EPA assessment area
Historical land uses in the Unley assessment area are believed to be refrigeration manufacturing, furniture manufacturing, cabinet making, boot making and a drapery.
It has long been understood that volatile chemicals can be transported in groundwater. More recently it has been discovered that they can also be found in the air spaces between soil particles as vapour.
In May 2017, the EPA undertook environmental works in an assessment area bounded by Charles Lane, Little Charles Street, Mary Street and Tyne Place in Unley. The EPA work was undertaken to ensure that the legacy of past industrial practices does not pose a risk to residents living there today.
In July 2017, the EPA advised no detections of chemicals in soil vapour above criteria for residential land use were identified. All properties in the Unley assessment area are therefore considered by the EPA to be safe from soil vapour intrusion.
A second stage of environmental work is commencing on 11 June 2018. StThe soil vapour contamination that has been identified originates from contaminated groundwater, and a groundwater assessment and further soil vapour assessment is required in an expanded assessment area (please see ‘Maps’ below).
The EPA reminds residents that groundwater (bore water) in this area may be contaminated and should not be used for any purpose. Mains water and water from a rainwater tank is not affected by this issue. Home grown fruit and vegetables are safe to consume, provided they are not watered with bore water.
Community information sessions
When a new assessment area is established, or where there is wide community interest in the EPA’s work, staff from the community engagement and site contamination teams will host an information session for members of the community to talk to us in person about our work. A community information was hosted by the EPA on Thursday 11 May 2017, in order to answer questions residents had in regards to these works. Residents were encouraged to ‘drop in’ anytime between 6 pm – 9 pm to speak with our staff.
If you are interested in attending a community information session, or to arrange a private meeting, you can register your interest at any time with the Principal Adviser Community Engagement on (08) 8124 4216.
Letter to residents
Frequently asked questions
Why is the EPA undertaking assessment work in Unley?
On behalf of the SA Government, the EPA manages the legacy of existing contaminated orphan sites. An orphan site is where the original polluter no longer exists, cannot be found or identified, or is unable to carry out or pay the costs of the assessment or remediation that is required.
The EPA has developed a prioritised work program to investigate sites where it holds enough information to warrant further investigation into whether there is a potential human health risk. The EPA is aware of site contamination in the Unley area resulting from historic industrial and chemical disposal and handling practices.
When groundwater contamination happens near residential properties, these chemicals can potentially enter into homes in vapour form. The information provided historically is incomplete and a number of data gaps have been identified by the EPA.
At this time it is not known who caused the site contamination. As a result the area is deemed to be an orphan site and the EPA will, on behalf of the community, assess the potential for a human health risk. In order to determine whether soil vapour intrusion is occurring in the Unley assessment area, work to gather more data will assist the EPA in its understanding of the soil vapour composition, and whether any additional assessment work is required. Work is being undertaken in road verges and are not required to be on private properties.
What triggered the EPA assessment?
Assessment of a site under audit adjacent to the EPA assessment area previously identified 49,000 micrograms per cubic metre (μg/m3) of TCE in shallow soil vapour and the auditor notified the EPA of a potential significant hazardous circumstance. This was remediated by the responsible party at the time, and follow up testing identified significantly reduced TCE in shallow soil vapour.
The notification however, indicated there may be an up gradient offsite source. The EPA understands that the same historical activities were likely to have been undertaken elsewhere in the assessment area. The reports held were undertaken over the last decade and the EPA identified a number of data gaps because they were completed prior to soil vapour being considered together with groundwater.
When did the EPA find out about the contamination?
The EPA was notified by an auditor that there may be a potential site of groundwater contamination in 2013. The EPA holds information on almost 2,200 sites that have been listed on the Public Register. The EPA takes a risk based approach for the assessment and remediation of groundwater contamination to ensure the protection of human health and the environment. While it is not economically feasible to remediate every contaminated site, the EPA prioritises sites that have the potential to present a health or ecological risk and Unley is next on the EPA’s prioritised work program to undertake further investigations.
What information does the EPA hold in regards to Unley?
The EPA holds a number of site contamination assessment reports for several sites between Charles Lane and Mary Street at Unley. The area comprises a mix of commercial, industrial and residential land. Site contamination is believed to come from historical industrial land uses such as refrigeration manufacturing, furniture manufacturing, cabinet making, boot making and a drapery.
South Australia has a proud manufacturing history and some chemical disposal and handling practices in these industries, that were considered appropriate at the time, are no longer acceptable by today’s environmental standards. Certain chemicals found in groundwater can cause health problems if people are exposed to high enough concentrations over long periods of time.
The majority of the historic reports held by the EPA were completed at a time where soil vapour was not broadly considered however, and after a review of historic files the EPA has determined that it is necessary to undertake further investigations to ensure there is no potential human health risk from vapour intrusion.
The EPA also now holds the Stage 1 Assessment Work, Passive Soil Vapour Investigations, June 2017 which it commissioned last year to assess the potential for soil vapour to be entering residential indoor air.
When will the results from the Unley test area be available?
Results are expected to be analysed and communicated to residents by July 2017.
Are home grown vegetables safe to eat?
Contaminated groundwater generally does not contaminate the soil above it. Provided you are not watering your home grown vegetables with contaminated bore water, they are safe to consume. Most of the time roots don’t go down as far as the groundwater, but even in instances where they do – such as grape vines in times of drought – there is no evidence of fruit having absorbed the chemicals of concern.
Is bore water safe to use?
Bore water (groundwater) in this area may be contaminated and should not be used for any purpose, including washing, food preparation, cooking, making ice or watering edible plants, bathing, filling a pool, pumping through a sprinkler or topping up a rainwater tank. Extracting groundwater near a contaminated site can have the effect of drawing the contamination further towards your property and others.
