Bore Water Test Kits
NATA-accredited laboratory analysis delivered to your door — no site visit, no consultant required.
As environmental scientists, we built Safe Water Lab the way we'd want our own water tested.
Australia's Most Comprehensive Water Testing Kits.
Featured Products
NATA-accredited bore water safety test for drinking suitability. E. coli, 18 heavy metals including arsenic, lead and uranium, nitrate, and pH.
This screen covers the core health risks present in most Australian groundwater — bacteria, toxic metals, uranium, and nitrate. If your bore is on residential or rural-residential land away from farming, fuel storage, or industrial activity, this is the right starting point. Results benchmarked against the Australian Drinking Water Guidelines.
What's included
Complete sampling kit delivered to your door
Pre-paid express return shipping
NATA-accredited laboratory analysis
Detailed report benchmarked against the Australian Drinking Water Guidelines (ADWG)
Plain-language exceedance explanations
22 Parameters
E. coli — the primary indicator of faecal contamination in drinking water
18 metals & trace elements — Arsenic, Lead, Mercury, Cadmium, Chromium, Copper, Nickel, Zinc, Uranium, Silver, Beryllium, Boron, Cobalt, Manganese, Molybdenum, Antimony, Selenium, Vanadium
Nitrate & Nitrite — Nitrate the primary chemical risk for infants and pregnant women on bore supply
pH (indicative) — corrosivity indicator; low pH accelerates metal leaching from household pipes and fittings
→ Compare all bore water kits and see full parameter list
A note on microbiology (E. coli & coliforms): These are sensitive to transit time and temperature. Occasionally, extended transit can push them past holding time — where that happens, the result is still reported but carries less weight than one analysed within holding time.
NATA-accredited bore water testing kit for drinking suitability. E. coli, 22 heavy metals including iron, manganese, uranium, full chemistry and salinity.
Core safety and quality screen for bore and groundwater used for drinking.
Bore water has no disinfection treatment and no regulatory monitoring. This screen tests for the parameters that matter most — microbiology, geological metals including arsenic and uranium, fluoride, nutrients, and full water chemistry.
What's included
Complete sampling kit delivered to your door
Pre-paid express return shipping
NATA-accredited laboratory analysis
Detailed report benchmarked against Australian Drinking Water Guidelines (ADWG)
Plain-language exceedance explanations
42 Parameters
E. coli & Thermotolerant Coliforms
22 metals & trace elements — Arsenic, Lead, Mercury, Uranium, Iron, Manganese, Aluminium, Barium, Copper, Zinc + 12 others
Fluoride — naturally occurring; geological fluoride is unregulated and unpredictable
Ammonia, Nitrate, Nitrite & Total Oxidised Nitrogen (NOx)
14 physical & chemical — pH (indicative), EC, TDS, Hardness, Alkalinity, Calcium, Magnesium, Sodium, Potassium, Chloride, Sulphate + more
Turbidity & Apparent Colour
→ Compare all bore water kits and see full parameter list
A note on microbiology (E. coli & coliforms): These are sensitive to transit time and temperature. Occasionally, extended transit can push them past holding time — where that happens, the result is still reported but carries less weight than one analysed within holding time.
Bore water testing kit with PFAS detection for properties near defence bases, airports or industrial sites. 30 PFAS compounds at trace level plus full drinking water profile.
The full Essentials screen plus 30 PFAS compounds at trace detection level.
For bore water near defence bases, RAAF facilities, airports, fire training grounds, or industrial sites. PFAS have no taste or odour at concentrations above guideline values — testing is the only way to know.
What's included
Complete sampling kit delivered to your door
Pre-paid express return shipping
NATA-accredited laboratory analysis
Detailed report benchmarked against Australian Drinking Water Guidelines (ADWG) 2025
Plain-language exceedance explanations
72 Parameters
E. coli & Thermotolerant Coliforms
22 metals & trace elements — Arsenic, Lead, Mercury, Uranium + 18 others
Fluoride · Ammonia, Nitrate, Nitrite & NOx
14 physical & chemical · Turbidity & Apparent Colour
ph (indicative)
30 PFAS at trace detection level (LOR 0.001–0.005 µg/L) — PFOS, PFOA, PFHxS, PFNA + 26 others
→ Compare all bore water kits and see full parameter list
A note on microbiology (E. coli & coliforms): These are sensitive to transit time and temperature. Occasionally, extended transit can push them past holding time — where that happens, the result is still reported but carries less weight than one analysed within holding time.
