Adapting to Less Water: Household Willingness to Pay for Decentralised Water Systems in Urban Australia

被引:0
作者
Sorada Tapsuwan
Michael Burton
Aditi Mankad
David Tucker
Murni Greenhill
机构
[1] CSIRO Ecosystem Sciences,School of Agricultural & Resource Economics, Faculty of Natural & Agricultural Sciences
[2] University of Western Australia,undefined
[3] CSIRO Ecosystem Sciences,undefined
来源
Water Resources Management | 2014年 / 28卷
关键词
Rainwater; Greywater; Rebate; Subsidy; Rainfall; Policy;
D O I
暂无
中图分类号
学科分类号
摘要
In South East Queensland (SEQ), extended periods of drought and unprecedented population growth have resulted in a water strategy reliant on permanent water conservation measures. As a result, there has been increasing emphasis on the installation of decentralised water systems at the household level, in particular, rainwater tanks and greywater systems to ease the water shortage stress. Results from a survey of 590 households in SEQ reveal that willingness to pay (WTP) for rainwater tanks and greywater systems range from $800 to $7,400 and from $1,700 to $14,100, respectively. When compared to the actual market price, WTP is substantially lower and subsidies will be required to encourage adoption. Nonetheless, a subsidy of $500 can lead to 100 % uptake of greywater diversion devices. Hence, the policy implication is that not all devices are preferred and subsidising greywater diversion devices would lead to the highest level of uptake with the least amount of subsidy spending.
引用
收藏
页码:1111 / 1125
页数:14
相关论文
共 25 条
[1]  
Beal C(2012)A desktop analysis of potable water savings from internally plumbed rainwater tanks in South-East Queensland, Australia Water Resour Manag 26 1577-1590
[2]  
Sharma A(1999)Extended framework for modeling choice behavior Mark Lett 10 187-203
[3]  
Gardner T(2010)Parameters influencing the sizing of rainwater tanks for use in houses Water Resour Manag 24 2381-2403
[4]  
Chong M(2005)Adaptive capacity and human cognition: the process of individual adaptation to climate change Global Environ Change Part A 15 199-213
[5]  
Ben-Akiva M(2011)Review of socio-economic drivers of community acceptance and adoption of decentralised water systems J Environ Manag 92 380-391
[6]  
Ghisi E(2012)Examining biophysical and socio-demographic factors across mandated tank users in Urban Australia: a linking step towards achieving best practices Water Resour Manag 26 1983-1998
[7]  
Grothmann T(2003)Community experience and perceptions of water reuse Water Sci Technol 3 9-16
[8]  
Patt A(2009)The role of risk perceptions in the risk mitigation process: the case of wildfire in high risk communities J Env Manag 91 489-498
[9]  
Mankad A(1990)Behavioral change in earthquake preparedness due to negative threat appeals: a test of protection motivation theory J Appl Soc Psychol 20 619-638
[10]  
Tapsuwan S(1975)A protection motivation theory of fear appeals and attitude change J Psychol 91 93--114