Climate Change and Green Technology for Enduring Agriculture
American Journal of Agriculture and Forestry
Volume 2, Issue 1, January 2014, Pages: 7-14
Received: Dec. 17, 2013;
Published: Jan. 20, 2014
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Mihir Kanti Sarkar, Bangladesh Agricultural Research Council (BARC), Farmgate, Dhaka- 1215, Bangladesh
Md. Rajib Rahman, Soil Resource Development Institute (SRDI), Farmgate, Dhaka- 1215, Bangladesh
G. M. Faysal Ahmed, Ministry of Agriculture, Dhaka- 1000, Bangladesh
Ringko Kabiraj, Bangladesh Computer Council (BCC), Sher-E-Bangla Nagar, Agargaon, Dhaka-1207, Bangladesh
ATM Jashim Uddin, Bangladesh Agricultural Research Council (BARC), Farmgate, Dhaka- 1215, Bangladesh
Ananya Biswas, Faculty of Agriculture, Patuakhali Science and Technology University (PSTU), Dumki, Patuakhali- 8602, Bangladesh
Md. Humayan Kabir, Ministry of Agriculture, Dhaka- 1000, Bangladesh
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Climate is the primary determinant of agricultural productivity. Given the fundamental role of agriculture in human welfare, concern has been expressed by federal agencies and others regarding the potential effects of climate change on agricultural productivity. Climate change is expected to influence crop and livestock production, hydrologic balances, input supplies and other components of agricultural systems. However, the nature of these biophysical effects and the human responses to them are complex and uncertain. Technology can be termed as the application of knowledge for practical purposes. In this context, technology allows people to become more efficient or to do things that were not possible before. To benefit from technology, it needs to be successfully linked with country's overall development objectives and applied to solving socio-economic problems. In this paper we propose some practical applications of green technology in agricultural production to regain the loss due to climate change.
Agriculture, Climate Change, Green Technology, Knowledge
To cite this article
Mihir Kanti Sarkar,
Md. Rajib Rahman,
G. M. Faysal Ahmed,
ATM Jashim Uddin,
Md. Humayan Kabir,
Climate Change and Green Technology for Enduring Agriculture, American Journal of Agriculture and Forestry.
Vol. 2, No. 1,
2014, pp. 7-14.
J.W. McKinsey- Jr, R.E. Evenson, "Technology–Climate interactions in the green revolution in India" center discussion paper no.805, Economic growth center, Yale University.
D. Schüller, "On the Optimal Allocation of Green Technology under Climate Change Agreements", FNI Report 8/2009, Fridtjof Nansen Institute, N-1326 Lysaker, Norway.
P.F. Moore, B.J. Parai, "THE GREEN REVOLUTION", Technology in Contemporary Society.
K. P. O. Brien, S. Franjevic, J. Jones, "Green Chemistry and Sustainable Agriculture -The Role of Bio pesticides" Advancing Green Chemistry September, 2009.
Aikens, M. T., A. E. Havens et al. (1975). The Adoption of Innovations: the Neglected Role of Institutional Constraints. Department of Rural Sociology, Ohio State University.
Amatya, S.M. and Newmann, S.M.(1993). Agroforestry in Nepal: research and practice. Agro forestry Systems, 21: 215--222, 1993.
Bartlett, A. (2005). Farmer Field School to Promote Integrated Pest Management in Aisa: The FAO Experience available at http://www.communityipm.org/downloads.html.
Wang, X. and Z. Feng. (1994. Atmospheric Carbon Sequestration through Agro forestry in China. Energy: 20(2).
Regmi, B. (2003). Contribution of agroforestry for rural livelihoods: A case of Dhading District, Nepal. Paper Presented at The International Conference on Rural Livelihoods, Forests and Biodiversity 19-23 May 2003, Bonn, Germany.
Pehu, E. and C. Ragasa, (2007).Agricultural Biotechnology Transgenics in Agriculture and their Implications for Developing Countries. Background Paper for World Development Report 2008, The World Bank.
Neill, S. P. and D. R. Lee. (2001). Explaining the Adoption and Disadoption of Sustainable Agriculture: The Case of Cover Crops in Northern Hounduras. Economic Development and Cultural Change 49(4): 793-820.