Abstract
The study was accomplished to identify the factors determining land conversion in Bangladesh and evaluate farmers’ perception about the changing land use decision. Data were collected from Mymensingh, Rajshahi and Khulna districts of Bangladesh. A total of 300 sample farmers were interviewed following purposive and random sampling technique. For analyzing data, a combination of descriptive, mathematical and statistical techniques were used. Descriptive statistics showed that average household and farm size of the farmers were 5.0 and 0.47 hectare, respectively. Percentage perception index demonstrated that most of the respondents experienced climatic changes having negative impacts on agricultural activities. Agreement index depicted that natural calamities caused stern damage to respondents’ cultivable land, assets, agricultural enterprises and basic livelihood necessities. From the result of Logit model it was found that farming experience, disaster loss, farmer’s educational level, annual income, access to credit, farmer’s age and saline water intrusion were the significant determinants of changing land use decision in the study areas. Farmers’ livelihood assets namely, human, social, financial, natural and physical capitals were improved to a noticeable extent after their land shifting decision. The study recommended that training provision, motivational programmes and extension contact should be properly implemented by the government as well as non-government organizations to aware the farmers about pros and cons of land conversion and to choose the best land use decision for livelihood improvement.
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Agarwal, C., Green, G. M., Evans, T. P., & Schweik, C. M. (2001). A review and assessment of land-use change models: Dynamics of space, time, and human choice. General Technical Report, NE-297, United States Department of Agriculture (USDA), USA.
Ahmed, J. U., Raha, S. K., & Rahman, M. H. (2017). Potential impacts of sustainable dairy farming in char areas of Northern Bangladesh. American Journal of Agricultural and Biological Sciences,12(3), 148–160.
Akteruzzaman, M. (2005). Shifting rice farming to fish culture in some selected areas of Mymensingh, Bangladesh: The process, conflicts and impacts. Bangladesh Journal of Fisheries Research,9(1), 97–99.
Alam, G. M. M., Alam, K., & Mushtaq, S. (2017). Climate change perceptions and local adaptation strategies of hazard-prone rural households in Bangladesh. Climate Risk Management,17, 52–63. https://doi.org/10.1016/j.crm.2017.06.006.
Allahyari, M. S., Poshtiban, A., & Koundinya, V. (2013). Effective factors on agricultural land use change in Guilan province, Iran. Mediterranean Journal of Social Sciences,4(11), 744–751.
Anisuzzaman, M., Islam, M. A., Rahman, K. M. M., & Shetu, M. S. R. (2015). Shifting from rice production to shrimp culture in coastal zones of Khulna: Determination of the determinants. Journal of the Bangladesh Agricultural University,13(2), 257–264.
APO. (2003). Impact of land utilization systems on agricultural productivity. Tokyo: Asian Productivity Organization.
Archaux, F., & Wolters, V. (2006). Impact of summer drought on forest biodiversity: What do we know? Annals of Forest Science,63(6), 645–652.
Ashley, C., & Hussein, K. (2000). Developing methodologies for livelihood impact assessment: Experience of the African Wildlife Foundation in East Africa. Working paper 129, Overseas Development Institute, UK.
Balcita, G. A. N. (2015). Determinants of farmers’ demand for rice crop insurance in the Ilocos region, Philippines. Master’s Thesis, Department of International Development, Graduate School of International Development, Nagoya University, Japan.
Barnhart, H. X., Haber, M. J., & Lin, L. I. (2007). An overview on assessing agreement with continuous measurement. http://web1.sph.emory.edu/observeragreement/review_manuscript.pdf. Accessed March 12, 2018.
Bartlett, J. E., Kotrlik, J. W., & Higgins, C. C. (2001). Organizational research: Determining appropriate sample size in survey research. Information Technology, Learning, and Performance Journal,19(1), 43–50.
Basnett, Y., Henley, G., Howell, J., Jones, H., Lemma, A., & Pandey, P. R. (2014). Structural economic transformation in Nepal: A diagnostic study submitted to DFID Nepal. https://www.odi.org/sites/odi.org.uk/files/odi-assets/publications-opinion-files/9019.pdf. Accessed August 16, 2018.
