Abstract
The flood hazard is very severe in the lower stretch of the Mayurakshi River Basin (MRB) in West Bengal, India. During the last 20 years (1998–2017), average flood frequency accounted for 9–12 times in the different community development blocks of the lower MRB. An empirical socio-economic survey has been executed over a randomly selected 2382 households across 43 villages of Murshidabad District to assess the impact of the flood on the economic conditions of the villages. The economic transformation is reflected through the increasing occupational diversification (e.g. Herfindahl–Hirshman index: 1.94 in 1998 and 2.26 2018 in Kandi), increasing per capita income (e.g. 1998: Indian National Rupee (INR) 502.23; 2018: INR 1203.70 in Kandi), decreasing poverty level (e.g. head count ratio 63.41% in 1998 and 42.42% in 2018 in Kandi) and more savings and lesser amount loan due to flood. This typical economic transformation is driven by five major in situ factors (decreasing cropping intensity and diversity, seasonal unemployment, increasing flood-induced expenditure and damages to properties and assets) that act as push factors for the traditional agrarian economy and one ex situ factor (international labour migration) that acts as the pull factor for the non-agrarian economy. The per capita per month receipt of remittances for the families having the labour migrants in the Middle East countries ranges from INR 2000 (Ibrahimpur) to INR 5375 (Dakshin Gopinathpur) that absorbs the shocks induced by flood. Thus, local economy flourishes in the areas of frequent flood and consequent labour migration compared to less flood-prone areas.
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Source: Field Survey, 2017–2018)
Source: Field Survey, 2017–2018)
Source: Field Survey, 2017–2018; Note: PPP stands for purchasing power parity)
Source: Field Survey, 2017–2018)
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References
Banerjee, L. (2007). Effect of flood on agricultural wages in Bangladesh: An empirical analysis. World development, 35(11), 1989–2009.
Bhattacharyya, A. (2013). Evaluation of hydro genomic characteristics of flood in the Mayurakshi river basin of eastern India. Unpublished Ph.D. thesis in Geography, Visva-Bharati University, India
Bourguignon, F. (2003). The growth elasticity of poverty reduction: explaining heterogeneity across countries and time periods in Eicher, T.S & Turnovsky, S.J (Ed.). Inequality and growth: Theory and policy implications, Cambridge: The MIT Press, pp. 1–26.
Brida, A. B., Owiyo, T., & Sokona, Y. (2013). Loss and damage from the double blow of flood and drought in Mozambique. International Journal of Global Warming, 5(4), 514–531.
Buragohain, M., & Bhuyan, M. (2014). Impact of flood and siltation on socio-economy a case studyof Dhemaji Revenue Circle, District Dhemaji Assam. Antrocom Online Journal of Anthropology, 10(2), 131–135.
Call, M. A., Gray, C., Yunus, M., & Emch, M. (2017). Disruption, not displacement: environmental variability and temporary migration in Bangladesh. Global environmental change, 46, 157–165.
Cameron, L. A., & Worswick, C. (2003). The labor market as a smoothing device: Labor supply responses to crop loss. Review of Development Economics, 7(2), 327–341.
Central Statistics Office. (2010). Manual on consumer price index. Government of India Ministry of Statistics and Programme Implementation, New Delhi
Chadchan, J., & Shankar, R. (2012). An analysis of urban growth trends in the post-economic reforms period in India. International Journal of Sustainable Built Environment, 1(1), 36–49.
Chakrabarti, B. (1985). A geomorphological analysis of the Mayurakshi river basin. Unpublished Ph.D. thesis. The University of Burdwan: India.
Chaudhury, A. K. (1966). On the meteorological conditions responsible for heavy rainfall in Ajay catchment area. Indian Journal meteorology and Geophysics, 17, 127–132.
Das, N. G. (1991). Statistical methods in commerce. Accountance and economics (pp. 1–25). Kolkata: M. Das and Co.
Davies, A., & Tonts, M. (2010). Economic diversity and regional socioeconomic performance: An empirical analysis of the Western Australian grain belt. Geographical Research, 48(3), 223–234.
Department of Agriculture & Cooperation and Farmers Welfare (2021). Farmers’ portal: one stop shop for farmers. Ministry of Agriculture and Farmers Welfare, Government of India, Accessed on Feb 16 2021 from https://farmer.gov.in/mspstatements.aspx.
Dixit, A. (2003). Floods and vulnerability: need to rethink flood management. In flood problem and management in South Asia. Dordrecht: Springer.
Ellis, F. (2004). Occupational diversification in developing countries and implications for agricultural policy. Hot topic paper-Programme of Advisory and Support Services to DFID (PASS) Project No. WB0207.
Ghosh, K. G., & Mukhopadhyay, S. (2015). Hydro-Statistical analysis of flood flows with particular reference to Tilpara barrage of Mayurakshi River, Eastern India. ARPN Journal of Earth Sciences, 4(2), 76–88.
Gibbs, J., & Martin, W. (1962). Index of diversification. In R. Hammond & P. S. McGullagh (Eds.), Quantitative techniques in geography: An introduction. Oxford: Clarendon Press.