How It Works
-

Step 1 - Select and purchase your test
We mail you a testing kit complete with laboratory testing bottles and step by instruction of how to collect your sample.
-

Step 2 - Collect a water sample
Fill the supplied laboratory testing bottles with a sample of your drinking water. Place the bottles in the supplied postage parcel complete with pre-paid express shipping return label and place in post.
-

Step 3 - Laboratory Testing
Your water sample will be sent to a NATA accredited Australian laboratory for testing. Our laboratory partners typically complete the analysis within 5 business days.
-

Step 4 - Receive your results
Your detailed Water Quality Analysis Report is delivered as a digital PDF — plain-English results benchmarked against Australian drinking water guidelines, with the original NATA-accredited Certificate of Analysis included.
What We Test
- Arsenic — naturally elevated across NSW, SA, WA, QLD
- Uranium and Fluoride — leach from granite and sedimentary rock
- Iron and Manganese — cause staining, taste and pump issues
- Hardness and salinity — affect taste, scale and corrosion
- Nitrate from fertilised land and septic systems
- PFAS from defence bases, airports and industrial sites
- Pesticides and herbicides — atrazine, simazine, organochlorines
- VOCs and solvents from historical industrial land use
- E. coli from compromised casings or septic ingress
Which bore water kit is right for you?
Not sure where to start? The Safety Screen answers the most important question first. Step up to Essentials for a complete water profile — and coverage for garden bore and irrigation use. Advanced and Complete add contamination screening for properties with specific site risk.
What’s Included in Each Kit
| 01Microbiology — No Safety Net | ||||
| E. coliPrimary faecal indicator — bore water has no disinfection treatment and no regulatory monitoring. | ✓ | ✓ | ✓ | ✓ |
| Thermotolerant ColiformsBroader faecal indicator group. Can enter through leaking septic systems, animal waste, surface water infiltration or a compromised bore casing. | ✕ | ✓ | ✓ | ✓ |
| 02Geological Metals & Trace Elements | ||||
| 18 metals & trace elementsArsenic, Lead, Mercury, Uranium, Cadmium, Chromium, Nickel, Zinc, Silver, Beryllium, Boron, Cobalt, Molybdenum, Antimony, Selenium, Vanadium, Copper, Tin. Arsenic and Uranium naturally elevated in many Australian aquifers — no visible sign at concerning concentrations. | ✓ | ✓ | ✓ | ✓ |
| Iron, Manganese, Aluminium, BariumGeological metals causing staining, taste and appliance issues — plus aquifer characterisation. Included in full 22-metal suite from Essentials upward. | ✕ | ✓ | ✓ | ✓ |
| 03Nitrate & Nutrient Contamination | ||||
| NitrateLeaches from fertilised agricultural land and septic systems. Primary chemical risk for infants on bore supply. | ✓ | ✓ | ✓ | ✓ |
| Nitrite, Ammonia & Total Oxidised Nitrogen (NOx)Full nutrient picture — nitrite and ammonia indicate septic ingress; NOx confirms total oxidised nitrogen load. | ✕ | ✓ | ✓ | ✓ |
| 04pH | ||||
| pH — corrosivity indicatorLow pH accelerates metal leaching from household pipes and fittings. Included across all tiers. | ✓ | ✓ | ✓ | ✓ |
| 05Water Chemistry, Mineral Balance & Irrigation Suitability | ||||
| 14 physical & chemical parametersEC, TDS, Total Alkalinity, Bicarbonate, Carbonate, Hardness, Calcium, Magnesium, Sodium, Potassium, Chloride, Sulphate, Hydroxide Alkalinity. Full aquifer characterisation — taste, scale, corrosion, and salinity picture. | ✕ | ✓ | ✓ | ✓ |
