Abstract
Bioenergy crops can contribute to the reduction of overall consumption of fossil fuels; however, India is a heavily populated agriculture economy demanding huge amounts of food and energy, so use of agricultural lands to produce energy crops puts a direct pressure on agri-based economy. A collaborative project for development of Sustainable Advanced Lignocellulosic Biofuel Systems was launched in 2012 between USA and India emphasizing high biomass bamboo, sorghum and pearl millet feedstock cultivation at marginal ecologies in 9 villages of 3 districts of Gujarat state in India. A baseline survey was conducted by interviewing 415 households followed by focus group discussion to understand socioeconomic profile of the targeted region, agricultural practices, awareness and inclination of local growers toward commercialization of biofuels crops. Survey data were analyzed using SPSS statistical tool. The survey showed that land holding of 2.5–5 acres and 5–10 acres was prevalent, with rain-fed and borewell irrigation and average soil quality having medium to shallow deep soil structure. Annual income from farm showed positive association with soil quality, while lower productivity from bad-quality soil. Households were interested to grow biofuel crops only if they give better net profit as compared to current crops. Good land quality, larger cultivated area and joint family had relatively less risk of bioenergy crop production than the counterpart. Household having above poverty line (77.8%) signified annual income of more than 10,000 INR. Lower literacy rate showed that 5–15% of the members migrated out of village for temporary seasonal livelihood. The districts were well connected with roads with enough frequency of state and private vehicles, railways, government postal services, mobile phone network and round the time electricity for household entitled the districts to penetrate bioenergy market. Leveraging available infrastructure and adopting large-scale co-operative mechanized farming, crop rotation within agro-forestry system, diversification of food, fiber and energy crops through policy support would bring economic and environmental benefits along with new market, job creation and bioenergy industries at surveyed ecology.
This is a preview of subscription content, log in via an institution to check access.
Similar content being viewed by others
References
Abraham M. (2016). You are a farmer. Do you grow biofuel or food crops? Why? Global Change Biology, FS 2016. https://www.ethz.ch/content/dam/ethz/special-interest/usys/ias/grassland-sciences-dam/documents/Education/GlobalChangeBiology/Executive_Summary_Abraham_Monnier.pdf.
Anand AAU. (2017). E- Krishi kiran. Accessed 28 January 2017, from https://shc.aau.in/home/soil.
Birthal, P. S., Nigam, S. N., Narayanan, A. V., & Kareem, K. A. (2011). An economic assessment of the potential benefits of breeding for drought tolerance in crops: A case of groundnut in India. Research Bulletin No 25. Patancheru 502 324, Andhra Pradesh, India: International Crops Research Institute for the Semi-Arid Tropics. ISBN 978-92-9066-539-7. 44 pp. Available at http://oar.icrisat.org/285/1/115-2011_RB25_an_econ_assess.pdf.
Charles, D. (2009). Corn-based ethanol flunks key test. Biofuels, 324, 587.
Creitzig, F., Ravindranath, N. H., Berndes, G., Bolwig, S., Bright, R., & Cherubini, F. (2015). Bioenergy and climate change mitigation: An assessment. GCB Bioenergy, 7, 916–944. https://doi.org/10.1111/gcbb.12205.
Department of agriculture and cooperation. (2001). Agricultural Census 2000–01.
Department of Land resources. (2010). Wasteland Atlas of India.
Dev, S. M. (2012). Small farmers in India: Challenges and opportunities. Mumbai. In Paper presented at Emerging Economies Research Dialogue’ Beijing, China, 14–15 November 2011 organized by ICRIER, Available at http://www.igidr.ac.in/pdf/publication/WP-2012-014.pdf.
Donner, S. D., & Kucharik, C. J. (2008). Corn-based ethanol production compromises goal of reducing nitrogen export by the Mississippi River SCIENCE. Proceedings of The National Academy of Sciences of the United States of America, 105(11), 4513–4518. https://doi.org/10.1073/pnas.0708300105.
Fargione, J., Hill, J., & Tilman, D. (2008a). Land clearing and the biofuel carbon debt. Science, 319, 1235–1238. https://doi.org/10.1126/science.1152747.
Fargione, J., Hill, J., Tilman, D., Polasky, S., & Hawthorne, P. (2008b). Land Clearing and the Biofuel Carbon Debt. Science, 319, 1235–1237. https://doi.org/10.1126/science.1152747.