Goyari, P. (2005). Flood damages and sustainability of agriculture in Assam. Economic and Political Weekly, 40(26), 2723–2729.
Gupta, R. P., & Tewari, S. K. (1985). Factors effecting crop diversification: An empirical analysis. Indian Journal of Agricultural Economics, 40(3), 304–309.
Hossain, M. (2004). Rural non-farm economy: Evidence from household surveys. Economic and Political Weekly, 39(36), 4053–4058.
Hutton, D., & Haque, C. (2004). Human vulnerability, dislocation and resettlement: Adaption process of river bank erosion-induced displacees in Bangladesh. Disasters, 28(1), 45.
Hymer, S., & Resnick, S. (1969). A model of an agrarian economy with nonagricultural activities. The american economic review, 59(4), 493–506.
Irrigation and Waterways Directorate (2001). Annual Flood Report. Govt. of West Bengal, Jal Sampad Bhavan, Salt Lake, Kolkata.
Irrigation and Waterways Directorate (2013). Annual Flood Report. Govt. of West Bengal, Jal Sampad Bhavan, Salt Lake, Kolkata.
Irrigation and Waterways Directorate (2014). Annual Flood Report. Govt. of West Bengal, Jal Sampad Bhavan, Salt Lake, Kolkata.
Irrigation and Waterways Directorate (2015). Annual Flood Report. Govt. of West Bengal, Jal Sampad Bhavan, Salt Lake, Kolkata.
Irrigation and Waterways Directorate (2016). Annual Flood Report. Govt. of West Bengal, Jal Sampad Bhavan, Salt Lake, Kolkata.
Islam, A., & Deb Barman, S. (2020). Drainage basin morphometry and evaluating its role on flood-inducing capacity of tributary basins of Mayurakshi River, India. SN Applied Sciences, 2, 1–23.
Islam, A., & Guchhait, S. K. (2015). Is Severity of River Bank Erosion Proportional to Social Vulnerability? A Perspective from West Bengal, India.Life and living through newer spectrum of geography, 35.
Islam, A., & Guchhait, S. K. (2017). Search for social justice for the victims of erosion hazard along the banks of river Bhagirathi by hydraulic control: A case study of West Bengal, India. Environment, development and sustainability, 19(2), 433–459.
Islam, A., & Guchhait, S. K. (2019). Social engineering as shock absorbing mechanism against bank erosion: A study along Bhagirathi river, West Bengal, India. International Journal of River Basin Management, 25, 1–14. https://doi.org/10.1080/15715124.2019.1574263.
Islam, A., & Sarkar, B. (2021). Analysing flood history and simulating the nature of future floods using Gumbel method and Log-Pearson Type III: The case of the Mayurakshi River Basin, India. Bulletin of Geography. Physical Geography Series, 19(1), 43–69.
Jha, V. C., & Bairagya, H. (2012). Floodplain planning based on statistical analysis of Tilpara Barrage discharge: A case study on Mayurakshi River Basin. Caminhos de Geografia, 13(43), 326–334.
Kandi Final Report (2012). DPR for improvement of embankments and ancillary works in Kandi and other adjoining areas of district of Murshidabad. Irrigation and Waterways Directorate, Govt. of West Bengal, Kolkata.
Khanam, R., et al. (2018). Crop diversification: an important way-out for doubling farmers’ income. Indian Farming, 68(01), 31–32.
Kochar, A. (1999). Smoothing consumption by smoothing income: hours-of-work responses to idiosyncratic agricultural shocks in rural India. Review of Economics and Statistics, 81(1), 50–61.
Legoherel, P. (1998). Toward a market segmentation of the tourism trade: Expenditure levels and consumer behavior instability. Journal of travel & tourism marketing, 7(3), 19–39.
Mahanta, R., & Das, D. (2017). Flood induced vulnerability to poverty: Evidence from Brahmaputra Valley, Assam, India. International journal of disaster risk reduction, 24, 451–461.
Mandal, R. (2010). Cropping patterns and risk management in the flood plains of Assam. Economic and Political Weekly, 45(33), 78–81.
Mirza, M. M. Q. (2002). Global warming and changes in the probability of occurrence of floods in Bangladesh and implications. Global environmental change, 12(2), 127–138.
Mollah, S. (2016). Assessment of flood vulnerability at village level for Kandi block of Murshidabad district, West Bengal. Current Science, 110(1), 81–86.
Mueller, V., & Quisumbing, A. (2010). Short and long-term effects of the 1998 Bangladesh flood on rural wages (pp. 1–15). Development Strategy and Governance Division, Poverty, Health and Nutrition Division, International Food Policy Research Institute (IFPRI), IFPRI Discussion Paper 00956. https://ideas.repec.org/p/fpr/ifprid/956.html.
Mukhopadhyay, S., & Let, S. (2014). Changing flood intensity zone of Dwarka river basin in eastern India. Transactions of the Institute of Indian Geographers, 36(1), 123–132.
