.
UNESCO. (1984). Action plan for biosphere reserves. Nature and Resources, 20, 1–12.
Whittaker, R. H., & Woodwell, G. M. (1969). Structure, production and diversity of the oak pine forest at Brookhaven, New York. Ecology, 57, 155–174.
Acknowledgments
First author (GSR) is thankful to the Ministry of Environment and Forests, Government of India, New Delhi for providing financial assistance under the Biosphere Programme.
Author information
Authors and Affiliations
Corresponding author
Additional information
Readers should send their comments on this paper to BhaskarNath@aol.com within 3 months of publication of this issue.
Rights and permissions
About this article
Cite this article
Rajwar, G.S., Kumar, M. Fuelwood consumption in two tribal villages of the Nanda Devi Biosphere Reserve of the Indian Himalaya and strategies for fuelwood sustainability. Environ Dev Sustain 13, 727–741 (2011). https://doi.org/10.1007/s10668-011-9286-8
Received:
Accepted:
Published:
Issue Date:
DOI: https://doi.org/10.1007/s10668-011-9286-8