Water contaminents and quality overview

Water contaminents and quality overview

Is your water safe to drink? Have you ever though about a home water filter?

To understand if your water is safe to drink you need to understand what the possible contaminents are and how to read them, which sometimes it makes people to consider buying a home water filter. A home water filter is a good idea if you find your water is not good enough. Below is an overview of the water attributes, contaminents and possible health impact. In other pages we have articles talking about how a home water filter can solve your issues.  This is based on what the WHO, US EPA and EU regulatory bodies and scientits publically state today. However, this may change as new studies uncover new evidence. Again, here we are gonna develop the topic so you can think if you need a home water filter or not.

As water travels over the surface of the land or through the ground, it dissolves naturally-occurring minerals and, in some cases, radioactive material, and can pick up substances resulting from the presence of animals or from human activity. Contaminants that may be present in source water include:

  • Microbial contaminants, such as viruses and bacteria, which may come from sewage treatment plants, septic systems, agricultural livestock operations, and wildlife.
  • Inorganic contaminants, such as salts and metals, which can be naturally-occurring or result from urban stormwater run-off, industrial or domestic wastewater discharges, oil and gas production, mining, or farming.
  • Pesticides and herbicides, which may come from a variety of sources such as agriculture, urban stormwater runoff, and residential uses.
  • Organic chemical contaminants, including synthetic and volatile organic chemicals, which are by-products of industrial processes and petroleum production, and can also come from gas stations, urban stormwater runoff, and septic systems.
  • Radioactive contaminants, which can be naturally-occurring or be the result of oil and gas production and mining activities.

Here’s a more detailed overview for you and if you want to think about a home water filter:

General water quality indicators

These indicators are parameters used to indicate the presence of harmful contaminants. Testing for indicators can eliminate costly tests for specific contaminants. Generally, if the indicator is present, the supply may contain the contaminant as well. A home water filter could be a good solution.

Indicator Acceptable Limit Indication Notes
pH value 6.5 to 8.5 An important overall measure of water quality, pH can alter corrosivity and solubility of contaminants. Low pH will cause pitting of pipes and fixtures or a metallic taste. This may indicate that metals are being dissolved. At high pH, the water will have a slippery feel or a soda taste. Some health professionals suggest that pH below 7.4 is more difficult for the body to convert but there is no scientific research to back this up.
Turbidity <5 NTU Clarity of sample can indicate contamination.
Total Dissolved Solids (TDS) 500 mg/l Dissolved minerals like iron or manganese. High TDS also can indicate hardness (scaly deposits) or cause staining, or a salty, bitter taste.

Water hardness

Hard water is often pointed out a negative thing but there is no scientific evidence that water hardness has health effects. However, it can cause scale buildup in hot water heaters and other home equipment and reduce their effective lifetime.

Hardness in mg/l Hardness Level
0-60 soft
61-120 moderately hard
121-180 hard
Above 181* very hard

* level at which most people find hardness objectionable

The World Health Organization says that “there does not appear to be any convincing evidence that water hardness causes adverse health effects in humans”.

Langelier saturation index (LSI) which tells you if hard water is likely to cause limescale.

Common nuisance contaminants and their effects.

While these have no or litlte adverse health effects, they may make water unpallatable (undesired to drink) or reduce the effectiveness of soaps and detergents. Some nuisance contaminants also cause staining. Nuisance contaminants may include iron bacteria, hydrogen sulfide, and hardness.

Contaminant Acceptable Limit Effects
Chlorides 250 mg/l salty or brackish taste; corrosive; blackens and pits stainless steel
Copper (Cu) 1.3 mg/l blue-green stains on plumbing fixtures; bitter metallic taste
Iron (Fe) 0.3 mg/l metallic taste; discolored beverages; yellowish stains, stains laundry
Manganese (Mn) 0.05 mg/l or 5 ppb black stains on fixtures and laundry; bitter taste
Sulfates (SO4) 250 mg/l greasy feel, laxative effect
Iron Bacteria present orangeish to brownish slime in water

Standards, symptoms, and potential health effects of regulated contaminants

These are some commons contaminants that have known health effects and should be included in the water report.

