Geologic, seasonal, and atmospheric predictors of indoor home radon values.

Ellen J Hahn, William C Haneberg, Stacy R Stanifer, Kathy Rademacher, Jason Backus, Mary Kay Rayens
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引用次数: 1

Abstract

Exposure to tobacco smoke and radon cause lung cancer. Radioactive decay of naturally occurring uranium in bedrock produces radon. Seasonality, bedrock type, age of home, and topography have been associated with indoor radon, but the research is mixed. The study objective was to examine the relationships of geologic (soil radon and bedrock) and seasonal (warm and cold times of the year) factors with indoor home radon values in citizen scientists' homes over time, controlling for atmospheric conditions, topography, age of home, and home exposure to tobacco smoke. We collected and analyzed indoor radon values, soil radon gas concentrations, and dwelling- and county-level geologic and atmospheric conditions on 66 properties in four rural counties during two seasons: (1) summer 2021 (n = 53); and (2) winter/spring 2022 (n = 52). Citizen scientists measured indoor radon using Airthings radon sensors, and outdoor temperature and rainfall. Geologists obtained soil radon measurements using RAD7 instruments at two locations (near the dwelling and farther away) at each dwelling, testing for associations of indoor radon values with soil values, bedrock type, topography, and atmospheric conditions. Bedrock type, near soil radon levels, home age, and barometric pressure were associated with indoor radon. Dwellings built on carbonate bedrock had indoor radon values that were 2.8 pCi/L (103.6 Bq m-3) higher, on average, compared to homes built on siliclastic rock. Homes with higher near soil radon and those built <40 ago were more likely to have indoor radon ⩾4.0 pCi/L (148 Bq m-3). With higher atmospheric barometric pressure during testing, observed indoor radon values were lower. Seasonality and topography were not associated with indoor radon level. Understanding relationships among bedrock type, soil radon, and indoor radon exposure allows the development of practical predictive models that may support pre-construction forecasting of indoor radon potential based on geologic factors.

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室内氡值的地质、季节和大气预测因子。
接触烟草烟雾和氡会导致肺癌。基岩中天然存在的铀的放射性衰变产生氡。季节性、基岩类型、家庭年龄和地形都与室内氡有关,但研究结果好坏参半。研究目的是在控制大气条件、地形、家庭年龄和家庭暴露于烟草烟雾的情况下,研究地质因素(土壤氡和基岩)和季节因素(一年中温暖和寒冷的时间)与公民科学家家中室内氡值的关系。我们在两个季节收集并分析了四个农村县66个物业的室内氡值、土壤氡气浓度以及住宅和县级地质和大气条件:(1)2021年夏季(n = 53);(2) 2022年冬季/春季(n = 52)。民间科学家使用Airthings氡传感器测量室内氡,以及室外温度和降雨量。地质学家在每个住所的两个地点(住所附近和更远)使用RAD7仪器获得土壤氡测量值,测试室内氡值与土壤值、基岩类型、地形和大气条件的关联。基岩类型、附近土壤氡水平、家庭年龄和气压与室内氡有关。建在碳酸盐基岩上的住宅的室内氡值平均比建在硅质岩石上的住宅高2.8 pCi/L (103.6 Bq m-3)。附近土壤氡含量较高的房屋和建造的房屋。测试期间,大气压力越高,室内氡值越低。季节和地形与室内氡水平无关。了解基岩类型、土壤氡和室内氡暴露之间的关系,可以开发实用的预测模型,从而支持基于地质因素的室内氡潜势的施工前预测。
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