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Microsoft Word - WPT_ 5#1_012_Final.doc Water Practice & Technology Vol 5 No 1 © IWA Publishing 2010 doi:10.2166/WPT.2010.012 Community management of onsite wastewater treatment systems- what they want in Mount Gambier, South Australia K. S. Alexander*, K. J. Levett** and J. L. Vanderzalm** *CSIRO Sustainable Ecosystems, Bellenden Rd, Crace, Canberra, ACT, Australia. (E-mail:
[email protected]) **CSIRO Land and Water, Waite Rd, Urrbrae SA 5064, Australia. (E-mail:
[email protected];
[email protected]) Abstract: Effective management of onsite wastewater treatment systems (OWTS) is important in preventing contamination of ecologically sensitive receiving environments, such as surface water and groundwater used for human consumption or contact. Householders play a key role in OWTS management, therefore inadequate householder knowledge of system function, inability to recognise signs of system failures and lack of understanding of maintenance requirements can increase the risk of system failure. A householder survey and community consultation process have been undertaken in conjunction with a biophysical effluent sampling program to reveal community understanding of OWTS, opinions on preferred management strategies, institutional arrangements and possible reactions to future financial costs to householders. Opinions from workshop participants and other stakeholders suggested their community wanted knowledge regarding OWTS functioning and maintenance, in particular, information on the use of suitable household chemicals to maintain treatment performance and continued research into contamination of groundwater sources by wastewater systems to better inform wastewater management strategies. Community participants were divided on the preferred administration and cost of maintenance, with some wanting to retain responsibility for maintenance arrangements by contracting specialised personnel and others suggesting local authorities should take responsibility. Keywords: community engagement; groundwater contamination; onsite wastewater systems, karstic aquifer, wastewater management. INTRODUCTION To ensure long-term environmental and public health protection, it is essential that onsite wastewater treatment systems (OWTS) are properly managed to prevent discharge of inadequately treated wastewater (Gardner et al., 1997). The householder plays a key role in the management of OWTS, through chemical usage, hydraulic load management and maintenance regimes. This is important, as regular maintenance is a vital component of OWTS management and has been reported to minimise potential environmental contamination (Johansson et al., 2002). While maintenance is generally undertaken by service agents and desludgers, householders play a significant role in ensuring an appropriate frequency of maintenance. Mandatory intervention through regulatory bodies can be used to ensure adherence to regulations. There have been several programs established by Australian states to assist local authorities to monitor, regulate and report on the operations and impact of OWTS (Johansson et al., 2002). However, traditionally the effectiveness of local authorities’ initiatives to improve wastewater management has been hampered by lack of financial and legislative support by government, land development pressures, management of non-compliance, costs to owners for onsite maintenance and inadequate information on system function and maintenance (Victorian Water, 2007). Currently, the South Australian government requires local authorities to analyse the appropriateness of wastewater treatment regimes and to develop policies regarding wastewater treatment within their jurisdiction. These local policies need to account for specific soil type and coverage, depth to watertable and proximity to valued water resources. In order to better manage wastewater systems, local authorities in Mount Gambier are engaging in community consultation, to understand community concerns and to develop a communication and consultation framework for the implementation and ongoing processes involved in the development of long term wastewater treatment plans. Several studies have been conducted in the United States, in upstate New York (Schwartz et al. 1998), and in northeast North Carolina (McKee & McNulty 2003), on the general management of onsite wastewater treatment by owners and their response to local authorities’ management and maintenance initiatives. Of the few studies conducted in Australia, Cooper et al. (2006) interviewed community members in northeast Victoria on preferred choices of 2 wastewater systems. Nunn and Ross (2006) surveyed a rural community in Victoria to ascertain compliance with permit requirements of effluent quality of aerobic wastewater treatment systems. The Colac Otway Shire in Victoria instigated wastewater management programs in response to aerobic systems discharging effluent off-site (Colac Otway 2002). Arnold and Gallasch (2001) investigated the effectiveness of domestic onsite wastewater treatment systems in the Mount Lofty Ranges, South Australia, one of the sources of the capital city of Adelaide’s drinking water. The Australian studies found local authorities were concerned about compliance with state regulations and waste management procedural arrangements i.e., determination of the performance and condition of OWTS, data management of OWTS information and the implementation of regular inspection and management programs (Arnold and Gallasch, 2001; Colac Otway, 2002; Nunn and Ross, 2006). Conversely, residents were mainly concerned about their limited knowledge of system function and maintenance requirements, financial costs, environmental impact and influence on property values. Nunn and Ross (2006) report a general lack of householder understanding of the system’s function and maintenance