Reclamation and Community Dynamics: Assessing Socio-Environmental Impacts of Mining in Manikpur, Chhattisgarh

Basu, Debasmita; Mishra, Smriti

doi:10.22044/jme.2024.15258.2922

	Reclamation and Community Dynamics: Assessing Socio-Environmental Impacts of Mining in Manikpur, Chhattisgarh
Journal of Mining and Environment
مقاله 4، دوره 16، شماره 3، مرداد و شهریور 2025، صفحه 847-875 اصل مقاله (4.19 M)
نوع مقاله: Case Study
شناسه دیجیتال (DOI): 10.22044/jme.2024.15258.2922
نویسندگان
Debasmita Basu^* ؛ Smriti Mishra
Department of Architecture and Planning, Birla Institute of Technology, Mesra, Ranchi, India - 835215
چکیده
This study presents a comprehensive analysis of community perceptions regarding the impacts of reclamation strategies for abandoned coal mines in India, with a specific focus on the Manikpur Coal Mine. Through a structured survey administered to residents in the vicinity of the mine, the research investigates the economic, socio-cultural, and environmental impacts of reclamation efforts. Utilizing Structural Equation Modeling (SEM), the study identifies key factors influencing community perceptions, including the perceived benefits of reclamation, levels of community involvement, and overall satisfaction with mining operations. The findings reveal significant relationships among these factors, such as the positive influence of reclamation availability/requirement (path coefficient = 0.633) on satisfaction and the negative impact of involvement on satisfaction (-0.805). Indirect effects highlight the interplay between constructs, with experience positively influencing involvement (0.673) and satisfaction (0.162) while negatively affecting reclamation availability/requirement (-0.194). Variations in latent variable scores for satisfaction (-1.63 to 3.031) and reclamation availability/requirement (-1.42 to 1.903) underscore the diverse respondent experiences. These insights emphasize the importance of effective community engagement and tailored reclamation strategies. Policy recommendations are provided to enhance the sustainability and effectiveness of reclamation efforts, emphasizing the need for holistic approaches that integrate economic viability, socio-cultural acceptance, and environmental sustainability. The study contributes to the field of mine reclamation by offering valuable insights into resident perceptions and practical guidelines for improving reclamation practices in mining-affected areas.
کلیدواژه‌ها
Community Perception؛ Economic Impact؛ Environmental Impact؛ Socio-Cultural Impact؛ Structural Equation Modeling (SEM)

مراجع
Blondeel, M., & Van de Graaf, T. (2018). Toward a global coal mining moratorium? A comparative analysis of coal mining policies in the USA, China, India and Australia. Climatic Change, 150(1), 89-101. Edrisi, S. A., Tripathi, V., & Abhilash, P. C. (2018). Towards the sustainable restoration of marginal and degraded lands in India. Ecol, 59(3), 397-416. Brereton, D., Moran, C., McIlwain, G., McIntosh, J., & Parkinson, K. (2008). Assessing the cumulative impacts of mining on regional communities: an exploratory study of coal mining in the Muswellbrook Area of NSW. Agboola, O., Babatunde, D. E., Fayomi, O. S. I., Sadiku, E. R., Popoola, P., Moropeng, L., ... & Mamudu, O. A. (2020). A review on the impact of mining operation: Monitoring, assessment and management. Results in Engineering, 8, 100181. Favas, P. J., Martino, L. E., & Prasad, M. N. (2018). Abandoned mine land reclamation—Challenges and opportunities (holistic approach). Bio-geotechnologies for mine site rehabilitation, 3-31. Basu, D., & Mishra, S. (2024). Mine reclamation practices and effects of stakeholder perception—a case study of Saoner mines, Maharashtra, India. Journal of Engineering and Applied Science, 71(1), 62. Brereton, D., & Forbes, P. (2004, October). Monitoring the impact of mining on local communities: a Hunter Valley case study. In Minerals Council of Australia Inaugural Sustainable Development Conference, Melbourne. Abad C.J.P (2010). The industrial heritage in Spain: analysis from a tourism perspective and the territorial significance of some renovation projects. Boletin De La