Abstract

The formation and pollution of particulate matter (PM), a side effect of rapid industrialization and urbanization, is considered a global issue. However, various plant species are able to effectively capture and reduce atmospheric PM concentrations. We investigated the indoor growth and morphology of 21 indigenous Korean evergreen species at low light intensities to ascertain their ability to reduce PM of aerosol particles in a closed acrylic chamber. The decrease in PM mass concentration differed significantly across species, with a significant correlation (8 h; <i>p</i> < 0.001). The reduction in the mass concentration of PM differed with particle size and across species. The highest reduction of PM_2.5 occurred after 8 h with <i>Dryopteris lacera</i> (86.8%), <i>Ilex × wandoensis</i> (84.9%), <i>Machilus thunbergii</i> (84.3%), and <i>Rhododendron brachycarpum</i> (84.0%). Reduction of PM₁₀ after 8 h was highest with <i>Cephalotaxus harringtonii</i> (98.3%), <i>I. × wandoensis</i> (98.5%), <i>M. thunbergii</i> (98.5%), and <i>R. brachycarpum</i> (98.3%). Plant morphological characteristics (category, plant height, leaf shape, leaf area) and relative humidity were closely related to the decrease in PM mass concentration. In conclusion, our findings can be used to identify Korean plant species that can reduce PM concentration and are suitable for indoor use.