Abstract
Nitrogen dioxide (NO2) is a significant pollutant in both outdoor and indoor environments with exposure linked to serious respiratory illnesses, decreased lung function and airway inflammation. Here, we investigate whether potted plants can contribute as a simple and cost-effective indoor air pollution mitigation technique. Our study investigates the ability of the combination of the three plant species Spathiphyllum wallisii ‘Verdi’, Dracaena fragrans ‘Golden Coast’ and Zamioculcas zamiifolia with two different growing media to remove in situ concentrations (100 ppb) of NO2 in real-time at two typical indoor light levels (0 and 500 lx) and in ‘wet’ and ‘dry’ growing media conditions. All studied ‘growing medium–plant systems’ were able to reduce NO2 concentrations representative of a polluted urban environment, but to varying degrees. The greatest NO2 removal measured inside a 150 L chamber over 1-h period in ‘wet’ growing media at ~ 500 lx was achieved by D. fragrans. When accounting for dilution, this would correspond to a removal of up to 3 ppb NO2 per m2 of leaf area over the 1-h test period and 0.62 ppb per potted plant over the same period when modelled for a small office (15 m3) in a highly polluted environment. Depending on building ventilation rates and NO2 concentration gradients at the indoor-outdoor interface that will vary massively between polluted urban and rural locations, potted plants offer clear potential to improve indoor air quality—in particular in confined indoor spaces that are poorly ventilated and/or located in highly polluted areas.
Highlights
Nitrogen oxides (NOx) in urban environmentsNitrogen oxides ( NOx) have been shown to react to produce ground level ozone, increase susceptibility to ill health, respiratory infections and affect soil chemistry (DEFRA 2019)
In ‘typical’ light under ‘wet’ growing media conditions a statistically significant difference in NO2 removal was measured between Dracaena fragrans ‘Golden Coast’ and bare growing media
Statistical differences were measured for Zamioculcas zamiifolia between the treatments ‘no’ light ‘wet’ and ‘typical’ light ‘wet’
Summary
Nitrogen oxides ( NOx) have been shown to react to produce ground level ozone, increase susceptibility to ill health, respiratory infections and affect soil chemistry (DEFRA 2019). Within the UK, 34% of the NOx is produced by road transport (DEFRA 2019). The most noxious component of NOX is the pollutant nitrogen dioxide (NO2) (WHO 2010). The UK government has set aside £255 million in the form of ‘the NO2 plan’, implementing mitigation measures to reduce roadside emissions such as bus retrofits, clean air zones, traffic signal improvements and the phase out of diesel cars by 2040 (DEFRA 2017, 2019); as a pollutant, NO2 infiltrates indoor environments (WHO 2010).
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