Contaminant Acceptable Limit Sources/Uses Potential Health Effects at High Concentrations
Atrazine 3 ppb or .003 ppm used as a herbicide; surface or ground water contamination from agricultural runoff or leaching heart and liver damage
Benzene 5 ppb or .005 ppm gasoline additive; usually from accidental oil spills, industrial uses, or landfills blood disorders like aplasticaremia; immune system depression; acute exposure affects central nervous system causing dizziness, headaches; long term exposure increases cancer risks
Lead at tap 0.015 ppm or 15 ppb used in batteries; lead gasolines and pipe solder; may be leached from brass faucets, lead caulking, lead pipes, and lead soldered joints nervous disorders and mental impairment, especially in fetuses and infants; kidney damage; blood disorders and hypertension; low birth weights
Nitrates (NO3) 10 mg/l (nitrate-N)
45 mg/l (nitrate)
soil by-product of agricultural fertilization; human and animal waste leaching to groundwater methemoglobinemaia (blue baby disease) in infants (birth to 6 months); low health threat to children and adults
Total Coliform <1 coliform/100 ml possible bacterial or viral contamination from human sewage or animal manure diarrheal diseases, constant high level exposure can lead to cholera and hepatitis
Radon 300 pCi/l* naturally occurring gas formed from uranium decay; can seep into well water from surrounding rocks and be released in the air as it leaves the faucet breathing gas increases chances of lung cancer; may increase risk of stomach, colon and bladder cancers

Note about lead: If present, elevated levels of lead can cause serious health problems, especially for pregnant women and young children. Lead in drinking water is primarily from materials and components associated with service lines and home plumbing. Lead is unlikely to appear in hard to very hard water.

* Recommended level in water at which remedial action should be taken. No mandatory standards have been set.

Other substances to look for

These substances are unlikely to be above the recommended limit and thus to cause any harm but could be included in the report.

Substance Acceptable Limit Sources/Uses Potential Health Effects at High Concentrations
Fluoride 1.5 mg / l traces of fluorides are present in many waters; higher concentrations are often associated with underground sources. elevated fluoride intakes can have effects on skeletal tissues; skeletal fluorosis (with adverse changes in bone structure) may be observed when drinking-water contains 3–6 mg of fluoride per litre.
Chloramine 3 mg / l Chloramines (Mocnchloramine, Dichloramines and Trichloramine) are present both in chlorinated water and potentially as vapour above the surface of the water. No short or long term health effects have been associated with Chloramine. The only exception is dialysis patients that should avoid chloramine entirely.
Cyanogen chloride 0.3 mg / l Cyanogen chloride may be formed as a by-product of chloramination or chlorination of water. It is also formed by the
chlorination of cyanide ion present in raw water.
On inhalation, a concentration of 2.5 mg/m3 causes irritation. Cyanogen chloride was used as a war gas in the First World War. A concentration of 120 mg/m3 was lethal.
Trihalomethanes (THM) 0.08 mg / l or 80 ppb Trihalomethanes are formed as a by-product predominantly when chlorine is used to disinfect water for drinking. Th emost common is Chloroform. The trihalomethanes have demonstrated carcinogenic activity in laboratory animals. (Cancer Group B)
Haloacetic acids 60 ug/l Haloacetics acid are formed as a by-product predominantly when chlorine is used to disinfect water for drinking Excessive levels can cause nervous system and liver effects.
Chloroform 0.07 mg / l or 70 ppb Part of the trihalomethanes (see above) but may be listed on it’s own. The trihalomethanes have demonstrated carcinogenic activity in laboratory animals. (Cancer Group B)
Chlorite 1 mg / l Part of the trihalomethanes (see above) but may be listed on it’s own. Excessive levels can cause hemolytic anemia.
Bromate 10 ug / l Part of the trihalomethanes (see above) but may be listed on it’s own. Excessive levels causes gastrointestinal, kidney, and hearing effects.



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