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Disaster, Development, and Water: The Reconstruction and (Re)Fabrication of Hazardous Waterscapes in Post-tsunami India

  • Luke Juran
Chapter

Abstract

The 2004 Asian tsunami devastated the East coast of India, setting in motion the country’s largest reconstruction project. Entire villages had to be rebuilt, including water infrastructure. This paper examines the outcomes of water sector reconstruction across 14 villages that were rebuilt in Nagapattinam District, Tamil Nadu, and Karaikal District, Puducherry. The objective is to critique post-tsunami reconstruction through the lens of ‘water’. The focus is on water quality and methods to cope with poor water quality, but ancillary issues of access, quantity, and pressure are also explored. Household (n = 74) and key informant interviews (n = 66), focus group discussions (n = 14), water quality tests (n = 378), and photographs are used to construct a socio-geographical narrative and a visual ethnography of the post-disaster built environments. A unifying theme is that the hazardous pre-disaster context was essentially refabricated through reconstruction processes to fashion hazardous waterscapes of manmade, engineered proportions—an outcome mirroring a ‘disaster after the disaster.’ Moreover, the ability of residents to manage water-related hazards is limited, because residents have been dealt waterscapes over which they command little power. Many factors exist outside residents’ bounds of influence, permitting few opportunities to surmount, let alone subvert, the hazardous waterscapes. Thus, residents are forced to operate within a narrow band of functional possibilities. The result is not only constrained agency, but that subjects are driven to acclimate, acculturate, and ultimately submit to the waterscapes they inhabit.

Keywords

Reconstruction Water quality Water access Built environment Visual ethnography Qualitative geography 

Notes

Acknowledgments

The author greatly thanks the research participants in Nagapattinam and Karaikal, without whom this research would not be possible. The author also thanks Annie George, BEDROC, Rajagopal Chidambaram, E. Nagarajan, N. Kalyani, and Breeanna Prince for logistical support.