| Turbidity & Apparent ColourIron, manganese, and suspended sediment indicators — common in bore water after rainfall or bore disturbance. | ✕ | ✓ | ✓ | ✓ |
| Irrigation suitability assessment (SAR included)Sodium adsorption ratio calculated from ion chemistry — covers garden bore and irrigation use at no extra cost. Ion Balance requested on CoC. | ✕ | ✓ | ✓ | ✓ |
| 06Fluoride | ||||
| Fluoride — naturally occurring in groundwaterUnlike town water, bore water fluoride is entirely geological — can exceed the Australian Drinking Water Guidelines limit of 1.5 mg/L across many inland NSW, SA, and QLD aquifer systems. | ✕ | ✓ | ✓ | ✓ |
| 07PFAS — "Forever Chemicals" | ||||
| 30 PFAS compounds at trace detection levelPFOS, PFOA, PFHxS, PFNA + 26 precursors at 0.001–0.005 µg/L. PFAS migrate through soil into groundwater and persist indefinitely — no taste or odour at concentrations above the 2025 Australian Drinking Water Guidelines. | ✕ | ✕ | ✓ | ✓ |
| 08Industrial Solvents & Volatile Organics | ||||
| 53 volatile organic compounds — SIM scanBTEX, TCE, PCE, Vinyl Chloride + 49 others. Chlorinated solvents are among the most common groundwater contaminants in Australia — migrate from historical industrial sites over decades. Colourless and odourless at concerning concentrations. | ✕ | ✕ | ✕ | ✓ |
| 09Agricultural Pesticides & Herbicides | ||||
| 36 pesticides & insecticides at trace detection levelOCP: Aldrin, Dieldrin, DDT, Heptachlor, Endosulfan, Lindane + others. OPP: Chlorpyrifos, Diazinon, Dimethoate, Malathion + others. Persist in groundwater long after agricultural use has ceased. | ✕ | ✕ | ✕ | ✓ |
| 10 triazine herbicides at trace detection levelAtrazine, Simazine, Propazine, Terbuthylazine + 6 others. Atrazine is one of the most commonly detected chemicals in Australian agricultural groundwater. | ✕ | ✕ | ✕ | ✓ |
| What's Included | ||||
| Complete sampling kit delivered to your door | ✓ | ✓ | ✓ | ✓ |
| Pre-paid express return shipping | ✓ | ✓ | ✓ | ✓ |
| NATA-accredited laboratory analysis | ✓ | ✓ | ✓ | ✓ |
| Colour-coded PDF reportSafety Screen: benchmarked against Australian Drinking Water Guidelines only. Essentials and above: Australian Drinking Water Guidelines + irrigation suitability criteria. | ✓ | ✓ | ✓ | ✓ |
| Plain-language exceedance explanations | ✓ | ✓ | ✓ | ✓ |
| Total parameters tested | ~22 | ~42 | ~72 | ~152 |
Core health risk screen for bore water on residential land — bacteria, metals, uranium, nitrate and pH.
Order Now — A$349Full safety and chemistry screen — microbiology, 22 metals, fluoride, nutrients, water chemistry, and irrigation suitability.
Order Now — A$499Full PFAS screen at trace detection level on top of the complete Essentials baseline.
Order Now — A$699Every contaminant class covered — industrial solvents, pesticides, herbicides, and PFAS on the full Essentials baseline.
Order Now — A$1,099Every contaminant class in one kit — metals, VOCs, PFAS, pesticides, herbicides, PAHs, microbiology, nutrients, and disinfection by-products. Trace-level detection throughout. Suitable for any water source including bore.
Arsenic, lead, iron, uranium, aluminium, barium and 16 further metals — standalone screen for geological and industrial contamination in groundwater.
PFOS, PFOA, PFHxS + 27 precursors at trace detection (0.001–0.005 µg/L). Below ADWG 2025 guideline limits. For properties near defence bases, airports, or industrial land.