Can I use my bore if I’m only watering lawns?
The EPA recommends that bore water in this area not be used for any purpose. Coming into contact with groundwater through the skin has the potential for dermal exposure to contamination. For commercial owners there is an additional occupational health and safety factor to consider, as is the case for bores that are used to water public spaces. Extracting groundwater near a contaminated site can have the effect of drawing the contamination further towards your property and others.
Where are Adelaide’s groundwater contamination hotspots?
Site contamination exists in most urbanised areas in the world. South Australia is no exception, particularly suburbs on or near current or former industrial land. As recently as the 1980s, chemicals used by industry were simply tipped down drains and poured onto soil to evaporate.
Groundwater contamination is usually a long-term environmental legacy. Chemicals found in groundwater across metropolitan Adelaide include volatile organic compounds (petroleum hydrocarbons, chlorinated hydrocarbons and other organic compounds), pesticides, polycyclic aromatic hydrocarbons and nitrates.
What is the EPA doing about it?
Once polluted, aquifers can be very difficult to restore. Under the Environment Protection Act 1993, known or suspected groundwater contamination must be reported to the EPA, and it can require the liable party to undertake assessment and if necessary remediation, which means to treat, contain, remove or manage the contamination. In most cases, the original polluter or past/current site owner must undertake or fund this work, including a communication and engagement program to keep affected communities informed.
Responsibility for site contamination is assigned according to the ‘polluter pays’ principle – this means that the original polluter is liable for any clean-up and associated costs caused on and off the source site, regardless of when it was caused. The EPA administers and enforces the Act to ensure responsible parties undertake this work appropriately. It also makes information on contaminated sites available to the public.
What if there is no liable party?
Sometimes identifying the polluter is difficult because it is often the result of previous industrial activity or activities that may have occurred a long time ago. Understanding the timing of the contamination and identifying the polluter is therefore not always possible, and in some cases companies identified as polluters in the past no longer exist.
An ‘orphan’ site is a term used to describe a situation where the original polluter no longer exists, cannot be determined or is unable to carry out or pay the costs of the assessment or remediation that is required. In 2016, the South Australian Government committed to an investment of $7.8 million over four years for the EPA to manage a number of existing contaminated orphan sites. This funding commitment recognises the importance the Government places on dealing with the issue of historical contamination.
How many orphan sites is the EPA currently assessing?
The EPA is currently undertaking works at orphan sites in:
- Southeastern Edwardstown
- Glenelg East
What about when groundwater causes soil vapour intrusion?
In the rare instance that a home is affected by soil vapour intrusion, the EPA works with responsible parties to assist residents to manage any health risk. For example, residents can take a number of simple and practical precautions to increase the flow of fresh air from outside to inside or below a house (such as opening doors and windows, clearing blockages away from exterior vents and installing additional ventilation points). Sealing skirting gaps can prevent vapour from rising from below the house and where there is significant vapour intrusion an active mitigation system can be installed.
What if the EPA finds soil vapour intrusion exists in Unley?
The purpose of the work at Unley is to determine whether soil vapour intrusion exists, and if so what further assessment work needs to be undertaken. This work might include sampling on private properties closer to residential buildings, possible soil vapour sampling, indoor air sampling and crawl space or sub-slab sampling. All work on private properties will require the permission of the landowner to do so.
What happens if soil vapour intrusion is detected?
When contaminated groundwater enters the indoor air of homes as vapour through cracks in floorboards or concrete slabs, a ventilation system may need to be installed. The EPA uses an indoor air level response range for TCE, which considers long-term exposure levels (24 hours a day, 7 days a week over a lifetime of 70 years) to determine when this is required.
Ventilation systems have been installed at homes in Adelaide suburbs where levels of TCE inside a home has measured in the ‘Intervention’ category of the indoor air level response range. The EPA has installed three systems in Beverley as part of a pilot trial to test international research and technology to determine whether it could be applied in South Australia. In Thebarton, Renewal SA is working with the EPA to install systems in six affected homes.
What can be done to neutralise the contamination?
Chlorinated hydrocarbons are incredibly difficult to remediate. They are also very persistent in the environment. There are some technologies that are successful in treating source zones – for example bioremediation, oxidation, thermal, excavation, and pump and treat at the surface. While this can deal with the source zone it has limited impact on reducing the offsite contaminated groundwater plume size and associated risk.
Worldwide research to date has failed to deliver any technology that can effectively and efficiently reduce large-scale contaminated groundwater plumes. The most confounding issue is the ability of any technology to deliver a treatment into the aquifer at the exact depth where the chlorinated hydrocarbons are located and for it to have an effect. Typically the radius of influence, or the distance from the injection or extraction point, is a few metres. In addition chlorinated hydrocarbons are heavier than water. Finding where they lie within the aquifer can be extremely difficult. This lowers the effectiveness of any technology applied to the remediation of contaminated groundwater plumes. Generally, source zone remediation will be required by EPAs, with the risk associated with offsite impacts managed, treated or monitored on a case-by-case basis.
There are typically 2 risks – the first is use of contaminated groundwater, which is managed through groundwater restriction or prohibition. The second risk is vapour intrusion into buildings and assessment is undertaken to quantify the extent of this risk. If necessary, to prevent vapour intrusion there are a few effective solutions such as vapour barriers, sub-slab depressurisation and soil vapour extraction can be used to manage this risk. These are generally effective worldwide.
For site contamination related enquiries, please contact the EPA during office hours on 1800 729 175 or email.
For further information on health-related queries, please contact SA Health on 8226 7100.