Cairns, M. (2015). Shifting cultivation and environmental change: Indigenous people, agriculture and forest conservation. http://www.worldagroforestry.org/publication/shifting-cultivation- and-environmental-change-indigenous-people-agriculture-and-forest. Accessed March 23, 2018.
Callo-Concha, D. (2018). Farmer perceptions and climate change adaptation in the West Africa Sudan Savannah: Reality check in Dassari, Benin, and Dano, Burkina Faso. Climate,6(44), 1–19.
Coughlan, M. R., Nelson, D. R., Lonneman, M., & Block, A. E. (2017). Historical land use dynamics in the highly degraded landscape of the Calhoun critical zone observatory. Land,6(32), 2–20.
Curtiss, J. (2012). Determinants of financial capital use: Review of theories and implications for rural businesses. Working paper no. 19, Factor Markets. http://aei.pitt.edu/58522/1/Factor_Markets_19.pdf. Accessed February 17, 2018.
Dale, V. H., Brown, S., Haeubar, R. A., Hobbs, N. T., Huntly, N., Naiman, R. J., et al. (2000). Ecological principles and guidelines for managing the use of land. Ecological Applications,10(3), 639–670.
Daskalakis, C., Laird, N. M., & Murphy, J. M. (2002). Regression analysis of multiple-source longitudinal outcomes: A “Stirling County” depression study. American Journal of Epidemiology,155(1), 88–94.
DFID. (1999). Sustainable livelihoods guidance sheets. London: Department for International Development, Government of the United Kingdom.
Dhar, A. R., Islam, M. M., Jannat, A., & Ahmed, J. U. (2018a). Wetland agribusiness aspects and potential in Bangladesh. Data in Brief,16, 617–621. https://doi.org/10.1016/j.dib.2017.11.055.
Dhar, A. R., Islam, M. M., Jannat, A., & Ahmed, J. U. (2018b). Adoption prospects and implication problems of practicing conservation agriculture in Bangladesh: A socioeconomic diagnosis. Soil & Tillage Research,176, 77–84. https://doi.org/10.1016/j.still.2017.11.003.
Dhar, A. R., & Uddin, M. T. (2017). Farmers’ livelihood enhancement through conservation agriculture: A socioeconomic study. Düsseldorf: Lambert Academic Publishing, OmniScriptum AraPers GmbH.
Dorosh, P. A., Shahabuddin, Q., & Rahman, M. S. (2002). Price responsiveness of foodgrain supply in Bangladesh and projections to 2020. Bangladesh Development Studies,28(1&2), 47–75.
Edwards, W. (2015). Crop and livestock land use analyzer: A tool to compare land use alternatives. https://www.extension.iastate.edu/agdm/wholefarm/pdf/c1-15.pdf. Accessed August 16, 2018.
Elum, Z. A., Modise, D. M., & Marr, A. (2017). Farmer’s perception of climate change and responsive strategies in three selected provinces of South Africa. Climate Risk Management,16, 246–257. https://doi.org/10.1016/j.crm.2016.11.001.
FAO. (2011). Price and market-structure analysis for some selected agricultural commodities in Sudan: Marketing costs and margins. Rome: Food and Agriculture Organization of the United Nations.
FAO. (2017). The future of food and agriculture—Trends and challenges. Rome: Food and Agriculture Organization of the United Nations.
Farrow, A., & Winograd, M. (2001). Land use modeling at the regional scale: An input to rural sustainability indicators for Central America. Agriculture, Ecosystem and Environment,85(1–3), 249–268. https://doi.org/10.1016/S0167-8809(01)00192-X.
Giampietro, M., & Pimentel, D. (1993). The tightening conflict: Population, energy use, and the ecology of agriculture. The NPG Forum. http://www.npg.org/forum_series/TheTighteningConflict.pdf. Accessed January 29, 2018.
Gómez-Limón, J. A., Vera-Toscano, E., & Garrido-Fernández, F. E. (2012). Farmers’ contribution to agricultural social capital: Evidence from Southern Spain. http://digital.csic.es/bitstream/10261/58463/1/Farmers%20contribution%20to%20agricultural%20social%20capital-Working%20Paper-2012.pdf. Accessed April 09, 2018.
