Urban Water Management

Sustainable management of urban water has been necessitated to ensure urban sustainability. Growing population and aging infrastructure are creating challenges for efficient water management in cities (NRDC, 2016). Groundwater decline is major problem across the cities relying on groundwater as a source of drinking water. Higher rate of abstraction of groundwater than its replenishment causes water table to decline. Declining levels of groundwater have been assessed in cities such as Barcelona, Houston, Los Angeles, Mexico City, New York, Rome, many large cities in China, Libya, India and Pakistan and Middle East and Central Asian regions in a study using global hydrological model PCR-GLOBWB (Sutanudaja and Erkems, 2016). Dhaka, capital city of Bangladesh, faces groundwater depletion problems as 84% of present municipal water comes from groundwater (Mohammad et al, 2007). Groundwater levels in 54 percent of the wells in India have been found to be decreasing and 16 percent are declining by more than one meter per year (Shiao et al, 2015).

A positive effect of urbanization on groundwater includes increases in recharge by water-mains leakage, waste water seepage, storm-water soakaways and excess garden irrigation. However, contamination from in-situ sanitation, sewer leakage, industrial chemical pollution and disposal of liquid effluents and solid wastes are pitfalls of urbanisation (IAH, 2015).

Management of water supply infrastructure is challenging and expensive. Water supply pipes are mostly underground and monitoring is arduous task. The leakage statistics of average UK home is 133 litres per day (Geovation, n.d.). Huge proportion of purified water could be lost because of aging and leaky pipes, broken water mains and faulty meters (Schaper, 2014).

Increasing water demand, higher rate of water abstraction and rapid urbanization might induce effects such as induced seepage of contaminated water, land subsidence and coastal saline intrusion (IAH, 2015). Government initiatives will be less effective if vacuum exists for responsibility and accountability of urban water management (IAH, 2015). Integrated approach with wider participation of stakeholders, public and private agencies will be more effective in managing urban water.

References

Geovation (n.d.) Aging Infrastructure [Online] Available at http://www.geovation.uk [Accessed on 26 April].

Hoque, M. A., Hoque, M. M. and Ahmed, K. M. (2007) Declining Groundwater Level and Aquifer Dewatering in Dhaka Metropolitan Area, Bangladesh: Causes and Quantification. Hydrogeology Journal, Vol 15, pp 1523-1534.

International Association of Hydro geologists (IAH) (2015) Resilient Cities and Groundwater [Online] Available at http://www.iah.org [Accessed on 26 April 2016].

Schaper, D. (2014) As Infrastructure Crumbles, Trillions of Gallons of Water Lost [Online] Available at http://www.npr.org [Accessed on 26 April 2016].

Shio, T., Maddocks, A., Carson, C. and Loizeaux, E. (2015) Three Maps Explain India’s Growing Water Risks [Online] Available at http://www.wri.org [ Accessed on 26 April 2016].

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