Asociacion De Geografos Espanoles, 53, 401–404. (2021). Stakeholder Engagement. International Council on Mining and Metals. Retrieved from https://www.icmm.com/en-gb/our-work/social-performance/community-resilience/stakeholder-engagement. Chipangamate, N. S., Nwaila, G. T., Bourdeau, J. E., & Zhang, S. E. (2023). Integration of stakeholder engagement practices in pursuit of social licence to operate in a modernising mining industry. Resource Policy, 85, 103851. Matikainen, L. (2020). Enhancing sustainability in the mining industry through stakeholder engagement(Master's thesis). Engelbrecht, J., & Thomas, A. (2017). Changes in stakeholder dynamics and salience during a mining disaster. South African Journal of Business Management, 48(4), 71-81. Verrier, B., Smith, C., Yahyaei, M., Ziemski, M., Forbes, G., Witt, K., & Azadi, M. (2022). Beyond the social license to operate: Whole system approaches for a socially responsible mining industry. Energy Research & Social Science, 83, 102343. Vargas-Sánchez A, Plaza-Mejia MDLÁ, Porras-Bueno N (2009). Understanding residents' attitudes toward the development of industrial tourism in a former mining community. Journal of Travel Research, 47(3), 373–387. Werner, T. T., Bebbington, A., & Gregory, G. (2019). Assessing impacts of mining: Recent contributions from GIS and remote sensing. The Extractive Industries and Society, 6(3), 993-1012. Hajkazemiha, N., Shariat, M., Monavari, M., & Ataei, M. (2021). Evaluation of mine reclamation criteria using Delphi-Fuzzy approach. Journal of Mining and Environment, 12(2), 367-384. Bangian, A. H., Ataei, M., Sayadi, A. R., & Gholinegad, A. R. (2011). The application of fuzzy MADM modeling to define optimum post-mining land use for pit area to recognize reclamation costs in open pit mining. Archives of Mining Science, 56(1), 91–116. Alavi, I., Ebrahimabadi, A., & Hamidian, H. (2022). A new technical and economic approach to optimal plant species selection for open-pit mine reclamation process. Journal of Mining and Environment, 13(4), 1091-1105. Basu, D., & Mishra, S. (2023). A comprehensive literature review approach for assessing probable impact of post-reclamation strategies applied to abandoned mines. Journal of Mining and Environment, 14(3), 871-896. Bangian, A. H., Ataei, M., Sayadi, A. R., & Gholinegad, A. R. (2011). Fuzzy analytical hierarchy processing to define optimum post-mining land use for pit area to clarify reclamation costs. Mineral Resources Management (Gospodarka Surowcami Mineralnymi), 56(2), 145-168. Cooke, S.J. and Suski, C.D. (2008). Ecological Restoration and Physiology: An Overdue Integration. BioScience, 58(10), 957–968. Kubalíková, L., Bajer, A., & Kirchner, K. (2016). Secondary geodiversity and its potential for geoeducation and geotourism: A case study from Brno city. In J. Fialová, & D. Pernicová (Eds.), Public recreation and landscape protection: With nature hand in hand…, 224-231. Brno: Mendel University in Brno. Pandey, B. P., & Mishra, D. P. (2022). Improved methodology for monitoring the impact of mining activities on socio-economic conditions of local communities. Journal of Sustainable Mining, 21. Havrlant, J. and Krtička, L. (2014). Reclamation of devastated landscape in the Karviná region (Czech Republic). Environmental & Socio-economic Studies, 2(4), 1–12. Al Rawashdeh, R., Campbell, G., & Titi, A. (2016). The socio-economic impacts of mining on local communities: The case of Jordan. The Extractive Industries and Society, 3(2), 494-507. Githiria, J. M., & Onifade, M. (2020). The impact of mining on sustainable practices and the traditional culture of developing countries. Journal of Environmental Studies and Sciences, 10(4), 394-410. Hose, T. A. (1995). Selling the story of Britain's stone. Environmental Interpretation, 10(2), 16-17. Dikgwatlhe, P., & Mulenga, F. (2023). Perceptions of local communities regarding the impacts of mining on employment and economic activities in South Africa. Resources Policy, 80, 103138. Mensah, A. K., Mahiri, I. O., Owusu, O., Mireku, O. D., Wireko, I., & Kissi, E. A. (2015). Environmental impacts of mining: a study of mining communities in Ghana. Applied