Water Quality InformationWritten By Actual Experts

Analies Dyjak  |  Policy Nerd

For Hydroviv’s assessment of Chattanooga, Tennessee’s drinking water, we collected water quality test data from the city’s Consumer Confidence Report and the U.S. Environmental Protection Agency. We cross referenced Chattanooga’s water quality data with toxicity studies in scientific and medical literature. The water filters that we sell at Hydroviv are optimized to filter out contaminants that are found in Chattanooga’s drinking water.

Where Does Chattanooga Source Its Drinking Water?

Chattanooga sources its drinking water primarily from the Tennessee River. Chattanooga's tap water is treated at the Tennessee American Water Citico Water Treatment Plant before being distributed to over 177,000 people in Chattanooga.

Disinfection Byproducts In Chattanooga’s Drinking Water

In recent years, Chattanooga's water quality has had a major problem with disinfection byproducts or DBPs. DBPs form when chlorine-based disinfectants that are routinely added to treat incoming water, react with organic matter. DBPs are split into two categories; Haloacetic Acids-5 (HAA5) and Total Trihalomethanes (TTHMs). Concentrations of TTHMs averaged 70 parts per billion, but were detected as high as 89.1 parts per billion in Chattanooga water. HAA5 concentrations averaged 41.8 parts per billion and reached levels as high as 51.4 parts per billion. For a bit of perspective, EPA's Maximum Contaminant Level for HAA5 is 60 parts per billion and 80 parts per billion for TTHMs. While technically still in compliance, these levels are definitely high. Disinfection Byproducts are a category of emerging contaminants which means they have been detected in drinking water but the risk to human health is unknown. Regulatory agencies have very little knowledge about the adverse health effects of DBPs, and their toxicity.

Lead In Chattanooga’s Drinking Water

Next is lead. Lead enters Chattanooga's tap water through old lead service pipes and lead-containing plumbing. 10% of sites that were tested for lead had concentrations over 2 parts per billion. Environmental Protection Agency, Center for Disease Control, and American Academy of Pediatrics all recognize that there is no safe level of lead for children. While this years lead concentrations in Chattanooga are relatively low compared to other municipalities in the US, lead is a neurotoxin that can potentially be harmful at any concentration. 

It’s important to note that only a handful of contaminants are required to be included in annual Consumer Confidence Reports, and that there are hundreds of potentially harmful unregulated contaminants that aren’t accounted for. If you’re interested in learning more about water filters that have been optimized for Chattanooga’s tap water quality, feel free to visit www.hydroviv.com to talk to a Water Nerd on our live chat feature or send us an email at hello@hydroviv.com.

Analies Dyjak  |  Policy Nerd

Lead contamination in drinking water is a huge problem for municipalities with an older infrastructure. Lead contamination occurs when water comes in contact with lead pipes. This article discusses a common additive used to combat lead pipe corrosion.

What is Orthophosphate?

Orthophosphate is a common corrosion inhibitor used by water suppliers to prevent lead pipes from leaching. When orthophosphate water treatment is added to a water source, it reacts with lead to create a mineral-like crust inside of the lead pipe. This crust acts as a coating which prevents further lead corrosion. The use of orthophosphate treatment in drinking water became popularized in 2001, during the lead crisis in Washington, D.C. Lead contamination in many cities including D.C. and Flint, occurs when a city’s water becomes more corrosive, which can allow for lead from pipes to leach into the drinking water supply. When the lead problem initially occurred, cities such as Flint, Michigan, Durham and Greenville, North Carolina, and Jackson, Mississippi didn’t learn from D.C’s mistakes and all had lead outbreaks. 

Does Orthophosphate Fix Lead Contamination?

It certainly can. Once the protective layer is formed, cities can find that lead concentrations in the water drop by 90%. However, Orthophosphate is somewhat of a bandaid to temporarily fix the presence of lead in drinking water. For example, if the protective layer is corroded away or otherwise disturbed (e.g. in the case of a partial service line replacement or the water’s corrosivity changes), lead can leach back into the water. Finally, not all municipalities are adding orthophosphate to drinking water because of its cost. If you have any questions regarding lead prevention in drinking water, send us an email at hello@hydroviv.com.

*Updated 3/2/22 to include recent study*

Analies Dyjak  |  Policy Nerd

Heavy rains and snowmelt can carry a lot of unwanted contaminants into drinking water sources. Here’s how stormwater runoff can affect your water.

How Does Stormwater Affect Drinking Water?

Heavy rain storms create a rapid influx of water, which can cause a host of health and environmental issues. Rainwater travels to low-lying bodies of water, including oceans, lakes, rivers, streams, and aquifers. Both surface and groundwater are susceptible to contamination from stormwater runoff, both of which are sources of drinking water. As water travels, it picks up loose debris, pesticides, herbicides, oil, and other types of pollution in its path. This cocktail of contaminants is then dumped into a nearby waterway. Some municipal water treatment facilities are equipped to deal with these types of contamination, while others are not. 86% of the U.S. population gets their drinking water from surface water sources, so maintaining clean lakes and rivers is extremely important for managing stormwater runoff pollution in drinking water.