Gujarati, D. N. (2003). Basic econometrics. New York: McGraw-Hill.
Hasan, S. S., Deng, X., Li, Z., & Chen, D. (2017). Projections of future land use in Bangladesh under the background of baseline, ecological protection and economic development. Sustainability,9(505), 2–21.
Hasan, M. N., Hossain, M. S., Bari, M. A., & Islam, M. R. (2013). Agricultural land availability in Bangladesh. Dhaka: Soil Resource Development Institute.
HIES. (2010). Preliminary report on household income and expenditure survey, Bangladesh Bureau of Statistics, Ministry of Planning, Government of the People’s Republic of Bangladesh, Dhaka, Bangladesh.
Hubacek, K., & Vazquez, J. (2002). The economics of land use change. Interim report (IR-02-015), International Institute for Applied Systems Analysis, Laxenburg, Austria.
Iftekhar, M. S. (2006). Conservation and management of the Bangladesh coastal ecosystem: Overview of an integrated approach. Natural Resources Forum, 30(3), 230–237. https://doi.org/10.1111/j.1477-8947.2006.00111.x.
INTOSAI WGEA. (2013). Land use and land management practices in environmental perspective. INTOSAI Working Group on Environmental Auditing. http://www.courdescomptes.ma/upload/_ftp/documents/wgea_Land%20Use_view.pdf. Accessed January 21, 2018.
Kataria, K., Curtiss, J., & Balmann, A. (2012). Drivers of agricultural physical capital development: Theoretical framework and hypotheses. Working Paper No. 18, Factor Markets. http://aei.pitt.edu/58521/1/Factor_Markets_18.pdf. Accessed February 17, 2018.
Khan, M. M. H., & Nahar, N. (2014). Natural disasters: Socioeconomic impacts in Bangladesh. Banglavision,13(1), 58–67.
Kirkby, M., Bracken, L., & Reaney, S. (2002). The influence of land use, soils and topography on the delivery of hillslope runoff to channels in SE Spain. Earth Surface Processes and Landforms,27(13), 1459–1473.
Lambin, E. F., Geist, H. J., & Lepers, E. (2003). Dynamics of land-use and land cover change in tropical regions. Annual Review of Environment and Resources,28, 205–241. https://doi.org/10.1146/annurev.energy.28.050302.105459.
Lesschen, J. P., Verburg, P. H., & Staal, S. J. (2005). Statistical methods for analyzing the spatial dimension of changes in land use and farming systems. LUCC Report Series No. 7, International Human Dimensions Program on Global Environmental Change (IHDP).
Mia, A. H., & Islam, M. R. (2005). Coastal land uses and indicative land zones. Working paper no. WP040, Program Development Office for Integrated Coastal Zone Management Plan (PDO-ICZMP), Dhaka.
Najafi, B. (2003). An overview of current land utilization systems and their contribution to agricultural productivity. In Impact of land utilization systems on agricultural productivity. Asian Productivity Organization, Tokyo, Japan.
NASA. (2006). Quantifying changes in the land over time: A landsat classroom activity. Washington, DC: National Aeronautics and Space Administration (NASA).
Ndamani, F., & Watanabe, T. (2015). Farmers’ perceptions about adaptation practices to climate change and barriers to adaptation: A micro-level study in Ghana. Water,7(9), 4593–4604.
NSW Government. (2011). Potential impacts of climate change on biodiversity. New South Wales climate impact profile technical report. https://climatechange.environment.nsw.gov.au/~/media/43BD4541486144EF8858666D20D1E5B.ashx. Accessed March 28, 2018.
Nyuor, A. B., Donkor, E., Aidoo, R., Buah, S. S., Naab, J. B., Nutsugah, S. K., et al. (2016). Economic impacts of climate change on cereal production: Implications for sustainable agriculture in Northern Ghana. Sustainability,8(724), 2–17.
OECD. (2017). The governance of land use: Policy highlights. Paris: The Organisation for Economic Co-operation and Development.
