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1 January 2020 Coal Mining and Local Environment: A Study in Talcher Coalfield of India
Niharranjan Mishra, Nabanita Das
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REFERENCES

1.

Appiah, DO Buaben, JN . Is gold mining a bane or a blessing in Sub-Saharan Africa: the Case of Ghana. Int J Environ Sustain. 2012;1:1033–1048. Google Scholar

2.

Yeboah, JY . Environmental and health impact of mining on surrounding communities: a case study of Anglogold Ashanti in Obuasi.  http://www.dailypioneer.com/state-editions/talcher-angul-ib-valley-critically-polluted-zones.html. Published 2008. Google Scholar

3.

Castleden, WM Shearman, D Crisp, G Finch, P . The Mining and burning of coal: effects on health and the environment. Med J Aust. 2011;195:333–335. Google Scholar

4.

Fashola, MO Jeme, VMN Babalola, OO . Heavy metal pollution from gold mines: environmental effects and bacterial strategies for resistance. Int J Environ Res Public Health. 2016;13:1047. Google Scholar

5.

Obiri, S Mattah, PAD Mattah, MMet al . Assessing the environmental and socio-economic impacts of artisanal hold mining on the livelihoods of communities in the Tarkwa Nsuaem Municipality in Ghana. Int J Env Res Pub He. 2016;13:1–15. Google Scholar

6.

OECD. Social capital and social wellbeing.  http://www.oecd.org/innovation/researchandknowledgemanagement/2380806.pdf. OECD Discussion paper. Published August 2002. Google Scholar

7.

Ministry of Mines: Government of India. National Mineral Scenario.  http://mines.nic.in/writereaddata/UploadFile/National_Mineral_Scenario.pdf. Published 2013. Google Scholar

8.

Altmann, P Cunningham, J Dhanesha, U Ballard, M Thompson, J Marsh, F . Disturbance of cerebral function in people exposed to drinking water contaminated with aluminium sulphate: retrospective study of the Camelford water incident. Brit Med J. 1998;319:807–811. Google Scholar

9.

CSE. Meghalaya Governor releases CSE’s study on mining, people and environment.  http://www.cseindia.org/node/395. Published October 20, 2008. Google Scholar

10.

Guha, D . A case study on the effects of coal mining in the environment particularly in relation to soil, water and air causing a socio-economic hazard in Asansol Raniganj Area, India. Int Res J Soc Sci. 2014;3:39–42. Google Scholar

11.

Ramsay, KW . Revisiting the resource curse: natural disasters, the price of oil and democracy. Int Organ. 2011;65:507–529. Google Scholar

12.

Rossi, CA . Oil, wealth and resource curse in Venezuela. Int Assoc Energy Econ. 2011;32:11. Google Scholar

13.

Williams, A . Shining a light on the resource curse: an empirical analysis of the relationship between natural resource, transparency and economic growth. World Dev. 2011;39:90–505. Google Scholar

14.

Hota, P Behra, B . Opencast coal mining and sustainable local livelihoods in Odisha. Mineral Econ. 2016;29:1–13. Google Scholar

15.

Deonandan, K Dougherty, ML (eds). Mining in Latin America: Critical Approaches to the New Extraction. Abingdon: Routledge; 2016. Google Scholar

16.

Nielsen, KB Oskarsson, P (eds). Industrialising Rural India: Land, Policy and Resistance. Abingdon: Taylor & Francis; 2016. Google Scholar

17.

Chaulya, SK Kumar, A Mandal, K Tripathi, N Singh, RS Mishra, PK . Assessment of coal mine road dust properties for controlling air pollution. Int J Environ Protect. 2011;1:1–7. Google Scholar

18.

Chaulya, SK . Air quality standard exceedance and management in an Indian mining area. Environ Conserv. 2003;30:266–273. Google Scholar

19.

MoEF. Comprehensive environmental assessment of industrial clusters.  http://www.indiaenvironmentportal.org.in/content/294336/comprehensive-environmental-assessment-of-industrial-clusters/. Accessed May 10, 2015. Google Scholar

20.