References

  1. Adams, V., T. van Hattum, and D. English. 2009. Chronic Disaster Syndrome: Displacement, Disaster Capitalism, and the Eviction of the Poor from New Orleans. American Ethnologist 36 (4): 615–636.CrossRefGoogle Scholar
  2. Baxter, J., and J. Eyles. 1997. Evaluating Qualitative Research in Social Geography: Establishing ‘Rigour’ In Interview Analysis. Transactions of the Institute of British Geographers 22 (4): 505–525.CrossRefGoogle Scholar
  3. Bhave, P.R. 2003. Optimal Design of Water Distribution Networks. UK: Alpha Science International.Google Scholar
  4. Black, M., and R. Talbot. 2005. Water: A Matter of Life and Health-Water Supply and Sanitation in Village India. New Delhi: Oxford University Press.Google Scholar
  5. Button, G., and A. Oliver-Smith. 2008. Disaster, Displacement, and Employment: Distortion of Labor Markets During Post-Katrina Reconstruction. In Capitalizing on Catastrophe: Neoliberal Strategies in Disaster Reconstruction, ed. N. Gunewardena and M. Schuller, 123–145. New York: AltaMira Press.Google Scholar
  6. Chacko, E. 2004. Positionality and Praxis: Fieldwork Experiences in Rural India. Singapore Journal of Tropical Geography 25 (1): 51–63.CrossRefGoogle Scholar
  7. Chinn, T.D. 2009. Water Supply. In Environmental Engineering: Prevention and Response to Water-, Food-, Soil-, and Airborne Diseases and Illnesses, ed. N. Nemerow, F. Agardy, P. Sullivan, and J. Salvato, 1–131. Hoboken: Wiley.Google Scholar
  8. Elangovan, R., L. Philip, and B.S. Murty. 2006. Users Manual on Water Quality Analysis: Water Quality Test Kit-15. Chennai: Indian Institute of Technology-Madras.Google Scholar
  9. Ferguson, A., B. Mailloux, K. Ahmed, A. van Green, L. McKay, and P. Culligan. 2011. Hand-Pumps as Reservoirs for Microbial Contamination of Well Water. Journal of Water and Health 9 (4): 708–717.CrossRefGoogle Scholar
  10. Geertz, C. 1973. Thick Description: Toward an Interpretive Theory of Culture. In The Interpretation of Cultures: Selected Essays, ed. C. Geertz, 3–32. New York: Basic Books.Google Scholar
  11. Juran, L. 2015. A Framework for Integrating Water Projects in Disaster Reconstruction Processes in the International Context. Public Works Management and Policy 20 (4): 305–321.CrossRefGoogle Scholar
  12. Juran, L., and M.C. MacDonald. 2014. An Assessment of Boiling as a Method of Household Water Treatment in South India. Journal of Water and Health 12 (4): 791–802.CrossRefGoogle Scholar
  13. Juran, L., M.C. MacDonald, N.B. Basu, S. Hubbard, R. Rajagopal, P. Rajagopalan, and L. Philip. 2017. Development and Application of a Multi-Scalar, Participant-Driven Water Poverty Index in Post-Tsunami India. International Journal of Water Resources Development 33 (6): 955–975.CrossRefGoogle Scholar
  14. Kennedy, J., J. Ashmore, E. Babister, and I. Kelman. 2008. The Meaning of “Build Back Better”: Evidence from Post-Tsunami Aceh and Sri Lanka. Journal of Contingencies and Crisis Management 16 (1): 24–36.CrossRefGoogle Scholar
  15. Longhurst, R. 2010. Semi-Structured Interviews and Focus Groups. In Key Methods In Geography, 2nd ed, ed. N. Clifford, S. French, and G. Valentine, 103–115. Thousand Oaks: SAGE Publications.Google Scholar
  16. Lyons, M. 2009. Building Back Better: The Large-Scale Impact of Small-Scale Approaches to Reconstruction. World Development 37 (2): 385–398.CrossRefGoogle Scholar
  17. Ministry of Urban Development. 2011. Report on Indian Urban Infrastructure and Services. New Delhi: Ministry of Urban Development, Government of India.Google Scholar
  18. Nath, K.J. 2000. Environmental Sanitation and Community Water Supply: Country Situation Analysis. New Delhi: Independent Commission on Health in India.Google Scholar
  19. Pile, S. 1991. Practising Interpretive Geography. Transactions of the Institute of British Geographers 16 (4): 458–469.CrossRefGoogle Scholar
  20. Pink, S. 2001. Doing Visual Ethnography: Images, Media, and Representation in Research. Thousand Oaks: SAGE.Google Scholar
  21. Rice, E.W., R.B. Baird, A.D. Eaton, and L.S. Clesceri (eds.). 2012. Standard Methods for the Examination of Water and Wastewater, 22nd ed. Washington D.C.: American Public Health Association/American Water Works Association/Water Environment Federation.Google Scholar
  22. Schuller, M. 2008. Deconstructing the Disaster after the Disaster: Conceptualizing Disaster Capitalism. In Capitalizing on Catastrophe: Neoliberal Strategies in Disaster Reconstruction, ed. N. Gunewardena and M. Schuller, 123–145. New York: AltaMira Press.Google Scholar
  23. Smith, S. 1981. Humanistic Method in Contemporary Social Geography. Area 13 (4): 293–298.Google Scholar
  24. Sobsey, M.D., and F.K. Pfaender. 2002. Evaluation of the H2S Method for Detection of Fecal Contamination of Drinking Water. Geneva: World Health Organization.Google Scholar
  25. Virmani, S. 2008. Disasters Within Disaster: Failed Interventions We Can Learn From. Bhuj: Hunnarshala Foundation.Google Scholar
  26. Woodson, R. 2010. A Builder’s Guide to Wells and Septic Systems. New York: McGraw Hill.Google Scholar
  27. Wright, J., S. Gundry, and R. Conroy. 2004. Household Drinking Water in Developing Countries: A Systematic Review of Microbiological Contamination between Source and Point-Of-Use. Tropical Medicine and International Health 9 (1): 106–117.CrossRefGoogle Scholar

Copyright information

© Springer Nature Singapore Pte Ltd. 2018

Authors and Affiliations

  1. 1.Department of Geography and Virginia Water Resources Research CenterVirginia TechBlacksburgUS

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