Abstract
Low-cost air quality stations can provide useful data that can offer a complete picture of urban air quality dynamics, especially when integrated with daily measurements from reference air quality stations. However, the success of such deployment depends on the measurement accuracy and the capability of resolving spatial and temporal gradients within a spatial domain. In this work, an ensemble of three low-cost stations named “AirQino” was deployed to monitor particulate matter (PM) concentrations over three different sites in an area affected by poor air quality conditions. Data of PM2.5 and PM10 concentrations were collected for about two years following a protocol based on field calibration and validation with a reference station. Results indicated that: (i) AirQino station measurements were accurate and stable during co-location periods over time (R2 = 0.5–0.83 and RMSE = 6.4–11.2 μg m−3; valid data: 87.7–95.7%), resolving current spatial and temporal gradients; (ii) spatial variability of anthropogenic emissions was mainly due to extensive use of wood for household heating; (iii) the high temporal resolution made it possible to detect time occurrence and strength of PM10 concentration peaks; (iv) the number of episodes above the 1-h threshold of 90 μg m−3 and their persistence were higher under urban and industrial sites compared to the rural area.
Highlights
Citizen participation in public debates on life quality is greatly increasing
Outcomes from the PATOS regional project [18], various Tuscany region reports [17], and scientific studies [19] reveal that the area is the most polluted among all sampling sites throughout the Tuscany region, with annual PM10 concentrations and number of daily exceedances higher than those registered over other much more urbanized areas of the region
The daily measured concentrations of PM10 and PM2.5 are available from the ARPAT website
Summary
Citizen participation in public debates on life quality is greatly increasing. Topics such as environmental monitoring and related scientific activities are attracting increasing interest. Such interest is strong for those citizens living in the most urbanized areas, where industrial activities, heavy traffic, and intense heating usage are the most critical sources of air pollution. Such emissions affect public air quality and, in turn, health conditions [1,2,3,4].
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