requirements as a major factor leading to regulatory non-compliance. Studies by Arnold and Gallasch (2001) and Colac Otway (2002) are two examples where Australian local government authorities have used community awareness programs and educational information to improve the level of householder knowledge regarding OWTS operation, maintenance, and identification of system failures. However, to date the programs have not been evaluated. The rural city of Mount Gambier in the south-east of South Australia provides a case study where onsite wastewater treatment is used in peri-urban and rural areas. While the majority of Mount Gambier residents have been serviced by a sewer system since the 1970s, around 75 residential properties within the city bounds and 3000 in the surrounding peri-urban and rural areas rely on OWTS for wastewater management (Levett et al., 2009). Conventional septic systems and aerobic systems are two OWTS that are in use in the Mount Gambier area. Aerobic systems in the area mainly employ a suspended-growth system in the aerobic chamber, where air blowers aerate the primary treated effluent and promote the growth of aerobic bacteria suspended in the liquid. However, a very small number employ an attached growth system, where bacteria form a biofilm on media, which the effluent is trickled over. All systems in the area use chlorine as the disinfection agent. Current regulations state that aerobic systems must be serviced quarterly by a professional service agent, where the mechanical components are checked, and chlorine tablets replenished. It is recommended that both septic tanks and aerobic systems are desludged (pumped out) every four years (SA Health Commission, 1995, 1998). There are several proposed changes to systems maintenance under consideration by the local council where they would opt to take more involvement in, (i) conducting desludging programs, (ii) maintaining records of desludging events, (iii) sending desludging reminder notices, and/or (iv) information provision. Groundwater quality protection is a high priority in the study area as the major water supply for the city is sourced from the Blue Lake, which is fed by the underlying unconfined karstic aquifer (BLMP, 2006). Karstic aquifers have many underwater caves and sinkholes and the groundwater within can be dangerously susceptible to contamination via diffuse recharge, point recharge or in depressions in the land surface (Davis et al. 2002). To assist local authorities in managing the impact of OWTS to ensure environmental protection of groundwater supplies, the authors attempted to investigate the community management of OWTS, opinions on preferred management strategies, institutional arrangements and possible reactions to future financial costs to householders. Compliance with effluent quality and maintenance guidelines has been evaluated using field assessments of residential OWTS (Levett et al. 2009). This paper explores community knowledge of and attitudes to OWTS, and reactions to proposed management options that could be adopted by local government authorities, through a process of community consultation. 3 METHODS A site inspection and householder survey was conducted for 74 households with OWTS, in parallel with the biophysical sampling program for OWTS and domestic supply bores. Of these, 30 households had aerobic wastewater treatment systems (AWTS) and 44 households had septic systems (see Levett et al., 2009 for details). Surveys were used to collect demographic, system and maintenance details and opinions regarding system function. The householder survey also revealed system maintenance practices in situ. The survey was complemented by onsite inspections undertaken during sampling to record the location of systems in relation to bores, the condition of effluent dispersal areas and any obvious signs of failure such as waterlogged soil. Concurrently, twenty six participants attended two community workshops held at Mount Gambier in February 2008. In-depth information was elicited from the community workshops providing a better understanding of management issues and practices, as well as attitudes toward local authorities and their role in facilitating environmental protection of groundwater supplies. Attendees were recruited by telephoning approximately 20 community residents for each workshop from a database of residents with OWTS, the selection provided by the local councils. The initial workshop consisted of 15 participants, all from households with septic systems. The second workshop of 11 participants consisted of seven participants from households with aerobics systems and three from households with septic tanks and one stakeholder. Residents of both genders attended the workshops; however the age of participants was not recorded. The purpose of the workshops was to provide richness in detail and understanding of issues and concerns associated with OWTS. Local Environmental Health Officers presented information and factsheets on features and regulations governing OWTS. Participants were asked a series of semi-structured questions on their experiences with OWTS and conversationally exchanged views within groups. Opinions were transcribed and collated. In addition, six stakeholders involved in the distribution and maintenance of OWTS were interviewed and their viewpoints and experiences in dealing professionally with householders in reference to OWTS were analysed. Stakeholders were purposively selected from local authority information of service providers (qualitative selection) to understand other issues involved in wastewater treatment from a servicing perspective. RESULTS AND DISCUSSION The householder survey, site inspections, and effluent and groundwater quality sampling was conducted to assess functional aspects of OWTS. Levett et al. (2009) reported that the quality of effluent from septic tanks and AWTS was