Gamborg, C., Millar, K., Shortall, O., & Sandøe, P. (2012). Bioenergy and land use: Framing the ethical debate. Journal of Agricultural and Environmental Ethics, 25, 909–925. https://doi.org/10.1007/s10806-011-9351-1.
Gami, B., Limbachiya, R., Parmar, R., Bhimani, H., & Patel, B. (2011). An evaluation of different non-woody and woody biomass of Gujarat, India for preparation of pellets—a solid biofuel. Energy Sources, Part A: Recovery, Utilization, and Environmental Effects, 33(22), 2078–2088. https://doi.org/10.1080/15567030903503183.
Government of Gujarat. (2016a). Food, civil supplies and consumer affairs department. Accessed 20 October 2017, from https://fcsca.gujarat.gov.in/index.htm.
Government of Gujarat. (2016b). Social justice and empowerment. Accessed 20 October 2017, from https://sje.gujarat.gov.in/.
HPLE. (2013). Biofuels and food security. A report by the High Level Panel of Experts on Food Security and Nutrition of the Committee on World Food Security. Rome, Italy.
IBM. (2017). SPSS- Statastics software. Accessed 22 January 2017, from https://ibm-spss-statistics.soft32.com/.
Jacquet, F., & Bocque, G. (2010). The adoption of switchgrass and miscanthus by farmers: Impact of liquidity constraints and risk preferences. Energy Policy, 38, 2598–2607. https://doi.org/10.1016/j.enpol.2010.01.005.
Janda, K., Kristoufek, L., & Zilberman, D. (2013). Biofuels: Policies and impacts. Agricultural Economics, 58(8), 372–386.
Jiang, W., Zipp, K. Y., & Jacobson, M. (2018). Biomass and bioenergy economic assessment of landowners ’ willingness to supply energy crops on marginal lands in the northeastern of the United States. Biomass and Bioenergy, 113, 22–30. https://doi.org/10.1016/j.biombioe.2018.03.005.
Mcdonald, R. I., Fargione, J., Kiesecker, J., Miller, W. M., & Powell, J. (2009). Energy sprawl or energy efficiency: Climate policy impacts on natural habitat for the United States of America. PLoS ONE, 4(8), 1–11. https://doi.org/10.1371/journal.pone.0006802.
Mehmood, M. A., Ibrahim, M., Rashid, U., Nawaz, M., Ali, S., Hussain, A., et al. (2017). Biomass production for bioenergy using marginal lands. Sustainable Production and Consumption, 9, 3–21. https://doi.org/10.1016/j.spc.2016.08.003.
Ministry of Home Affair Gov of India. (2012). Gujarat-National Disaster Risk Reduction Portal.
Ministry of consumer affair food and public distribution, & Government of India. (2017). Department of food and Public distribution. Accessed 2 February 2017, from https://dfpd.nic.in/?q=node/1020.
Ministry of New and Renewable Energy-Government of India Ministry. (2009). National Policy on Biofuels. New Delhi, India.
Mishra, S. N. (2014). Design of resource use : Case of Jatropha-based biodiesel in India. Journal of Rural Development, 33(1), 1–13.
Patel, B., Gami, B., & Bhimani, H. (2011). Energy for sustainable development improved fuel characteristics of cotton stalk, prosopis and sugarcane bagasse through torrefaction. Energy for Sustainable Development, 15(4), 372–375. https://doi.org/10.1016/j.esd.2011.05.002.
Patel, B., Gami, B., Patel, A., & Patel, P. (2019a). Wasteland utilization for B. balcooa cultivation: Socio-economic and environmental Impacts through bamboo-based product development. European Journal of Sustainable Development Research. https://doi.org/10.29333/ejosdr/5957.
Patel, B., Gami, B., Patel, A., & Patel, P. (2019). Identifying plantation density of Bambusa balcooa for marginal ecology through agronomical and farmers field trials addressing economic feasibility. J. Bamboo and Rattan, 18(1), 10–23.
Patel, B., Gami, B., & Patel, P. (2017). Carbon sequestration by bamboo farming on marginal land and sustainable use of wood waste for bioenergy: Case studies from abellon clean energy. In K. K. Pandey (Ed.), Wood is good (pp. 1–17). Singapore: Springer. https://doi.org/10.1007/978-981-10-3115-1_43.
