Bore Water Test Kits

Mail-order bore water testing. NATA-accredited laboratory analysis delivered to your door — no site visit, no consultant required.

01 Microbiology — No Safety Net Unlike town water, bore water has no disinfection treatment and no regulatory monitoring. E. coli can enter through leaking septic systems, animal waste, surface water infiltration, or a compromised bore casing. It is the single most important test for any bore supply used for drinking.
E. coli Thermotolerant Coliforms
02 Geological Metals & Trace Elements Groundwater dissolves minerals from the surrounding rock and sediment over time. Arsenic is naturally elevated in many Australian aquifers. Manganese and iron cause staining and taste issues. Uranium leaches from granite and sandstone formations at concentrations that can exceed ADWG guidelines without any visible sign.
Arsenic Lead Iron Uranium Manganese + 17 metals
03 Nitrate & Nutrient Contamination Nitrate in bore water is a serious concern — particularly for households with infants, where elevated levels can cause blue baby syndrome. Sources include leaching from fertilised agricultural land, septic systems, and naturally occurring nitrogen in soil. Bore water has no regulatory monitoring to catch exceedances.
Nitrate Nitrite Ammonia NOx
04 Water Chemistry & Mineral Balance Groundwater chemistry varies significantly by geology. High hardness, salinity, or alkalinity affects taste and scale buildup on appliances. Low pH accelerates corrosion in plumbing. Electrical conductivity and TDS give a direct measure of overall mineral load — important for both drinking quality and household use.
pH TDS Hardness Alkalinity Conductivity Calcium Magnesium
05 Fluoride Unlike town water — which is dosed to a controlled level — bore water fluoride is determined entirely by local geology and can vary dramatically between aquifers. Natural fluoride leaches from granite, basalt, and sedimentary rock and can exceed the ADWG guideline of 1.5 mg/L across many inland NSW, SA, and Queensland aquifer systems.
Fluoride
06 PFAS "Forever Chemicals" PFAS compounds migrate through soil into groundwater and persist indefinitely. Bore water near defence bases, airports, fire training grounds, or industrial sites is at elevated risk. PFAS have no taste or odour at concentrations above ADWG limits. The 2025 ADWG tightened guideline values by up to 94% — detection at standard reporting limits is no longer sufficient.
PFOS PFOA PFHxS PFNA + 26 compounds
07 Industrial Solvents & Volatile Organics Chlorinated solvents including TCE and PCE are among the most common groundwater contaminants in Australia, migrating from historical industrial sites, dry cleaners, and manufacturing facilities. Vinyl chloride — a breakdown product of TCE — has a very low ADWG guideline value and is colourless and odourless at concerning concentrations.
TCE PCE Vinyl Chloride BTEX + 48 VOCs
08 Agricultural Pesticides & Herbicides On agricultural and peri-urban land, pesticides and herbicides leach through soil into groundwater over years and decades. Atrazine is one of the most commonly detected chemicals in Australian groundwater from cropping regions. Organochlorine compounds including Dieldrin and DDT persist in groundwater long after their agricultural use has ceased.
Atrazine Simazine Dieldrin Chlorpyrifos DDT + 41 compounds

What We Screen For

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.

Four testing levels to match your concerns.

Bore Water Essentials A$449 Order Now
Most Popular Advanced A$649 Order Now
Full Screen Complete A$999 Order Now
01Microbiology — No Safety Net
E. coli & Thermotolerant ColiformsBore water has no disinfection treatment and no regulatory monitoring. E. coli can enter through leaking septic systems, animal waste, surface water infiltration, or a compromised bore casing.
02Geological Metals & Trace Elements
22 metals & trace elementsArsenic, Lead, Mercury, Iron, Uranium, Aluminium, Barium, Copper, Zinc, Manganese, Chromium, Nickel, Selenium, Cadmium, Cobalt, Molybdenum, Boron, Antimony, Tin, Vanadium, Beryllium, Silver. Arsenic and Uranium are naturally elevated in many Australian aquifers — no visible sign at concerning concentrations.
05Fluoride
Fluoride — naturally occurring in groundwaterUnlike town water, bore water fluoride is entirely geological — it can vary dramatically between aquifers and exceed the ADWG guideline of 1.5 mg/L across many inland NSW, SA, and Queensland aquifer systems.
03Nitrate & Nutrient Contamination
Ammonia, Nitrate, Nitrite & Total Oxidised Nitrogen (NOx)Nitrate leaches from fertilised agricultural land and septic systems. Nitrite included at base tier — bore water has no regulatory monitoring to catch exceedances. Elevated Nitrate is a serious concern for households with infants.
04Water Chemistry & Mineral Balance
14 physical & chemical parameterspH, EC, TDS, Total Alkalinity, Bicarbonate, Carbonate, Hydroxide Alkalinity, Hardness, Calcium, Magnesium, Sodium, Potassium, Chloride, Sulphate. Groundwater chemistry varies significantly by geology — hard, saline, or alkaline water affects taste, scale, and appliance life.
Turbidity & Apparent ColourIndicators of iron, manganese, and suspended sediment — common in bore water, particularly after rainfall events or bore disturbance.
06PFAS — "Forever Chemicals"
30 PFAS compounds at trace detection levelPFOS, PFOA, PFHxS, PFNA + 26 precursors at 0.001–0.005 µg/L — set below the 2025 ADWG guideline values. PFAS migrate through soil into groundwater and persist indefinitely — no taste or odour at concentrations above guidelines.
07Industrial Solvents & Volatile Organics
53 volatile organic compounds — SIM scanBTEX (Benzene, Toluene, Ethylbenzene, Xylenes), TCE, PCE, Vinyl Chloride + 46 others. Chlorinated solvents are among the most common groundwater contaminants in Australia, migrating from historical industrial sites, dry cleaners, and manufacturing facilities over decades. Colourless and odourless at concerning concentrations.
08Agricultural Pesticides & Herbicides
36 pesticides & insecticides at trace detection levelOrganochlorine (OCP): Aldrin, Dieldrin, DDT, Heptachlor, Endosulfan, Lindane + others. Organophosphate (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. Applied at high volumes in broadacre cropping — Atrazine is one of the most commonly detected chemicals in Australian groundwater from agricultural regions.
What's Included
Complete sampling kit delivered to your door
Pre-paid express return shipping
NATA-accredited laboratory analysis (No. 1261)
Colour-coded PDF report benchmarked against ADWG
Plain-language exceedance explanations
Total parameters tested ~42 ~72 ~152
Bore Water Essentials