Ecology and Environmental Sciences, 3(3), 81-94. Sincovich, A., Gregory, T., Wilson, A., & Brinkman, S. (2018). The social impacts of mining on local communities in Australia. Rural Society, 27(1), 18-34. Šebelíková, L., Řehounková, K., and Prach, K. (2016). Spontaneous revegetation vs. forestry reclamation in post-mining sand pits. Environmental Science and Pollution Research, 23, 13598–13605. https://doi.org/10.1007/s11356-015-5330-9. Edwards, J. A., & Coit, J. C. (1996). Mines and quarries: Industrial heritage tourism. Annals of Tourism Research, 23(2), 341-363. Farsani N. T, Esfahani M. A. G, & Shokrizadeh M (2019). Understanding tourists’ satisfaction and motivation regarding mining geotours (Case Study: Isfahan, Iran). Geoheritage, 11(3): 681-688.‏ https://doi.org/10.1007/s12371-018-0318-8. Jaafar, M., Rasoolimanesh, S. M., & Md Noor, S. (2016). An investigation of the effects of an awareness campaign on young residents’ perceptions: a case study of the Lenggong World Heritage Site. Tourism Planning & Development, 13(2), 127-139. Swarbrooke, J. (2002). The Development and Management of Visitor Attractions. New York, USA: Routledge. Orewere, E., Owonubi, A., and Zainab, S. (2020). Landscape Reclamation for Abandoned Mining Site for Outdoor Recreation on the Jos Plateau. Journal of Environmental Sciences and Resources Management, 12(2), 26-50. Retrieved from: https://www.cenresinjournals.com/wp-content/uploads/2021/02/Page-26-50-2020-12053.pdf. Sadry, B. N. (2009). Fundamentals of geotourism with a special emphasis on Iran. Samt Organization Publishing, Tehran: Iran, 220. English Summary available Online at: http://physio-geo.revues.org/3159. Michaud, L.H., and Bjork, D. (1995). The feasibility of constructing solid waste landfills as a reclamation method for abandoned mine lands. In Hynes TP, Blanchette MC, editors: Proceedings of the conference on mining and the environment (Sudbury ‘95), Sudbury, Canada Communication Group – Publishing, 227–237. Retrieved from: http://pdf.library.laurentian.ca/medb/conf/Sudbury95/MiningSociety/MS1.PDF. Sikarwar, S. S., Guha, S., & Singh, K. N. (1999). Environmental pollution control through geo–botanical means–a case study of Manikpur block, Korba coalfield, MP, India. Environmental Geology, 38, 229-232. Pratapan, V. G., Tiwari, A., Chakraborty, T., Singh, R. B., & Khan, S. (2012). Depthwise water quality assessment in pit lakes: a case study of Manikpur pilot quarry, south eastern coalfields limited, India. In VI World Aqua Congress, 179-188. Himajwala, B., & Prasad, A. D. (2022). GIS and RS-Based Soil Erosion and Sediment Yield Modelling in Manikpur, Chhattisgarh, India. In International Virtual Conference on Developments and Applications of Geomatics, 277-288. Singapore: Springer Nature Singapore. Singh, R., Doley, T., Kisku, D. K., Srirangam, V. K., Narayan, I. D., & Gorai, A. K. (2018). Coal mine dewater: Effective water conservation and gainful utilization in Korba Coalfield, SECL, Central India. In Proceedings of the Workshop on ‘Groundwater Management and its Issues in Chhattisgarh’, Raipur, India, 79-90. Patel, K. S., Pandey, P. K., Agarwal, C., Sahu, B. L., Sharma, S. K., Wysocka, I., ... & Martín‐Ramos, P. (2024). Characterization, variations, fluxes, and sources of contaminants in coal mine water of Korba basin, Chhattisgarh, India. Environmental Quality Management, 33(3), 345-359. Tavakol, M., & Dennick, R. (2011). Making sense of Cronbach's alpha. International journal of medical education, 2, 53. Bonett, D. G., & Wright, T. A. (2015). Cronbach's alpha reliability: Interval estimation, hypothesis testing, and sample size planning. Journal of organizational behavior, 36(1), 3-15. Barceló, J. A. (2018). Chi‐square analysis. The encyclopedia of archaeological sciences, 1-5. Franke, T. M., Ho, T., & Christie, C. A. (2012). The chi-square test: Often used and more often misinterpreted. American journal of evaluation, 33(3), 448-458. St, L., & Wold, S. (1989). Analysis of variance (ANOVA). Chemometrics and intelligent laboratory systems, 6(4), 259-272. Henson, R. N. (2015). Analysis of variance (ANOVA). Brain Mapping: an encyclopedic reference. Elsevier, 