All analysis performed by NATA-accredited laboratories under ISO/IEC 17025:2017 · All prices include GST · Return shipping included
Bore Water Risks
Bore water is untreated and unmonitored. What's in it depends on your local geology, what's happened on the land above the aquifer, and what's migrated through the soil over decades.
Independent Testing by Environmental Scientists
Bore water reflects two things — the geology it comes from, and decades of land use above it. We test for the contaminants that actually show up in Australian groundwater: nitrate, arsenic, fluoride and hardness from the aquifer itself; pesticides, PFAS and hydrocarbons from the surface. Results are benchmarked against the Australian Drinking Water Guidelines for drinking water, and ANZECC irrigation guidelines for stock and crops — so a single test answers both questions.
Bore water carries whatever the geology gives it. Nitrate, arsenic, fluoride, uranium, hardness, iron and manganese are all common in Australian groundwater — at concentrations that strips can't detect but the ADWG cares about. We test for the geological signature of your bore, not just what's easy to measure.
Bore water also reflects what's been on the surface for decades. Pesticides (atrazine, simazine, glyphosate, organochlorines), PFAS at trace level, hydrocarbons from old fuel storage, and nutrients from septic systems all infiltrate down through soil into groundwater. We test for the contamination most kits skip.
A single bore often supplies the kitchen tap and the paddock. We benchmark every result against both the Australian Drinking Water Guidelines (ADWG) and the ANZECC irrigation guidelines — the two frameworks that apply to the two uses. Most generic kits give you one. Bore water needs both.
Safe Water Lab is operated by environmental scientists with backgrounds in groundwater quality and contaminated land. Every kit is specified for bore water — we choose the right test method and detection limit for each contaminant, and write sampling instructions so the result reflects what's really in your bore. Every report is read by someone who understands what the numbers mean, before it reaches you.
- ✕Cannot detect PFAS, pesticides, or hydrocarbons
- ✕Arsenic and uranium not measurable at health-relevant levels
- ✕Nitrate strips read total nitrate-N only — no separation of nitrite or ammonia
- ✕No measurement of bacteria from shallow-bore surface contamination
- ✕No irrigation-specific parameters (SAR, chloride, bicarbonate, boron)
- ✓Up to 134 parameters at trace detection levels
- ✓Arsenic, lead, uranium and 15 other metals quantified to µg/L
- ✓Nitrate, nitrite, ammonia and TKN reported separately
- ✓E. coli and thermotolerant coliforms cultured under accredited method
- ✓Dual ADWG + ANZECC benchmarking on every drinking-bore report
Bore water can be excellent, marginal, or genuinely unsafe — and you can't tell which by looking at it. The only way to know is to measure.
Your Report
Not raw data. A verdict on your water
— with a clear path forward.
Most lab tests return a spreadsheet of numbers with no context. Your Safe Water Lab report is different — it tells you what was found, what it means for your household, and exactly what to do about it.
At-a-glance results summary
Your report opens with a colour-coded overview table. One page tells you which categories are clear and which need attention — before you read a single technical result.
Built to be understood in under a minute, by anyone.
Every result benchmarked
Each result is shown alongside the official guideline limit, with a plain-English status — below guideline, below detection, or exceeds limit. Not a number without context. A clear answer.
Benchmarked against the Australian Drinking Water Guidelines (ADWG, updated June 2025) and World Health Organization (WHO) guidelines. Essential, Advanced and Complete kits also include a detailed irrigation suitability assessment.
Plain-English expert interpretation
Anything outside guidelines gets its own dedicated write-up — what it means, what likely caused it, and how it relates to the rest of your results. Written by environmental scientists, not generated from a template.
Interpretation tailored to your specific result, not a stock paragraph.
Specific next steps — not generic advice
Where action is needed, the report tells you precisely what to do and which professional to call — not "consult a professional." Step-by-step guidance built around your actual results, in the order you should tackle them.
A practical action plan, not a list of warnings.
The original NATA lab certificate
Your report includes the full laboratory Certificate of Analysis — the primary analytical record, with accreditation numbers, authorising signatures, and method references. This is the document that holds legal and insurance weight.