Road Salt and Drinking Water Contamination 

70% of the US population lives in areas that experience ice and snow, and rely heavily on road salts and other deicing techniques to maintain road safety. Road salts are crucial for decreasing automobile accidents, but they can have some unintended consequences on the environment. A recent study found that freshwater contamination from these deicing materials causing significant increases in the salinity of the freshwater, resulting in issues with native wildlife and widespread contamination of drinking water supplies. The contamination is primarily from excess chloride and sodium, which affects both surface water and groundwater, for municipal water suppliers as well as private wells. In addition, deicing salts can leach heavy metals (such as mercury, lead, cadmium, copper, and zinc) from sediment and plumbing pipes into the drinking water. In groundwater, sodium can also mobilize dissolved radium, increasing the risk of radon exposure to homeowners.

What Are Combined Sewer Overflows or CSO’s?

Combined Sewer Overflows or CSO’s, are a system of underground canals that collect stormwater runoff, industrial wastewater, and sewage all in the same pipe. Under normal conditions, stormwater and sewage travels to a wastewater plant where it’s treated before being discharged into a body of water. During heavy rain events, the large influx of stormwater causes pipes to exceed the capacity of the the system. Untreated wastewater, including sewage, overflows into nearby oceans, lakes, rivers or streams or wherever a stormwater discharge output exists. CSO’s were used as early as the 1850’s, and were the only system in place to deal with such high volumes of water. Many cities have replaced CSO’s with advanced infrastructure, but cities such as Portland, Maine and Cambridge, Massachusetts still use them.

Impervious Surfaces and Stormwater

Impervious surfaces are developed areas where water is unable to infiltrate into the earth. This typically refers to paved roads, roofs, and sidewalks. When water is unable to infiltrate, it flows into the nearest body of water or wastewater system. Impervious surfaces are of concern because water picks up and carries dangerous contaminants, then deposits pollution into drinking water sources. Impervious surfaces also increase the impacts from floods. Unable to percolate, water sits on top of paved roads, increasing the flood potential and presence of biological contamination. As communities continue to develop, the area of paved or impervious surface increases as well.

Wetlands: Important for Stormwater Retention

Wetlands offer remarkable protection from the impacts of flooding and other stormwater damages. Wetlands absorb incoming water and release it slowly, acting as a natural sponge. According to the U.S Army Corps of Engineers, the state wetland conservation along the Charles River in Boston, Massachusetts saved approximately $17 million in potential flood damage. Additionally, wetlands naturally filter stormwater runoff pollution. The fast-moving water is slowed by vegetation, which allows suspended sediment and pollution to fall to the bottom.

Analies Dyjak, M.A.  |  Water Nerd

For Hydroviv’s assessment of Omaha, Nebraska drinking water, we collected water quality test data from the city’s Consumer Confidence Report and the U.S. Environmental Protection Agency. We cross referenced Omaha's water quality data with toxicity studies in scientific and medical literature. The water filters that we sell at Hydroviv are optimized to filter out contaminants that are found in Omaha's drinking water.

Where Does Omaha Source Its Drinking Water? 

Omaha draws its tap and drinking water from the Missouri River, Platte River, and the Dakota Sandstone aquifer.

Lead in Omaha’s Drinking Water

Lead enters tap water through older lead service pipes and lead-containing plumbing, soldered joints, and fixtures. Based on the 2017 water quality report, lead levels in Omaha ranged from 0.5 to 14.9 parts per billion. 10% of taps had levels over 6.4 parts per billion, which is barely in compliance with the loose EPA standard of 15 parts per billion. However, if you were to ask toxicologists, pediatricians, or the CDC they would all tell you that there is no safe minimum level of lead. Lead is a neurotoxin that can have serious developmental effects on children.

Arsenic in Omaha’s Drinking Water

Arsenic is a heavy metal that typically leaches into groundwater as surrounding bedrock naturally weathers overtime. According to the most recent data, Arsenic concentrations ranged from 1 to 3.93 parts per billion in Omaha drinking water. EPA set a Maximum Contaminant Level of 10 parts per billion for Arsenic, but several health and regulatory agencies believe this level should be reduced to 1 or even 0 parts per billion. Arsenic is a toxic substance that is linked to a long list of health problems in humans. For example, arsenic can cause a number of different cancers (e.g. skin, bladder, lung, liver, prostate), as well as create non-cancerous problems with cardiovascular (heart/blood vessels), pulmonary (lungs), immune, neurological (brain), and endocrine (e.g. diabetes) systems. Hydroviv recommends purchasing a filter that is optimized to remove Arsenic from your drinking water, especially if you’re serviced by a private well.