477-481. McHugh, M. L. (2011). Multiple comparison analysis testing in ANOVA. Biochemia medica, 21(3), 203-209. Gogtay, N. J., & Thatte, U. M. (2017). Principles of correlation analysis. Journal of the Association of Physicians of India, 65(3), 78-81. Senthilnathan, S. (2019). Usefulness of correlation analysis. Available at SSRN 3416918. Elashoff, J. D. (1969). Analysis of covariance: A delicate instrument. American Educational Research Journal, 6(3), 383-401. Mueller, R. O., & Hancock, G. R. (2018). Structural equation modeling. In The reviewer’s guide to quantitative methods in the social sciences, 445-456. Routledge. Bowen, N. K., & Guo, S. (2011). Structural equation modeling. Oxford University Press. Hair Jr, J. F., Hult, G. T. M., Ringle, C. M., Sarstedt, M., Danks, N. P., Ray, S., ... & Ray, S. (2021). An introduction to structural equation modeling. Partial least squares structural equation modeling (PLS-SEM) using R: a workbook, 1-29. Hoseini, S. M. R., Bahrami, A., & Hosseinzadeh, M. (2016). The reclamation of mica flakes from tailing disposal using gravity separators and flotation. International Journal of Mining and Geo-Engineering, 50(1), 61-76. Cao, X. (2007). Regulating Mine Land Reclamation in Developing Countries: The Case of China. Land Use Policy, 24(2), 472-483. Ghosh, P. (2021). Mining Tourism Potential Assessment of Raniganj Coalfield, India. Advances in Hospitality and Tourism Research (AHTR), 9(2), 341-367. Gürer, A., Gürer, Ö. F., & Sangu, E. (2019). Compound geotourism and mine tourism potentiality of Soma region, Turkey. Arabian Journal of Geosciences, 12(23), 734.‏ Hunsberger, E.L. and Michaud, L.H. (1994). The development of a field method for evaluating the success of reclamation efforts on abandoned mine lands. International Land Reclamation and Mine Drainage Conference and Third, 304–313. Sengupta, M. (1993). Environmental Impacts of Mining Monitoring, Restoration, and Control. USA: CRC Press. Retrieved from: https://www.routledge.com/Environmental-Impacts-of-Mining-Monitoring-Restoration-and-Control/Sengupta/p/book/9780367579890. Simate, G. S., & Ndlovu, S. (2014). Acid mine drainage: Challenges and opportunities. Journal of Environmental Chemical Engineering, 2(3), 1785-1803. Soltani, M. R., Sayadi, A. R., Monjezi, M., & Hayati, M. (2013). Productivity Improvement in a Steel Industry using Supply Chain Management Technique. International Journal of Mining and Geo-Engineering, 47(1), 51-59. Geopark Karavanke (2017). Mine tour by bicycle. http://www.geopark-karawanken.at/en/offers/actual-offers/mine-tour-bybicycle.html. Retrevied June 16, 2017. Ghadernejad, S., Jafarpour, A., & Ahmadi, P. (2019). Application of an integrated decision-making approach based on FDAHP and PROMETHEE for selection of optimal coal seam for mechanization; A case study of the Tazareh coal mine complex, Iran. International Journal of Mining and Geo-Engineering, 53(1), 15-23. Conesa HM, Schulin R, Nowack B (2008). Mining landscape: a cultural tourist opportunity or an environmental problem?: the study case of the Cartagena–La Unión Mining District (SE Spain). Ecol Econ 64(4), 690–700. Hose, T. A. (2017). The English Peak District (as a potential geopark): Mining geoheritage and historical geotourism. Acta Geotouristica, 8(2), 32-49. Agustriani, E., Anggraeni, J. D., Ang, M., & Pratiwi, Y. (2020). Optimazing the abandon mining as an alternative for tourism destination: the case of Lombok Island. In IOP Conference Series: Earth and Environmental Science, 413(1), 012027. IOP Publishing. Gilewska, M. and Otremba, K. (2015). Water reservoirs under construction as a result of the activities of “Konin” and “Adamów” brown coal mines. Journal of Ecological Engineering, 16(5), 138–143. Heydarpour, F., & Bahroudi, A. (2023). Applying deep learning method to develop a fracture modeling for a fractured carbonate reservoir using geologic, seismic and petrophysical data. International Journal of Mining and Geo-Engineering, 57(3), 323-333. Badamfirooz, J., Sarkheil, H., Mousazadeh, R., & Ayatollahi, F. (2022). A proposed framework for estimating the environmental damage cost of mining activities in line with the