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Understanding Radon Measurement: What is pCi/L?

You’ve probably never come across the term “pCi/L” before, and that’s okay — it’s a unit of measurement most people don’t deal with daily. “pCi/L” stands for picocuries per liter, and it’s used specifically to measure radon levels. 

Radon, an invisible, odorless gas, is produced naturally as uranium in the soil, rock, and water breaks down. If not addressed, it can enter your home and become a serious health risk.

So, why should you care about pCi/L? It’s all about understanding the concentration of radon in your indoor air. Let’s break down this measurement and what it means for your safety.

What is pCi/L, and What Does pCi/L Stand For?

pCi/L, meaning picocuries per liter, is the unit used to measure radon levels. A picocurie is one trillionth of a curie, a unit of radioactivity. In simple terms, it indicates the number of radioactive decay events from radon occurring in one liter of air per second.

How is Radon Measured?

Radon is typically measured using devices like:

  • Short-term radon detectors, which monitor levels for 2-7 days.
  • Long-term radon tests, which provide a more accurate average over several months.

Both methods detect the rate of radioactive decay in the air, providing results in pCi/L.

What is pCi/L? What pCi/L means?

What Are Safe Radon pCi/L Levels?

No level of radon exposure is entirely risk-free, but the EPA recommends action when radon levels reach 4.0 pCi/L or higher. 

Here’s a breakdown of risk categories:

  • Low Risk (Below 2.0 pCi/L): These levels are generally considered safer, with minimal associated health risks. Regular testing is still important because radon levels can fluctuate due to seasonal changes or structural shifts in your home.
  • Moderate Risk (2.0–4.0 pCi/L): This range does not mandate immediate action, but radon exposure can still pose long-term risks, especially with prolonged exposure. Many homeowners choose to take proactive measures, like sealing foundation cracks or installing a mitigation system, to minimize radon levels further.
  • High Risk (Above 4.0 pCi/L): Levels at or above 4.0 pCi/L require immediate intervention. Radon mitigation systems are highly effective at reducing concentrations to safer levels. The EPA states that reducing radon levels below this threshold significantly decreases health risks, particularly for smokers, who are at an elevated risk of radon-induced lung cancer.

How to Interpret Radon pCi/L Levels

When you receive radon test results in pCi/L, understanding the levels helps you decide on the next steps:

  • Below 4.0 pCi/L: Monitor levels periodically, especially in high-risk areas.
  • Above 4.0 pCi/L: Take steps to reduce radon exposure through mitigation systems.

Put into perspective:

  • 4.0 pCi/L: At this level, the radon exposure is comparable to receiving 200 chest X-rays per year or smoking eight cigarettes daily. The EPA recommends taking corrective actions once radon levels reach this threshold in your home.
  • 8.0 pCi/L: This level doubles the risk, equating to 400 chest X-rays annually or smoking 16 cigarettes daily. The health implications become increasingly severe, and immediate remediation is critical.
  • 20.0 pCi/L: Exposure here is akin to undergoing 1,000 chest X-rays a year or smoking 40 cigarettes every day. At this concentration, the risks of long-term health issues, including lung cancer, are substantially heightened.

What to Do if You Have High Radon Levels

When radon levels in your home are above 4.0 pCi/L, immediate action is recommended to reduce the risk of exposure. Here are the steps you should take to address elevated radon levels:

  1. Install a Mitigation System: Radon mitigation systems reduce indoor radon by venting it outside. You can learn more about residential radon mitigation services here.
  2. Seal Entry Points: Cracks in foundations and walls can be sealed to minimize radon infiltration.
  3. Maintain Systems: Ensure ongoing effectiveness through system maintenance services.

For expert help, request a service from professionals who can assess and address your radon concerns.

What Are the Risks of Elevated Radon Levels?

Long-term exposure to radon increases the risk of developing serious respiratory illnesses and even cancer. 

The risk depends on:

  • Exposure Duration: Higher radon levels over long periods increase health risks.
  • Smoking Status: Smokers exposed to high radon levels face an exponentially higher risk.

Luckily, the technology we have today to combat rising radon levels is incredibly effective, and testing is highly reliable.

what is pCiL
Short-term Radon Test: Liquid Scintillation Test Kit
Radon-testing-PPC-header-image-01
Short-term Radon Test: Continuous Radon Monitor

How to Properly Monitor and Identify Radon Problems

Radon monitoring is essential to ensure a safe living environment, especially in areas prone to high gas levels. Since radon levels can fluctuate due to weather, seasons, and home conditions, consistent and thorough testing practices are necessary. 