Issued by a NATA-accredited laboratory, ISO/IEC 17025 certified.
A PDF you own — forever
Delivered as a professional branded PDF to your inbox. Share it with your plumber, water treatment specialist, real estate agent, or insurer. No login portal, no expiry, no third-party platform. Just a document you own and can use.
Delivered within 5–7 business days of your sample arriving at the lab.
Analysis is performed by leading NATA-accredited laboratories, certified to ISO/IEC 17025 — the international standard for testing competence. Your Safe Water Lab report translates that accredited laboratory data into a document you can understand and act on.
See it for yourself
A real Safe Water Lab report — every page, start to finish.
The same laboratories trusted by Australian councils, water utilities, and environmental regulators.
Professional-grade analysis, delivered to your door.
Bore Water - Common Questions
-
The Australian residential water filter market operates without mandatory product certification or independent performance verification. Manufacturers are not required to substantiate contaminant removal claims before bringing a product to market — meaning the performance figures on the packaging are largely self-reported. A NATA-accredited laboratory baseline provides the only objective, scientifically defensible audit of whether your filtration system is performing as claimed, or creating a false sense of security.
-
It is incredibly simple. When your kit arrives, it includes step-by-step instructions. You simply fill the provided bottles from your tap, write the date on the included form, and place everything into the pre-paid express return mailer. Drop it at any Australia Post Express Post collection point, and you are done.
-
Our laboratory partner completes analysis within 5 business days of receiving your sample. Your report is typically delivered by email 1–2 business days after that. Total time from posting your sample to receiving results is around 7–9 business days depending on postal transit.
-
As a general guide, annual or biennial testing is appropriate for most bores used for drinking. You should also test after any significant event — heavy rainfall following drought, nearby land use changes such as new agricultural activity or construction, changes in taste, odour or colour, a pump replacement, or if someone in the household is pregnant, elderly, or immunocompromised. Groundwater chemistry changes over time — a bore that tested clean three years ago may not reflect current conditions, particularly if surrounding land use has changed.
-
For most homeowners wanting to confirm their bore supply is safe to drink, Bore Essentials covers the core risks — microbiology, a full metals panel including arsenic, uranium and iron, fluoride, complete water chemistry, and nutrients. If your property is near a defence base, airport, fire training facility, or industrial site, Bore Advanced adds 30 PFAS compounds at trace detection level. If you are on rural or agricultural land and want a comprehensive contamination screen including pesticides, herbicides, and industrial solvents, Bore Complete covers everything.
-
The primary risk categories for bore water are: microbiology (E. coli from leaking septic systems, surface water infiltration, or a compromised bore casing), geological metals (arsenic, manganese, and uranium naturally elevated in many Australian aquifers), nutrients (nitrate from agricultural fertilisers and septic systems — elevated levels are particularly dangerous for infants), and water chemistry (pH, hardness, and mineral content that affects taste, appliances, and corrosion). On rural properties near cropping or grazing land, agricultural chemicals including pesticides and herbicides are also relevant. Near defence bases, airports, or industrial sites, PFAS is a serious concern.
-
Uranium occurs naturally in Australian groundwater — particularly in granite and sedimentary geology across NSW, SA, WA, and QLD. The ADWG guideline value for uranium is 0.017 mg/L, and concentrations in many aquifers naturally exceed this threshold with no visible sign in the water. Uranium has no taste, colour, or odour at concentrations of concern. It is included in every bore water kit because geological uranium is one of the most commonly exceeded ADWG parameters in Australian groundwater and one that most customers would not think to test for.
-
Yes. The most serious contaminants in bore water — arsenic, uranium, E. coli, nitrate, PFAS, and agricultural chemicals — are colourless, odourless, and tasteless at concentrations that can still affect health. Visible warning signs like iron staining, turbidity, or a sulphur smell are useful indicators of specific issues, but their absence does not confirm the water is within ADWG guidelines. Appearance and taste are not reliable indicators of chemical or microbiological safety.