goals of sustainable mining: a case study of Sungun-Ahar copper mine, Iran. International Journal of Mining and Geo-Engineering, 56(2), 167-180. Ghorbani, Y., Franzidis, J. P., & Petersen, J. (2016). Heap leaching technology—Current state, innovations, and future directions: A review. Mineral Processing and Extractive Metallurgy Review, 37(2), 73-119. Jurek, V. (2014). Wildlife return at the quarry “Břidla”: possibilities of natural habitat restoration. Czech Republic, Brno, Quarry Life Award Project. Retrieved from: https://www.slideshare.net/QuarryLifeAward/wildlife-return-at-the-quarry-bidla-possibilities-of-natural-habitat-restoration-by-vilm-jurek-czech-republic. Kavourides, C., Pavloudakis, F., and Filios, P. (2002). Environmental protection and land reclamation works in West Macedonia Lignite Centre in North Greece current practice and future perspectives. In: Ciccu R. (ed.) SWEMP 2002: Proceedings of the 7th International Symposium on Environmental Issues and Waste Management in Energy and Mineral Production, SWEMP 2002, Cagliari, Italy. University of Cagliari. Khoshnam, F., Khalesi, M. R., Khodadadi Darban, A., & Zarei, M. J. (2015). Development of a dynamic population balance plant simulator for mineral processing circuits. International Journal of Mining and Geo-Engineering, 49(1), 143-153. Koſodziej, B., Bryk, M., Sſowiſska-Jurkiewicz, A., Otremba, K., & Gilewska, M. (2016). Soil physical properties of agriculturally reclaimed area after lignite mine: A case study from central Poland. Soil and Tillage Research, 163, 54-63. Kuter, N. (2013). Reclamation of Degraded Landscapes due to Opencast Mining. In Advances in Landscape Architectur. Rijeka, Croatia. IntechOpen, 823–858. Lawrence, R., & Larsen, R. K. (2017). The politics of planning: assessing the impacts of mining on Sami lands. Third World Quarterly, 38(5), 1164-1180. Lottermoser, B. G. (2010). Mine wastes: Characterization, treatment and environmental impacts (3rd ed.). Springer. Maiti, S.K. (2013). Ecorestoration of the coalmine degraded lands. Springer Science & Business Media. Ministry of Tourism. (2012). Identification of Tourism Circuits across India, Interim Report, West Bengal. India: Government of India. Nilsson, C. et al. (2016). Evaluating the process of ecological restoration. Ecology and Society, 21(1), 1–18. Saperstein, L.W. (1990). Reclamation (Introduction). In: Kennedy B.A. (ed.) Surface Mining. 2nd Edition. Littleton, Colorado: Society for Mining, Metallurgy, and Exploration, Inc., 749. Tahernejad, M. M., Khalo Kakaei, R., & Ataei, M. (2018). Analyzing the effect of ore grade uncertainty in open pit mine planning; A case study of Rezvan iron mine, Iran. International Journal of Mining and Geo-Engineering, 52(1), 53-60. Taiwo, B. O., Ajibona, A. I., Idowu, K., Babatunde, A. S., & Ogunyemi, B. O. (2023). Improvement of small scale mine blast operation: A comparative application of hunter-point artificial neural network, support vector machine, and regression analysis models. International Journal of Mining and Geo-Engineering, 57(2), 205-213. Tischew, S. et al. (2010). Evaluating restoration success of frequently implemented sompensation measures: Results and demands for control procedures. Restoration Ecology, 18(4), 467–480. Venkateswarlu, K. et al. (2016). Abandoned metalliferous mines: ecological impacts and potential approaches for reclamation. Rev Environ Sci Biotechnol, 15(2), 327–354. Nag, A., & Mishra, S. (2023). Stakeholders' perception and competitiveness of heritage towns: A systematic literature review. Tourism Management Perspectives, 48, 101156. Nag, A., & Mishra, S. (2024). Sustainable Competitive Advantage in Heritage Tourism: Leveraging Cultural Legacy in a Data-Driven World. In Review of Technologies and Disruptive Business Strategies, 3, 137-162. Emerald Publishing Limited. Nag, A., & Mishra, S. (2024). Revitalizing Mining Heritage Tourism: A Machine Learning Approach to Tourism Management. Journal of Mining and Environment, 15(4), 1193-1225.
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Reclamation and Community Dynamics: Assessing Socio-Environmental Impacts of Mining in Manikpur, Chhattisgarh