Here are expanded tips for effectively monitoring and identifying radon issues in your home:

  • Test your home at least every two years or annually in high-radon regions.
  • Use both short-term and long-term testing for accurate results.
  • Test lower levels of your home, such as basements, where radon is most concentrated.

You can check radon levels in your area using this radon level search tool.

Understanding radon and its measurement in pCi/L is key to protecting your health. 

Regular testing, proper interpretation of results, and timely mitigation efforts ensure safer indoor environments for you and your family. 

Don’t wait—let our team at Protect Environmental test your home and install effective radon mitigation solutions to protect you and your family.

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Symptoms of Radon Exposure in Dogs and Other Pets

Did you know that sixty-six percent of U.S. households own a pet? That’s approximately 86.9 million families, according to the 2023-2024 National Pet Owners Survey. And with Americans projected to spend $150.6 billion on their pets in 2024, it’s clear we’re willing to go the extra mile for their well-being. Another way to care for our pets, is being  aware of the symptoms of radon exposure in dogs and pets. 

Radon is a hidden danger in many homes that often goes unnoticed. While most people know its health risks to humans, fewer realize its potential to harm our furry, feathered, and even scaly friends.

Let’s explore how radon affects pets, the symptoms of exposure, and the steps you can take to protect your loyal companions.

symptoms of radon in dog pets and cats

Radon Effects on Dogs and Your Other Pets

Radon is a radioactive gas that seeps into homes through cracks in foundations, walls, and crawl spaces. Pets, especially those spending most of their time indoors, can be exposed to elevated radon levels for long periods. 

Did you know? Humans spend about 90% of their time indoors, and our pets often spend even more. This prolonged exposure is a significant factor contributing to the alarming link between indoor environments and conditions like lung cancer in pets.

Like humans, pets are susceptible to radon’s harmful effects, which can cause cellular damage and increase the risk of lung cancer. 

But what differences do pets and humans face when it comes to exposure to radon?

Are Pets as Vulnerable as Humans?

Absolutely. Pets are often more vulnerable to radon exposure than humans. Their smaller lung capacity and higher breathing rates mean it takes less radon to cause harm. Additionally, they spend more time near the ground, where radon concentrations are highest.

How Pets Become Exposed to Radon

Several factors contribute to your pets’ radon exposure:

  • Proximity to radon hotspots: Homes in areas with naturally high radon levels.
  • Unsealed cracks or gaps: Openings in foundations or walls allow radon entry.
  • Time spent indoors: Pets that spend most of their lives indoors are consistently exposed to radon.

Radon Symptoms in Dogs and Other Pets

Radon exposure symptoms in pets can take time to appear and may resemble other illnesses, making early detection challenging. Understanding specific signs for different animals can help you act quickly.

Common symptoms to watch for:

  • Respiratory issues: Persistent coughing, difficulty breathing, or wheezing.
  • Appetite changes: Loss of appetite or sudden weight loss.
  • Lethargy: Decreased energy or unusual fatigue.
  • Vomiting or nausea: Frequent sickness without an apparent cause.
  • Abnormal swelling: Lumps or masses, particularly near the lungs.

Species-Specific Risks:

radon risk exposure pets dogs
Dogs

Radon poisoning in dogs may cause them to develop malignant tumors, including lung cancer or epidermal carcinomas. Breeds predisposed to cancer, like Golden Retrievers or Boxers, may be more susceptible to radon-related illnesses due to genetic factors.

Cats

Cats may experience respiratory distress resembling asthma. Chronic sneezing, wheezing, or labored breathing could indicate prolonged radon exposure.

Small Pets

Guinea pigs, hamsters, rabbits, and other small mammals are at higher risk due to their small size and faster metabolic rates. Symptoms like sudden lethargy, rapid weight loss, or respiratory distress may appear more quickly than larger animals.

Birds

Birds, especially those kept in enclosed spaces, are susceptible to airborne toxins. Wheezing, feather plucking, or a noticeable change in song or behavior could signal radon exposure.

If you notice these symptoms in your pets, consult a veterinarian immediately for diagnosis and treatment.

What to Do If You Suspect Radon Exposure in Pets

Many different conditions can cause your pets to develop the symptoms listed above. However, if you’ve conducted a radon test on your home and the results show higher levels, there is reason to suspect radon may be the culprit.

