Abstract
Abstract. Poor air quality is the world's single largest environmental health risk, and air quality monitoring is crucial for developing informed air quality policies. Efforts to monitor air pollution in different countries are uneven, largely due to the high capital costs of reference air quality monitors (AQMs), especially for airborne particulate matter (PM). In sub-Saharan Africa, for example, few cities operate AQM systems. It is thus important to examine the potential of alternative monitoring approaches. Although PM measurements can be obtained from low-cost optical particle counters (OPCs), data quality can be an issue. This paper develops a new method using raw aerosol size distributions from multiple, surface-based low-cost OPCs to constrain the Multiangle Imaging SpectroRadiometer (MISR) component-specific, column aerosol optical depth (AOD) data, which contain some particle-size-resolved information. The combination allows us to derive surface aerosol concentrations for particles as small as ∼0.1 µm in diameter, which MISR detects but are below the OPC detection limit of ∼0.5 µm. As such, we obtain better constraints on the near-surface particulate matter (PM) concentration, especially as the smaller particles tend to dominate urban pollution. We test our method using data from five low-cost OPCs deployed in the city of Nairobi, Kenya, from 1 May 2016 to 2 March 2017. As MISR passes over Nairobi only once in about 8 d, we use the size-resolved MISR AODs to scale the more frequent Moderate Resolution Imaging Spectrometer (MODIS)-derived AODs over our sites. The size distribution derived from MISR and MODIS agrees well with that from the OPCs in the size range where the data overlap (adjusted-R2∼0.80). We then calculate surface-PM concentration from the combined data. The situation for this first demonstration of the technique had significant limitations. We thus identify factors that will reduce the uncertainty in this approach for future experiments. Within these constraints, the approach has the potential to greatly expand the range of cities that can afford to monitor long-term air quality trends and help inform public policy.
Highlights
Near-surface particulate matter (PM), airborne particles, known as aerosol, is a major pollutant that affects air quality, and many countries are taking measures to decrease PM levels
In sub-Saharan Africa, for example, few countries operate air quality monitoring systems, and most countries lack any air quality monitoring capabilities at all, even though the limited observations that do exist show PM levels harmful to human health. This is because air quality monitoring equipment tends to be costly to purchase and maintain, and data processing and analysis require additional expertise and resources
The Alphasense optical particle counters (OPCs)-N2 is unique among low-cost sensors as, in addition to PM estimates, it reports the raw particle counts in 16 bins based on particle diameter, ranging from 0.38 to 17.5 μm, which is critical to our method
Summary
Near-surface particulate matter (PM), airborne particles, known as aerosol, is a major pollutant that affects air quality, and many countries are taking measures to decrease PM levels. The Nairobi case entails some important limitations for the current application; the AOD over the region was relatively low, and there were no independent measurements of aerosol vertical distribution or any surface-based, high-quality reference air quality monitors to help with validation. It is the only location where we have a significant record of coincident, ground-based low-cost OPC data.
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