PC. (2009). Steps towards change. Planning Commission, National Strategy for Accelerated Poverty Reduction II (Revised). Dhaka: Government of the People’s Republic of Bangladesh.
Penda, S. T. (2012). Human capital development for agricultural business in Nigeria. International Food and Agribusiness Management Review,15(special issue A), 89–91.
Quasem, M. A. (2011). Conversion of agricultural land to non-agricultural uses in Bangladesh: Extent and determinants. Bangladesh Development Studies,34(1), 59–85.
Rahman, M. T., & Hasan, M. N. (2003). Assessment of shifting of agricultural land to non-agricultural land in Bangladesh. Dhaka: SRDI, Ministry of Agriculture.
Ramasamy, C., Balasubramanian, R., & Sivakumar, S. D. (2005). Dynamics of land use pattern with special reference to fallow lands—An empirical investigation in Tamil Nadu. Indian Journal of Agricultural Economics,60(4), 629–643.
Reynolds, T. W., Waddington, S. R., Anderson, C. L., Chew, A., True, Z., & Cullen, A. (2015). Environmental impacts and constraints associated with the production of major food crops in Sub-Saharan Africa and South Asia. Food Security,7, 795–822.
Rietveld, A. (2009). Livelihood strategies in a globalizing world: Analysis of farmers’ strategies in Southern Mali with emphasis on milk production. https://www.wur.nl/web/file?uuid=2581a043-2d65-498b-ab0b-f08644e77ca3&owner=a8e96f75-5975-4701-b36d-61a3f9bbda3d. Accessed January 26, 2018.
Sarker, F. I. M. G. W., Biswas, J. C., & Maniruzzaman, M. (2014). Climate change adaptation and economic profitability: Crop land shifting to mango orchard in Rajshahi region. Bangladesh Rice Journal,18(1&2), 8–17.
SFB. (2015). Improving the livelihood of smallholder farmers. Syngenta Foundation Bangladesh. www.syngentafoundation.org/index.cfm?pageID=579. Accessed January 06, 2018.
Sharma, V. P., Jain, D., & De, S. (2012). Managing agricultural commercialization for inclusive growth in South Asia. Briefing Paper Number 6, GDN Agriculture Policy Series.
SRDI. (2010). Land and soil statistical appraisal book of Bangladesh. Dhaka: Soil Resource Development Institute, Ministry of Agriculture.
SRDI. (2013). Trend in the availability of agricultural land in Bangladesh. Dhaka: Soil Resource Development Institute, Ministry of Agriculture.
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, IFAD, Rome, Italy.
WB. (2006). Sustainable land management. Washington, D.C.: The World Bank.
Zoundji, G. C., Witteveen, L., Vodouhê, S. D., & Lie, R. (2017). When baobab flowers and rainmakers define the season: Farmers’ perceptions and adaptation strategies to climate change in West Africa. International Journal of Plant, Animal and Environmental Sciences,7(2), 8–21.
Zubair, A. O. (2006). Change detection in land use and land cover using remote sensing data and GIS (a case study of Ilorin and its environs in Kwara state). Masters Dissertation, Department of Geography, University of Ibadan, Nigeria.
Zube, E. H. (1987). Perceived land use patterns and landscape values. Landscape Ecology,1(1), 37–45.
Acknowledgements
We express our thanks to Bangladesh Agricultural University, the villagers and respondents from Mymensingh, Rajshahi and Khulna districts who funded, participated and contributed to accomplish this study. Present research work was supported by the Bangladesh Agricultural University Research System (BAURES). The authors are also extends their gratitudes to anonymous reviewers for their valuable time, constructive comments and useful suggestions to improve the manuscript. We also acknowledge the University of Tsukuba, Japan for technical support to carry out the research.
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Islam, M.M., Jannat, A., Dhar, A.R. et al. Factors determining conversion of agricultural land use in Bangladesh: farmers’ perceptions and perspectives of climate change. GeoJournal 85, 343–362 (2020). https://doi.org/10.1007/s10708-018-09966-w
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DOI: https://doi.org/10.1007/s10708-018-09966-w