Book contents
- Frontmatter
- Contents
- List of contributors
- Foreword
- Preface
- Acknowledgements
- Introduction
- Part I Understanding ‘water’
- Part II Water resources planning and management
- Part III Water resources planning and management: case studies
- III. 1 Water and waste water treatment
- III. 2 Agricultural water use
- III. 3 Urban water supply and management
- 22 The urban water challenge in Australian cities
- 23 Water sensitive urban design
- 24 Water security for Adelaide, South Australia
- III. 4 Aquatic ecosystems
- III. 5 Industrial and mining water use
- III. 6 Rural and remote communities
- III. 7 Water infrastructure design and operation
- III. 8 Managing water across borders
- III. 9 Market mechanisms in water management
- Contributors
- Index
- References
24 - Water security for Adelaide, South Australia
from III. 3 - Urban water supply and management
Published online by Cambridge University Press: 05 August 2011
By
Book contents
- Frontmatter
- Contents
- List of contributors
- Foreword
- Preface
- Acknowledgements
- Introduction
- Part I Understanding ‘water’
- Part II Water resources planning and management
- Part III Water resources planning and management: case studies
- III. 1 Water and waste water treatment
- III. 2 Agricultural water use
- III. 3 Urban water supply and management
- 22 The urban water challenge in Australian cities
- 23 Water sensitive urban design
- 24 Water security for Adelaide, South Australia
- III. 4 Aquatic ecosystems
- III. 5 Industrial and mining water use
- III. 6 Rural and remote communities
- III. 7 Water infrastructure design and operation
- III. 8 Managing water across borders
- III. 9 Market mechanisms in water management
- Contributors
- Index
- References
Summary
Introduction
Adelaide, South Australia, is a city of 1 million people on the southern coast of Australia with a Mediterranean climate, and where (as in Perth, Western Australia) climate change impacts on rainfall have been felt severely and are projected to be among the most severe globally. From its foundation in 1836 until 2010, Adelaide has relied almost exclusively on runoff from rural catchments for its water supply. It developed water treatment processes to harvest water from catchments – including the Murray–Darling Basin, used for agriculture, grazing, and forestry, and occupied by more than 0.5 million people and millions of cattle and sheep. As a result of climate change, the River Murray is suffering its lowest recorded inflows; unfortunately, adaptation of a massive irrigated agricultural industry takes time, and so the Murray's distal lakes are drying in an environmental crisis similar to the Aral Sea. Like Perth and other coastal cities, Adelaide has turned to seawater desalination for immediate substitute supplies. However, it is exploring many other options, which, if successful, could also become significant sources of supply, and the result might provide a model for other cities aiming to increase water security. For example, harvesting of urban stormwater and storing it in aquifers now forms a major plank of South Australia's water security plan. Domestic rainwater tanks and reuse of sewage effluent are other options, along with water conservation measures.
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- Information
- Water Resources Planning and Management , pp. 505 - 526Publisher: Cambridge University PressPrint publication year: 2011
References
(2001). Census of Population and Housing: Selected Social and Housing Characteristics Australia 2001. Canberra: Australian Bureau of Statistics. Available at: http://www.abs.gov.au/AUSSTATS/abs@.nsf/DetailsPage/2015.02001?OpenDocumentGoogle Scholar
(2007a). 2006 Census QuickStats: Adelaide (Major Statistical Region). Canberra: Australian Bureau of Statistics. Available at http://www.censusdata.abs.gov.au/Google Scholar
(2007b). Environmental Issues: People's Views and Practices. Australian Bureau of Statistics Report 4602.0, Sources of Water for Households. Available at http://www.abs.gov.au/ausstats/abs/
and (2004). Water-sustainability for Adelaide in 2020 based on ‘Stormwater: Options, Opportunities and Challenges’. In Proc. Intl. Conference on Water Sensitive Urban Design, Adelaide, Nov. 2004.
, and (2000). The Potential for Ingress of Saline Groundwater to Sewers in the Adelaide Metropolitan Area: An Assessment Using a Geographical Information System. Centre for Groundwater Studies Report No. 95, July 2000, 33 pp.
and (2007). Trends in Southern Hemisphere circulation in IPCC AR4 models over 1950–1999: ozone-depletion vs. greenhouse forcing. Journal of Climate, 20 (4), 681–93.CrossRefGoogle Scholar
and (2008). Evidence of impacts from rising temperature on inflows to the Murray–Darling Basin. Geophysical Research Letters, 35, L07701, doi:10.1029/2008GL033390.CrossRefGoogle Scholar
(2003). Water-proofing Adelaide: modelling the dynamic water balances. Proceedings of 2003 Regional Conference, Australian Water Association, Adelaide, August.
(1996). Business opportunities in storage and reuse of stormwater and treated waste water. University of Adelaide Master of Business Admin, Report of Supervised Project.
and (1996). Guidelines on the Quality of Stormwater and Treated Waste water for Injection into Aquifers for Storage and Reuse. Urban Water Research Assoc. of Aust. Research Report No. 109.Google Scholar
, , (2008a). A critical evaluation of combined engineered and aquifer treatment systems in water recycling. Water Science and Techology, 57 (5), 753–62.CrossRefGoogle ScholarPubMed
, , (2008b). City of Salisbury's progress towards being its own drinking water catchment. Proceedings of IWA Water Congress, Singapore, 23–27 June, 2008.