Patel, B., Patel, A., Gami, B., & Patel, P. (2020). Energy balance, GHG emission and economy for cultivation of high biomass verities of bamboo, sorghum and pearl millet as energy crops at marginal ecologies of Gujarat state in India. Renewable Energy, 148, 816–823. https://doi.org/10.1016/j.renene.2019.10.167.
Poornakumbha. (2017). Accessed 2 February 2017, from https://www.poornakumbha.org/Index.html.
Prabhakar, S., & The Times of India. (2015). 20 years after Mandal, less than 12% OBCs in central govt jobs. Accessed 30 December 2016, from https://timesofindia.indiatimes.com/india/20-years-after-Mandal-less-than-12-OBCs-in-central-govt-jobs/articleshow/50328073.cms.
Rowden, R. (2011). India’s Role in the New Global Farmland Grab. New Delhi, India.
Sarthak, G., & Mishra, S. (2011). Size Class and returns to Cultivation in India: A Cold Case Reopened, IGIDR working paper No.WP2011-27. Mumbai.
Searchinger, T., Heimlich, R., Houghton, R. A., Dong, F., Elobeid, A., Fabiosa, J., et al. (2008). Use of U.S. croplands for biofuels increases greenhouse gases through emissions from land-use change. Science, 319, 2038–2040. https://doi.org/10.1126/science.1151861.
Joint Secretary, and Ministry of Personal Public Grievances and Pensions. (1993). Reservation for Other Backward Classes in Civil Posts and Services under the Government of India—Regarding. New Delhi.
Singh, R. B., Kumar, P., & Headwood, T. (2002). Smallholder farmers in India: Food security and agricultural policy. Regional office for Asia and the Pacific, Bangkok: FAO.
Styles, D., Thorne, F., & Jones, M. B. (2008). Energy crops in Ireland: An economic comparison of willow and Miscanthus production with conventional farming systems. Biomass and Energy, 32, 407–421. https://doi.org/10.1016/j.biombioe.2007.10.012.
Thapa, G., & Gaiha, R. (2011). Smallholder farming in Asia and the Pacific: Challenges and opportunities. In Paper presented at the IFAD Conference on New Directions for Smallholder Agriculture, Rome, Italy 24–25 January 2011, pp 1–40.
The Gala Foundation, Biofuel Watch, African Biodiversity Network, Salva La Selva, Watch Indonesia, & EcoNexus. (2008). Agrofuels and the Myth of the Marginal Lands.
Tilman, D., Hill, J., & Lehman, C. (2006). Carbon-negative biofuels from low-input high-diversity grassland biomass. Science, 1598(314), 1598–1600. https://doi.org/10.1126/science.1133306.
Tilman, D., Hill, J., & Lehman, C. (2008). Technical Comment response to comment on carbon-negative biofuels from low-input high-diversity grassland biomass. Science, 316, 1567.
US Congress. Energy Independence and Security Act (2007).
Acknowledgement
This work is financially supported by Department of Biotechnology (DBT), Ministry of Science and Technology, Government of India, under US-India Joint Clean energy Research and Development Center (JCERDC) programme supported by Indo-US Science and Technology Forum (IUSSTF) for US-India Sustainable Advanced Lignocellulosic Biofuel Systems (SALBS) project. Authors are thankful to members of Poornakumbha Gramin Development Foundation for conducting survey. Our thanks are due to administrative and logistic department of Abellon CleanEnergy to facilitate R & D team for transportation, and also to all households for participating and sharing their valuable time and information positively. We acknowledge all village heads for facilitating and providing primary and secondary agriculture and land holding data for validation process.
Author information
Authors and Affiliations
Corresponding author
Ethics declarations
Conflict of interest
The authors declare that they have no conflict of interest.
Additional information
Publisher's Note
Springer Nature remains neutral with regard to jurisdictional claims in published maps and institutional affiliations.
Rights and permissions
About this article
Cite this article
Patel, B., Patel, M., Gami, B. et al. Cultivation of bioenergy crops in Gujarat state: a consultative survey process to understand the current practices of landowners. Environ Dev Sustain 23, 8991–9013 (2021). https://doi.org/10.1007/s10668-020-01008-1
Received:
Accepted:
Published:
Issue Date:
DOI: https://doi.org/10.1007/s10668-020-01008-1