State Pollution Control Board. Implementation Status and Action Plan in Critically Polluted Areas. Ib valley-Jharsuguda, Bhubaneswar, Odisha; 2016. Google Scholar

21.

TERI. Equitable Sharing of Benefits Arising from Coal Mining and Power Generation Among Resource Rich States. New Delhi, India: The Energy & Resources Institute; 2013. Google Scholar

22.

Katoria, D Sehgal, D Kumar, S . Environment impact assessment of coal mining. Int J Environ Eng Manag. 2013;4:245–250. Google Scholar

23.

Chaulya, SK . Assessment and management of air quality for an opencast coal mining area. J Environ Manage. 2004;70:1–14. Google Scholar

24.

Mahanadi Coalfields Limited (MCL).  http://www.mcl.gov.in/Welcome.php. Published 2014. Google Scholar

25.

Singh, G . Impact of coal mining on mine water quality. Int J Min Water. 1998;7:49–59. Google Scholar

26.

Reza, R Singh, G . Heavy metal contamination and its indexing approach for river water. Int J Environ Sci Te. 2010;7:785–792. Google Scholar

27.

Swer, S Singh, OP . Status of water quality in coal mining areas of Meghalaya, India. In: Proceedings of the national seminar on environmental engineering with special emphasis on mining environment; March 19-20, 2004; New Delhi, India. Google Scholar

28.

Senapaty, A Behera, P . Study of selected trace elements in coal and groundwater of the Ib-valley coalfield of Odisha, India and their possible impact on human health. Int J Earth Sci Eng. 2012;5:1241–1248. Google Scholar

29.

Dara, SS . A Textbook of Environmental Chemistry and Pollution Control. New Delhi, India: S. Chand & Company; 1993. Google Scholar

30.

Mishra, SK . Coal Mining Externalities: a Study of Basundhara Coal Field in India. Hyderabad Social Development Papers. Published 2012; I (1): 1–28. Google Scholar

31.

Aitken, D Rivera, D Faundez, AG Holzapfel, E . Water scarcity and the impact of the mining and agricultural sectors in Chile. Sustain. 2016;8:2–18. Google Scholar

32.

Saviour, MN . Environmental impact of soil and sand mining: a review. Int J Sci Environ Tech. 2012;1:125–134. Google Scholar

33.

Naik, AK Pradhan, K . Impact of industrial environment on socio-economic conditions of mine workers: a study of coal industries in Odisha. Himal J Dev Democr. 2010;5:122–125. Google Scholar

34.

Roy, D Singh, G . Source apportionment of particulate matter (PM) in an integrated coal mining complex of Jharia coalfield, Eastern India, a review. International Journal of Engineering Research and Applications. 2014;4:97–113. Google Scholar

35.

Higginbotham, N Freeman, S Connor, L Albrecht, G . Environmental injustice and air pollution in coal affected communities, Hunter Valley, Australia. Health Place. 2010;16:259–266. Google Scholar

36.

Goswami, S Das, M Guru, BC . Environmental degradation due to exploitation of mineral resources: a scenario in Orissa. Bioscan. 2010;2:295–304. Google Scholar

37.

Trivedi, R Chakraborty, MK Tewary, BK . Dust dispersion modeling using fugitive dust model at an opencast coal project of Western Coalfields Limited. J Sci Ind Res India. 2009;68:71–78. Google Scholar

38.

MoC (Ministry of Coal), The Expert Committee on Road Map for Coal sector reforms, Part-I, Government of India; 2005. Google Scholar

39.

Greenpeace Report, How mining is thrashing Tiger Land, 2012.  http://www.greenpeace.org/…/How-Coal-mining-is-Trashing-Tigerland.pdf Google Scholar

40.

Singh, P . Impact of coal mining and industrial activities on land use pattern in Angul–Talcher region of Orissa, India. International Journal of Engineering Science and Technology, 2010;2(12):7771–7784. Google Scholar
KEYWORDS
biodiversity
livelihoods
pollution
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