, , , and (2009). Managed Aquifer Recharge: An Introduction. Waterlines Report No. 13, Feb 2009. Available at http://www.nwc.gov.au/www/html/996-mar – an-introduction – report-no-13 – feb-2009.asp
, , (2002). South Australian experience in aquifer storage and recovery. In Management of Aquifer Recharge for Sustainability, ed. . Lisse, Netherlands: A.A.Balkema, pp. 453–58.Google Scholar
(2000). Strategic direction of water recycling in Sydney. In Water Recycling Australia, ed. . Dickson, ACT: CSIRO Land and Water, jointly with Australian Water Association, pp. 35–41.Google Scholar
, , (2009). Potential for Harvesting Adelaide Stormwater via Managed Aquifer Recharge: Preliminary Assessment of the Influence of Urban Open Space. CSIRO Water for a Healthy Country Flagship Report to National Water Commission, Milestone Report 3.3.3, CSIRO, 61 pp. Available at http://www.clw.csiro.au/publications/waterforahealthycountry/2009/wfhc-MAR-policy-design-milestone3.3.3.pdfGoogle Scholar
(2004). Aquifer storage capacities of the Adelaide region. South Aust. Dept. Water, Land and Biodiversity Conservation Report 2004/47. http://catalogue.nla.gov.au/Record/3511587
, , (2010). Ecotoxicological Assessment of Water Before and After Treatment in a Reedbed and Aquifer at Salisbury Stormwater ASTR Project. CSIRO Water for a Healthy Country Flagship Report.Google Scholar
(1952). Geology and underground water resources of the Adelaide Plains area. SA Dept. of Mines and Energy, Geological Survey, Bulletin No. 27.
, , (2009). Operational Residual Risk Assessment for the Salisbury Stormwater ASTR project. CSIRO Water for a Healthy Country Flagship Report, April 2009. Available at http://www.clw.csiro.au/publications/waterforahealthycountry/2009/wfhc-salisbury-ASTR-risk-assessment.pdf
and (2008). Urban metabolism: improving the sustainability of urban water systems. Water Journal, 35 (1), 28–29.Google Scholar
(2007). Water for Our Cities: Building Resilience in a Climate of Uncertainty. Prime Minister's Science Engineering and Innovation Council. Available at http://www.dest.gov.au/sectors/science_innovation/publications_resources/profiles/ water_for_our_cities.htm
(2004). Water Recycling in Australia. Melbourne: Australian Academy of Technological Sciences and Engineering.Google Scholar
(2009). Evolution of Water Recycling in Australian Cities Since 2003. Proceedings of IWA Reuse09 Symposium, Brisbane, 21–25 Sept 2009.
(2006). SA Water: Celebrating 150 years. Available at http://www.sawater.com.au/NR/rdonlyres/B34D3058-B0BD-4134–88C7-F5BD51E209FF/0/SAWater_150Y_Book.pdf
, , and (2008). An interpretation of Australian rainfall projections. Geophysical Research Letters, 35 (2), L02702.CrossRefGoogle Scholar
, , and (2009). Analysis of recycled drinking water samples from reuse. Water Journal, 36 (8), 86–89.Google Scholar
(2005). Richard Day (1818–1900): A Pioneer of South Australia. Tranmere SA. Enfield and Districts Historical Society Inc. History Week presentation 29 May 2005. Available at http://www.angelfire.com/pa/DayFamilies/RichardDayBiography.html
(2005). Water Proofing Adelaide: A Thirst for Change 2005–2025. Government of South Australia. Available at http://www.sawater.com.au/NR/rdonlyres/83B05A2E-A3F0–48EE-A640-CA5521A227C0/0/WPA_Strategy.pdf
(2009). Water for Good: A Plan to Ensure Our Water Future to 2050. Government of South Australia. Available at www.waterforgood.sa.gov.au/the-plan/Google Scholar
, , (2006). Climate Change under Enhanced Greenhouse Conditions in South Australia. An updated report on: Assessment of climate change, impacts and risk management strategies relevant to South Australia. CSIRO Marine and Atmospheric Research Report to South Australian Government.
(2009). Urban Stormwater Harvesting Options Study. Prepared by Wallbridge and Gilbert Consulting Engineers for Stormwater Management Authority, Government of South Australia. Available at http://www.waterforgood.sa.gov.au/ 2009/06/urban-stormwater-harvesting-options-study/
and (2009). Robust Design of Managed Aquifer Recharge Policy in Australia: Facilitating Recycling of Stormwater and Reclaimed Water via Aquifers in Australia, Milestone Report 3.1. National Water Commission, Canberra. Available at http://www.clw.csiro.au/publications/waterforahealthycountry/2009/wfhc-MAR-policy-design-milestone3.1.pdf
and (2007). Pricing your water: is there a smart way to do it? Droplet No 10, The University of Adelaide, SA. Available at http://www.myoung.net.au/water/droplets/Pricing_water.doc
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