If you believe your pet has been exposed to radon:

  • Schedule a vet visit: Describe the symptoms and mention potential radon exposure. A vet may recommend imaging tests or biopsies to check for lung damage or tumors.
  • Radon Testing: The first step in safeguarding your pets is testing your home for radon. Passive tests, like charcoal canisters, are affordable and accessible, but professional testing ensures more accurate results. You can check the radon levels in your area here.
  • Radon Mitigation: The most effective way to reduce radon levels in your home is to install a radon mitigation system. These systems vent radon gas outside before it accumulates indoors.
  • Maintain Your Mitigation System: Ensure your mitigation system functions properly with regular maintenance.
  • Seal Cracks and Improve Ventilation: Seal cracks in your home’s foundation and improve ventilation in areas where pets spend time. Heat recovery ventilators can help circulate outdoor air and reduce radon concentration.

As pet owners, we’ll do whatever it takes to keep them healthy — from spending billions on vet bills to tackling unseen threats like radon. Regular testing, mitigation, and attention to your home’s indoor environment are simple yet vital steps in protecting your pets. 

After all, they give us unconditional love, and it’s only fair that we do the same in return.

For professional radon services or assistance, request a consultation with the experts at Protect Environmental today.

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When are radon levels highest?

If you are asking when radon levels are highest, you likely know enough about radon gas to understand that it is not something you want in your home at any time of year. Conducting a radon test is the first step in understanding your risk of radon exposure. Our advice? If you have never tested your home, go ahead and test, regardless of what time of year. Radon levels are almost always going to be higher in the colder winter months, so we also recommend conducting follow-up testing during the winter season to get a full picture of radon in your home year-round.

Why should you test for radon?

Radon is a known human carcinogen, the leading cause of lung cancer among non-smokers. This naturally occurring, radioactive, gas is created from the breakdown of uranium underground and seeps into buildings from small cracks in the foundation or plumbing. Testing for radon is the only way to know your risk of exposure.

How Radon Enters the Home

Radioactive radon particles are harmful to your lungs when breathed. Its radioactive properties can damage or mutate lung cells, which can result in cancer. More than 21,000 people die from radon-induced lung cancer every year. Exposure to radon is preventable with proper testing and mitigation in homes and buildings.

When are radon levels the highest?

On average, radon levels are the highest in the colder months, or the heating season. Radon levels are naturally affected by the changing seasons, atmospheric pressure, and precipitation throughout the year. However, temperature fluctuations have the greatest impact on indoor radon levels due to the differences in pressure put on the home.

When are radon levels highest winter

Why are radon levels higher in the winter?

Weather changes

Changing weather conditions can impact your indoor air quality. Various weather patterns are caused by atmospheric pressure changes. This can impact the air pressure in the soil as well, causing soil gases, including radon, to be pushed up toward the foundation of your home. These kinds of conditions could increase the possibility for radon and other soil gases to enter your home.

Snow barrier

The snow and ice also affect radon entry into buildings. When there is snow or ice surrounding the building, a barrier is created above the soil. Radon gas below the soil is then sealed under the ground below the foundation of the home. Radon, and other soil gases, will follow the path of least resistance. With a blanket of snow and ice surrounding your home, the path of least resistance is often cracks and openings in the foundation.

Thermal stack effect

A fundamental building science element is the thermal stack effect. This effect describes the movement of air inside and outside of the home due to natural laws of pressure. Cold air is more dense than warm air, meaning cold air falls and warm air rises. This law of pressure is always present, regardless of the season.

When a home or building is heated in the winter, warm indoor air naturally rises. Because warm air is less dense than cold air, it rises upward, escaping through the roof, vents, or other openings at the top of your home.

As warm air escapes, cold air is pulled in from below, much like a hot air balloon. The pressure difference creates a vacuum-like effect that sucks in the colder air from outside and from beneath the foundation.

Anything in the air below the foundation, regardless of the safety or quality of it, can be pulled into your home as a part of the process of the structure “breathing”. It is possible that hazardous soil gases are present, compromising your indoor air quality. Dangerous soil gas, including radioactive radon, can be sucked into homes and buildings at a faster rate during the colder months because of the thermal stack effect.

The thermal stack effect explains why radon levels are almost always higher in the winter. Simply put, outdoor air is being pulled into the home quicker and more frequently in the winter than in the summer. For this reason, the potential for being exposed to higher levels of radon in your home is greater in the colder winter months.

When Are Radon Levels Highest
Sealed Homes

When temperatures are more desirable, windows are opened creating more airflow throughout the home or building. Airflow can help dilute the radon gas buildup indoors and can improve your overall indoor air quality. Within tightly sealed buildings, there are few ways for gas particles to escape. Radon gas can then become more concentrated and build up to dangerous levels indoors.

