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New Zealand's Water Is under Attack

With the ever-growing threat of harmful bacteria in our water supply, councils have no choice but to treat our water with harsh chemicals.

In our Drinking water

How to Protect Your Family’s Health

Water filtration systems can be installed in every home to provide safe, clean drinking water. You can choose a whole-home system that supplies filtered water to every tap, from the kitchen to the bathroom, ensuring all water used in your home is free from harmful bacteria and chemicals. Alternatively, a dedicated kitchen filtration system can be installed directly at your sink. These systems often use advanced multi-stage or three-way filtration to remove contaminants, chlorine, and other impurities, delivering fresh, great-tasting water for drinking, cooking, and other daily uses. Proper filtration not only improves taste and odor but also reduces exposure to potentially harmful substances, supporting better overall health for you and your family.

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November 13, 2025

Chlorine in Your Tap Water: Understanding Sodium Hypochlorite and Filtration Solutions

Sodium Hypochlorite in New Zealand Water — What You Should Know Across New Zealand, sodium hypochlorite plays a vital role in keeping our water supplies safe. It’s widely used by councils and treatment facilities to disinfect water and eliminate harmful microorganisms. But while it’s effective for public health protection, it’s worth understanding what sodium hypochlorite actually is, why it’s used, and what its potential downsides can be — especially for households with sensitive systems or those seeking purer, chemical-free water. What Is Sodium Hypochlorite? Sodium hypochlorite (NaOCl) is a chlorine-based compound — the active ingredient in household bleach — used by water authorities as a disinfectant. When added to water, it breaks down into hypochlorous acid, which kills bacteria, viruses, and other pathogens. This process has been essential in preventing waterborne diseases and maintaining safe public water supplies for decades. Why Is It Used in Drinking Water? In most New Zealand towns and cities, sodium hypochlorite is the final stage in the water treatment process. It ensures that even as water travels through pipes and storage tanks, microbial contamination remains low. This disinfection process is crucial for public health and is endorsed by regulatory bodies including Taumata Arowai and the Ministry of Health. The Downsides: Taste, Odour, and Sensitivity While sodium hypochlorite is effective, many households notice its side effects — a slight chlorine taste or smell in tap water. Some people experience dry skin, irritated eyes, or digestive discomfort when chlorine levels fluctuate. Over time, the presence of chlorine can also impact the taste of beverages like tea and coffee, or cause minor corrosion in appliances and fittings. How Filtration Can Help Home water filtration systems — particularly those using carbon filtration or reverse osmosis — can effectively remove sodium hypochlorite and its by-products, leaving water tasting clean, fresh, and neutral. These systems are especially beneficial for households that want: To reduce chemical taste or odour in tap water To protect sensitive skin from chlorine exposure To extend the lifespan of appliances and fixtures To ensure water is as pure as possible for cooking and drinking Balancing Safety and Purity Chlorination with sodium hypochlorite remains a cornerstone of safe water treatment, but that doesn’t mean you have to accept the trade-offs in taste and chemical exposure. For most households, installing an under-sink or full-home filtration system is the ideal balance — maintaining protection while restoring natural purity. Final Word New Zealand’s water infrastructure depends on sodium hypochlorite for reliable disinfection. Yet for those seeking the highest quality drinking water, filtration is the next step. By removing chlorine compounds and their by-products, you can enjoy crisp, fresh water straight from your tap — without compromising on safety. Read more