Core safety screen — microbiology, metals, fluoride, nutrients, and water chemistry.

01Microbiology — No Safety Net
E. coli & Thermotolerant ColiformsNo disinfection, no regulatory monitoring — the single most important test for any bore supply
02Geological Metals & Trace Elements
22 metals & trace elementsArsenic, Lead, Mercury, Uranium, Iron, Manganese, Copper, Zinc, Aluminium, Barium + 12 others. Arsenic and Uranium are naturally elevated in many Australian aquifers.
05Fluoride
Fluoride — geological, not treatedCan vary dramatically between aquifers — exceeds ADWG 1.5 mg/L in many inland NSW, SA, and Queensland aquifer systems
03Nitrate & Nutrient Contamination
Ammonia, Nitrate, Nitrite & NOxLeaches from fertilised land and septic systems. Elevated Nitrate is a serious concern for households with infants.
04Water Chemistry & Mineral Balance
14 physical & chemical parameterspH, EC, TDS, Hardness, Alkalinity, Calcium, Magnesium, Sodium, Potassium, Chloride, Sulphate + more
Turbidity & Apparent ColourIron, manganese, and sediment indicators — common in bore water
Not included — upgrade to Advanced
PFAS 30 compounds · VOCs 53 compounds · Pesticides & Insecticides · Triazine Herbicides
A$449 ~42 parameters · inc. return shipping
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Most Popular Advanced

Everything in Essentials, plus a full PFAS screen at trace detection level.

Everything in Essentials, plus:
06PFAS — "Forever Chemicals"
30 PFAS compounds at trace detection level NEWPFOS, 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 ADWG 2025 guideline values.
Not included — upgrade to Complete
53 VOCs (industrial solvents, TCE, PCE, BTEX) · 36 Pesticides & Insecticides · 10 Triazine Herbicides
A$649 ~72 parameters · inc. return shipping
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Full Screen Complete

Everything in Advanced, plus industrial solvents, pesticides, and herbicides — 152 parameters.

Everything in Advanced, plus:
07Industrial Solvents & Volatile Organics
53 VOCs at trace detection level — SIM scan NEWTCE, PCE, Vinyl Chloride, BTEX, chlorinated solvents + 47 others. Among the most common groundwater contaminants in Australia — migrate from historical industrial sites over decades. Colourless and odourless at concerning concentrations.
08Agricultural Pesticides & Herbicides
36 pesticides & insecticides at trace detection level NEWOCP: Aldrin, Dieldrin, DDT, Heptachlor, Lindane + others. OPP: Chlorpyrifos, Diazinon, Malathion + others. Persist in groundwater long after agricultural use has ceased.
10 triazine herbicides at trace detection level NEWAtrazine, Simazine, Propazine + 7 others. Atrazine is one of the most commonly detected chemicals in Australian agricultural groundwater.
A$999 ~152 parameters · inc. return shipping
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Want every contaminant class in a single kit? Complete Water Audit — 214 Parameters

Every 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.

A$1,099 Inc. GST
View Details
Looking for a specific test?
Metals Screen 22 metals & trace elements

Arsenic, lead, iron, uranium, aluminium, barium and 16 further metals — standalone screen for geological and industrial contamination in groundwater.

A$199 View Details
PFAS Screen 30 PFAS compounds · Trace level

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.

A$399 View Details

All analysis performed by NATA-accredited laboratories under ISO/IEC 17025:2017 · All prices including GST · Return shipping included

How It Works

  • Safe Water Lab Kit

    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.

  • Illustration of a woman cleaning a kitchen countertop with cleaning spray, near the sink, with various cleaning supplies on the counter.

    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.

  • Two scientists in a laboratory, one male and one female, working at a table with large glass flasks filled with blue liquid, surrounded by lab equipment and shelves with chemicals, with a clock showing 2:15.

    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.

  • Safe Water Lab Report

    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.

Your Report

The Clarity you need. Zero guesswork.

Every kit includes a Water Quality Analysis Report delivered as a digital PDF. Each report includes:

  • Results Summary — Colour-coded report card with pass/fail by contaminant category and next steps if you have an exceedance. Know where you stand in 60 seconds.

  • Detailed Results — All your results, compared against national and international drinking water safety limits.

  • Certificate — The original NATA-accredited Certificate of Analysis from the laboratory. Your official record.

The same laboratories trusted by Australian councils, water utilities, and environmental regulators.

Professional-grade analysis, delivered to your door.

Tank 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.