What is the mechanism behind the increased radon indoors during cold weather?

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Prepare for the AP Environmental Science (APES) test on Atmospheric Pollution. Use flashcards and multiple choice questions with detailed explanations to enhance your understanding of key concepts. Perfect your test readiness now!

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What is the mechanism behind the increased radon indoors during cold weather?

In cold weather, heating the inside of a building creates a stack effect: warm indoor air rises and leaks out of the upper parts of the house, while cooler air is drawn in at the bottom. This movement lowers the air pressure at the foundation, pulling soil gas from beneath the house into the living space through cracks and openings. That soil gas carries radon, so indoor radon levels rise when the indoor–outdoor temperature difference drives this suction.

Radon production in the soil itself doesn’t suddenly increase in winter, and radon is a gas that won’t condense with cold air. Higher indoor ventilation would actually dilute radon rather than raise it.

What is the mechanism behind the increased radon indoors during cold weather?

Prepare for the AP Environmental Science (APES) test on Atmospheric Pollution. Use flashcards and multiple choice questions with detailed explanations to enhance your understanding of key concepts. Perfect your test readiness now!

What is the mechanism behind the increased radon indoors during cold weather?

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