November 13, 2025

E. coli in New Zealand Water: What You Need to Know — and How to Protect Your Home

E. coli in New Zealand Water: What You Need to Know — and How to Protect Your Home Across New Zealand, water safety has become a growing concern — and one of the most common indicators of contamination in drinking water is the presence of E. coli. While not all forms are harmful, detection of E. coli in your supply signals that faecal contamination has occurred, meaning other harmful pathogens may also be present. Understanding what E. coli is, where it comes from, and how to manage it is key to keeping your household’s drinking water safe — particularly for homes using private bores, wells, or rural water supplies. What Is E. coli? Escherichia coli (E. coli) is a bacterium commonly found in the intestines of humans and warm-blooded animals. Most strains are harmless, but some — known as pathogenic E. coli — can cause illness when ingested through contaminated food or water. In water testing, E. coli acts as an indicator organism, meaning that its presence suggests faecal matter has entered the water supply and that other pathogens such as Giardia or Cryptosporidium may also be present. How Does E. coli Get Into Water Supplies? Contamination usually occurs when animal or human waste seeps into groundwater or surface water. In New Zealand, common causes include: Agricultural runoff from livestock farms or effluent ponds Poorly sealed or shallow bores allowing surface water to enter Septic tank leaks or malfunctioning wastewater systems Heavy rainfall or flooding that washes contaminants into aquifers and waterways Even smaller town supplies or rural schemes can be affected during severe weather or when maintenance lapses occur. Health Risks of E. coli in Drinking Water Drinking water contaminated with pathogenic E. coli can cause gastrointestinal illness with symptoms such as: Diarrhoea, nausea, and vomiting Abdominal pain or cramps Fever or dehydration (especially in children and the elderly) Severe strains, like E. coli O157:H7, may lead to haemolytic uremic syndrome (HUS) — a rare but serious kidney complication. Infants, pregnant women, and people with weakened immune systems face the greatest risk. E. coli Regulations in New Zealand Under Taumata Arowai — New Zealand’s drinking-water regulator — the Maximum Acceptable Value (MAV) for E. coli is zero detectable E. coli per 100 mL sample. In short: any detection at all means the water is unsafe to drink. Public water suppliers are required to monitor for E. coli routinely, but private well and bore owners must test and maintain their own systems. Protecting Your Home from E. coli Test your water regularly: Use an accredited lab or local council service at least once or twice a year — or after floods, repairs, or changes in water clarity or taste. Inspect your bore or spring: Ensure it’s properly sealed and protected from surface runoff and nearby effluent or septic systems. Install a certified filtration or disinfection system: UV sterilisation kills bacteria and viruses without chemicals. Reverse osmosis (RO) systems remove bacteria, nitrates, and other contaminants at a microscopic level. Maintain and replace filters: Service and replace UV lamps or cartridges as recommended. Stay informed: During flooding or contamination events, follow council boil-water notices and consider long-term filtration for peace of mind. “Clean water isn’t a luxury — it’s a necessity. Regular testing and proper filtration are the best defences against hidden contaminants like E. coli.” E. coli contamination in New Zealand is more common than most people realise — but with the right testing, protection, and certified filtration, you can make sure every glass of water in your home is safe, pure, and refreshing. At Purity Water Filters, we help Kiwis protect their health with advanced reverse osmosis and UV systems designed for New Zealand’s unique water conditions. Read more

November 9, 2025

Nitrates: Nitrates in New Zealand waters are a real concern

Why Nitrates in New Zealand Water Are a Real Concern — and Why Filtration Matters Across New Zealand, drinking-water sources are facing rising nitrate levels. While the situation varies by region, the evidence is clear: nitrates in groundwater and private supplies are not just an environmental issue, but a growing public-health concern. One of the most reliable ways to protect your household is through effective water filtration or point-of-entry treatment. What Are Nitrates — and Why Do They Matter? Nitrate (NO₃⁻) is a naturally occurring form of nitrogen found in soils, plants, and water. However, human activity — particularly intensive farming, nitrogen-based fertilisers, irrigation, and animal waste — has led to increased nitrate concentrations in groundwater. Elevated nitrate levels can reduce oxygen delivery in the blood (especially dangerous for infants), and emerging research links long-term exposure to potential chronic health risks. Where are Nitrates high: What the Numbers Tell Us Under New Zealand’s drinking-water standards (Taumata Arowai / Ministry for the Environment / Ministry of Health), the Maximum Acceptable Value (MAV) for nitrate is: 50 mg/L expressed as NO₃ 11.3 mg/L expressed as NO₃-N Yet, recent research suggests health effects may occur at levels as low as 1 mg/L NO₃-N. National studies indicate that around 4% of rural groundwater samples exceed the MAV, particularly in farming-intensive regions. Who Is at Risk? Households using private wells, bores, or springs are most exposed, since smaller supplies are less regulated and often not routinely tested. Pregnant women and infants face the highest health risks — including potential links to low birth weight and pre-term birth. Some studies also explore possible associations between long-term nitrate exposure and chronic illnesses such as colorectal cancer. Why This Matters Now With ongoing increases in fertiliser use, irrigation, and livestock density, nitrate leaching into groundwater is becoming more widespread. Even public supplies that currently test below the MAV are showing rising trends — and the long-term safety margin is narrowing. Filtration: The Practical Solution for Households Boiling water does not reduce nitrate levels. The most effective way to ensure safe drinking water is through filtration or point-of-entry treatment systems designed for nitrate removal. Ion-exchange, reverse-osmosis, and specialty cartridges can significantly lower nitrate concentrations. Filtration offers peace of mind by reducing dependency on regional testing schedules. Especially vital for private wells, rural households, and young families. What You Can Do Test your water: Use a certified lab to check nitrate levels — especially for private wells and bores. Check public data: Review nitrate results published by your local supplier or council. Install certified filtration: Choose nitrate-reduction systems such as RO or ion-exchange filters. Maintain and replace filters: Regular servicing ensures ongoing protection. Monitor over time: Land-use and rainfall can cause seasonal nitrate fluctuations. “Safe water isn’t just about clarity — it’s about chemistry. Protecting your household from nitrates means taking control of your water quality at the source.” In short, while regulatory limits exist, many experts now question whether they’re truly protective for long-term health. With nitrate pressures continuing to rise across Aotearoa, the best safeguard for your family is a dedicated water-filtration system — ensuring every glass you pour is clean, safe, and refreshing. Read more