Disinfection By-Products in Omaha’s Drinking Water

When water treatment facilities sanitize the water with chemicals such as chlorine, different contaminants can be created. These types of contaminants are called Disinfectant by products or DBPs. They are split into two categories: Total Trihalomethanes (TTHMs) and Haloacetic Acids-5 (HAA5). Concentrations of TTHMs averaged 40.2 parts per billion but were detected as high as 66.5 parts per billion. HAA5 concentrations averaged 19.6 parts per billion but were detected as high as 37.6 parts per billion. For a bit of perspective, EPA set a Maximum Contamination Level of 80 parts per billion for TTHMs and 60 parts per billion for HAA5.

Chromium 6 In Omaha’s Drinking Water

Chromium 6 is an unregulated toxic metal that's associated with metal processing, tannery facilities, chromate production, stainless steel welding, and pigment production. Concentrations of Chromium 6 were found to be ranging from 130 parts per trillion to 1400 parts per trillion. These levels are nearly 70 times higher than the concentration determined to have a negligible impact on cancer risk. EPA has acknowledged that Chromium 6 is a known human carcinogen through inhalation, but is still determining its cancer potential through ingestion of drinking water. Lung, nasal and sinus cancers are associated with Chromium 6 exposure. Ingestion of extremely high doses of chromium 6 compounds can cause acute respiratory disease, cardiovascular, gastrointestinal, hematological, hepatic, renal, and neurological distress which may result in death.

Synthetic Organic Contaminants in Omaha's Drinking Water

Di(2-ethylhexyl)phthalate was also detected in Omaha's drinking water. This chemical is known for its ability to make plastic flexible. A toxicology report has shown that this chemical is known to cause reproductive problems in young males, stomach pains, and is labeled as a probable carcinogen. EPA set a Maximum Contaminant Level of 6 parts per billion for this contaminant. The Omaha water quality problem report detected concentrations of these chemicals ranging from less than 2 parts per billion to 3.11 parts per billion.

Other Articles We Think You Might Enjoy:
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Disinfection Byproducts In Drinking Water: What You Need To Know
5 Things To Know About Arsenic In Drinking Water

Ernesto Esquivel  |  Water Nerd

For Hydroviv’s assessment of Columbus drinking water, we collected water quality test data from the city’s Consumer Confidence Report and the U.S. Environmental Protection Agency. We cross referenced Columbus water quality data with toxicity studies in scientific and medical literature. The water filters that we sell at Hydroviv are optimized to filter out contaminants that are found in Columbus drinking water.

Where Does Columbus Source Its Drinking Water?

Columbus sources its drinking water from the Scioto River, Big Walnut Creek, and groundwater from the Scioto River Valley. The city is serviced by three water treatment plants that each take care of a certain area of the city. The three plants are the Dublin Road treatment plant (DRWP), the Hap Cremean Water Plant (HCWP), and the Parsons Avenue Water Plant (PAWP).

Chromium 6 In Columbus Drinking Water

Chromium 6 is a highly toxic metal that is currently unregulated by the EPA. In recent years, Columbus city water has had a problem with this dangerous contaminant. Chromium 6 pollution is associated with metal processing, tannery facilities, chromate production, stainless steel welding, and pigment production. In this years water quality report, concentrations of Chromium 6 were detected as high as 0.35 parts per billion in certain groundwater sources. These levels are 17 times higher than the concentration determined to have a negligible impact on cancer risk. EPA has acknowledged that Chromium 6 is a known human carcinogen through inhalation, but is still determining its cancer potential through ingestion of drinking water. Lung, nasal and sinus cancers are associated with Chromium 6 exposure. Ingestion of extremely high doses of chromium 6 compounds can cause acute respiratory disease, cardiovascular, gastrointestinal, hematological, hepatic, renal, and neurological distress which may result in death.

Disinfection Byproducts In Columbus Drinking Water

Columbus city water problems also includes high concentrations of disinfection byproducts or DBPs. DBPs are formed when chlorine-based disinfectants react with organic matter. They are split into two categories: Total Trihalomethanes (TTHMs) and Haloacetic Acids-5 (HAA5). Concentrations of HAA5 averaged 29.4 parts per billion at DRWP, 45.3 parts per billion at HCWP, and 8.4 parts per billion at PAWP. Concentrations of TTHMs averaged 40.2 parts per billion at DRWP, 53 parts per billion at HCWP, and 34.1 parts per billion in PAWP. For a bit of perspective, EPA’s Maximum Contaminant Level for HAA5 is 60 parts per billion and 80 parts per billion for TTHMs. Disinfection Byproducts are a category of emerging contaminants which means they have been detected in drinking water but the risk to human health is unknown. Regulatory agencies have very little knowledge about the adverse health effects of DBPs, and their toxicity. EPA has stated that they have been linked to an increased risk of bladder cancer, as well as kidney, liver, and central nervous system problems.

It’s important to note that only a handful of contaminants are required to be included in annual Consumer Confidence Reports, and that there are hundreds of potentially harmful unregulated contaminants that aren’t accounted for. If you’re interested in learning more about water filters that have been optimized for Columbus tap water quality, feel free to visit www.hydroviv.com to talk to a Water Nerd on our live chat feature or send us an email at hello@hydroviv.com.