Mukhopadhyay, S., & Pal, S. (2011). Trend of flood at riverine Bengal Basin of Kandi block of Murshidabad district: A hydrogeomorphological overview. Indian Journal of Geography and Environment, 12, 9–18.
Mwape, Y. P. (2009). An impact of floods on the socio-economic livelihoods of people: A case study of Sikaunzwe Community in Kazungula District of Zambia. Unpublished Dissertation for Award of MSc Degree at University of the Free State, Faculty of natural and agricultural sciences disaster risk management training and education centre for africa (DIMTEC), Jordaan. https://www.ufs.ac.za/docs/librariesprovider22/disaster-management-training-and-education-centre-for-africa-(dimtec)-documents/dissertations/2261.pdf?sfvrsn=dafdf821_2.
Ninno, C. D., & Dorosh, P. A. (2001). Averting a food crisis: private imports and public targeted distribution in Bangladesh after the 1998 flood. Agricultural Economics, 25(2–3), 337–346.
Ninno, D., Dorosh, A., & Smith, C. (2003). Public policy, markets and household coping strategies in Bengladesh: Avoiding a flood security crisis following the 1998 floods. World Department, 31(7), 1221–1238.
Office of the District Magistrate ( 2014). Flood preparedness and Management Plan, Murshidabad District.Govt. of West Bengal
Office of the District Magistrate (2016). District Disaster Management Plan, Murshidabad District. Govt. of West Bengal
Pal, S. (2015). Assessment of spatial hydrological potentiality: A study on a sub tributary of mayurakshi river, West Bengal. Indian Journal of Regional Science, 47(2), 56–63.
Pal, S. (2016). Impact of Massanjore dam on hydro-geomorphological modification of Mayurakshi river, Eastern India. Environment, development and sustainability, 18(3), 921–944.
Pal, S. (2017). Impact of Tilpara barrage on backwater reach of Kushkarni River: A tributary of Mayurakshi River. Environment, Development and Sustainability, 19(5), 2115–2142.
Parvin, G. A., Shimi, A. C., Shaw, R., & Biswas, C. (2016). Flood in a changing climate: The impact on livelihood and how the rural poor cope in Bangladesh. Climate, 4(4), 60.
Rahman, S. U. (2014). Impacts of Flood on The Lives and Livelihoods of People in Bangladesh: A Case Study of a Village in Manikganj District. BRAC University, Bangladesh.
Ranjan, S. (2006). Occupational diversification and Access to Rural employment: revisiting the non farm employment debate. Munich Personal RePEc Archive, MPRA Paper No. 7870, pp.1–30, https://mpra.ub.uni-muenchen.de/7870/1/MPRA_paper_7870.pdf
Rayhan, M. I., & Grote, U. (2010). Crop diversification to mitigate flood vulnerability in Bangladesh: An economic approach. Economics Bulletin, 30(1), 597–604.
Rhoades, S. A. (1993). The Herfindahl-Hirschman index. Fed Res Bull, 79, 188.
Rose, A., & Liao, S. Y. (2005). Modeling regional economic resilience to disasters: A computable general equilibrium analysis of water service disruptions. Journal of Regional Science, 45(1), 75–112.
Sanyal, J., & Lu, X. X. (2006). GIS-based flood hazard mapping at different administrative scales: A case study in Gangetic West Bengal India. Singapore Journal of Tropical Geography, 27(2), 207–220.
Siddiqui, K. (2015). Agrarian crisis and transformation in India. Journal of Economics and Political Economy, 2(1), 3–22.
Smith, K., & Ward, R. (1998). Floods: physical processes and human impacts (p. 382). Wiley.
Takasaki, Y., Barham, B. L., & Coomes, O. T. (2010). Smoothing income against crop flood losses in Amazonia: Rain forest or rivers as a safety net? Review of Development Economics, 14(1), 48–63.
Thompson, P., & Penning-Rowsell, E. (1994). Socio-economic impacts of floods and flood protection: a Bangladesh case study (pp. 81–97). Disasters development and environment. Wiley.
Thompson, P. M., & Sultana, P. (1996). Distributional and social impacts of flood control in Bangladesh. The Geographical Journal, 162(1), 1–13.
UNFCC (2020). Guidelines for Sampling and Surveys for CDM Project Activities and Programme ofActivities. EB 69 Report Annex 5. https://cdm.unfccc.int/Reference/Guidclarif/meth/meth_guid48.pdf
World Bank Institute (2005). Introduction to Poverty Analysis, Poverty Manual
Funding
This study was funded by the Indian Council of Social Science Research (ICSSR), Ministry of Human Resource Development (MHRD), Govt. of India (Grant no. F.No.02/ 295/201617/ICSSR/RP dated 29.03.2017). The first and the corresponding author working as the Project Director acknowledges the financial grants of the ICSSR.
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Islam, A., Ghosh, S. Economic transformation in the wake of flood: a case of the lower stretch of the Mayurakshi River Basin, India. Environ Dev Sustain 23, 15550–15590 (2021). https://doi.org/10.1007/s10668-021-01310-6
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DOI: https://doi.org/10.1007/s10668-021-01310-6