Growth and Physiological Responses of Four Plant Species to Different Sources of Particulate Matter

Abstract

Background and objective Particulate matter (PM) has a serious impact on health. Recently, studies are conducted to reduce PM in an environmentally friendly way using plants. This study investigated the physiological responses of plants and their ability to remove PM by continuously spraying different PM sources (loam, fly ash, carbon black) to four native plant species, such as <italic>Iris sanguinea</italic>, <italic>Pteris multifida</italic>, <italic>Vitis coignetiae</italic>, and <italic>Viburnum odoratissimum</italic> var. <italic>awabuki</italic>. Methods The four plant species were randomly placed in four chambers, and 0.1 g of different PM was injected into each chamber twice a week. We measured chlorophyll, carotenoid, chlorophyll fluorescence (Fv/Fm), total leaf area, amount of leaf wax, PM10 (sPM10) and PM2.5 (sPM2.5) on the leaf surface, and PM10 (wPM10) and PM2.5 (wPM2.5) on the wax layer. Results For <italic>I. sanguinea</italic> and <italic>V. coignetiae</italic>, the sources of PM did not affect the growth response. <italic>P. multifida</italic> showed high chlorophyll a, b, total chlorophyll, and carotenoid content in carbon black as well as high Fv/Fm and total leaf area, thereby proving that carbon black helped plant growth. By PM sources, sPM10 showed a significant difference in three plant species, sPM2.5 in two plant species, and wPM10 in one plant species, indicating that sPM10 was most affected by PM sources. Conclusion Carbon black increased the leaf area by affecting the growth of <italic>P. multifida</italic>. This plant can be effectively used for PM reduction by increasing the adsorption area. <italic>I. sanguinea</italic> and <italic>V. coignetiae</italic> can be used as economical landscaping plants since they can grow regardless of PM sources.