Why test for radon in the winter?

Radon levels can and will fluctuate over time and with the changing seasons. Seasonal variability, stack effect, tightly sealed homes, and snowy barriers help us understand why radon and other soil gas levels are almost always higher in the colder months.

We have seen seasonal test results increase from a range of 1.8 – 2.2 pCi/L in the summer to a range of 28.0 – 32.0 pCi/L in the winter in the same building. The EPA recommends mitigation if the radon level is 4.0 pCi/L or higher. If you have only tested your home in the summer months, you may be unaware that your breathing air contains dangerous levels of radioactive radon in the winter.

The only way to know if your radon levels have fluctuated in the winter is to test. Also, if you have never tested or have not tested in the last five years, you should request a professional radon test as soon as possible.

Why Do Radon Levels Fluctuate?

Radon levels can vary throughout the year due to various environmental and structural factors. Most of the time, these fluctuations occur without homeowners realizing it, making regular testing crucial for safety. 

Here are the main factors that influence radon levels:

  • Weather Changes: Radon levels can rise due to atmospheric pressure shifts during storms or high winds. Lower outdoor air pressure creates a suction effect that pulls radon gas from the soil into homes, primarily through foundation cracks or gaps.
  • Seasonal Variations: Radon levels peak during colder months, mainly because homes are sealed for heating and trapping radon indoors. The “stack effect,” where warm indoor air rises and escapes, pulling in radon-laden air from the ground, is especially prominent in winter.
  • Soil Moisture and Composition: Saturated or frozen soil can trap radon gas, causing it to accumulate. Conversely, dry, loose soil allows radon to escape into the atmosphere more quickly. Seasonal changes in soil moisture, like heavy rain or freezing conditions, can influence radon entry into homes​.
  • Home Ventilation: Proper ventilation can reduce radon levels by allowing fresh air to dilute indoor radon. During warmer months, when windows are open, radon concentrations typically decrease. In contrast, tightly sealed homes, particularly in winter, can lead to radon buildup.
  • Building Activity: Construction near homes, including foundation work or digging, can disrupt the soil and create new pathways for radon to enter. Retesting for radon is often recommended after such activities​.

Understanding these factors is crucial for homeowners to make informed decisions about when and how often to test for radon. This ensures that any seasonal or environmental fluctuations are addressed before they become a health risk.

How to reduce your risk of radon exposure all year long

If your radon levels are elevated, installing a mitigation system is the next step. You will want to make sure your mitigation system is installed by a qualified professional who is certified and/or licensed. Unfortunately, mitigation systems can be completely ineffective if installed incorrectly or designed for a lower pressure level in the home.

  1. Test for radon in different seasons or conduct a long-term test to understand how radon levels fluctuate in your home.
  2. If levels are elevated, work with a qualified professional to install a radon mitigation system in your home.
  3. Have your mitigation system serviced annually by a qualified professional to ensure your system continues to function correctly.
  4. If you have a mitigation system, test every two years to ensure that you are continuing to be protected against radon exposure.

"A properly designed and installed mitigation system is essential in preventing exposure to cancer-causing radon gas. Unfortunately, many radon contractors fail to take the seasonal pressure differential variances within the home into consideration when designing the system, leading to the homeowner being unknowingly exposed to unsafe levels of radon during certain times of the year." 

- Kyle Hoylman, CEO of Protect Environmental

Is your radon mitigation system affected during the colder months?

If you had a mitigation system installed in the warmer months, test again during the winter season to make sure your system is continuing to keep you safe with the cold weather changes. If your mitigation system was designed for a lower pressure level during the warmer months, it could be essentially ineffective and elevated radon levels could still be in your home or building.

We recommend testing every two years, even if you have a mitigation system installed, because of these seasonal fluctuations. Consider testing in the colder months or conduct a long-term radon test to get a complete picture of the radon levels in your home year-round.

Key Takeaways:

  • Radon levels can and will be affected by seasonal variability.
  • Indoor radon levels are normally at the highest in the winter or colder months because of the thermal stack effect, a snowy barrier, and tightly sealed homes.
  • Cold temperatures increase the pressure within the home, meaning more air is being pulled in from the ground, which elevates the risk of radon entering the home.
  • Test your home and other buildings in the colder months to get a complete picture of radon exposure.
  • Test your home every two years to ensure your radon mitigation system continues to protect your home from radon in higher pressure conditions caused by colder temperatures.

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