Your search keyword '"in-wax PM (wPM)"' showing total 2 results

1. Assessment of Air Pollution Tolerance and Particulate Matter Accumulation of 11 Woody Plant Species

Author

Huong-Thi Bui, Uuriintuya Odsuren, Kei-Jung Kwon, Sang-Yong Kim, Jong-Cheol Yang, Na-Ra Jeong, and Bong-Ju Park

Subjects

anticipated performance index (API), air pollution tolerance index (APTI), leaf surface PM (sPM), in-wax PM (wPM), biochemical characteristics, Meteorology. Climatology, QC851-999

Abstract

High concentration of particulate matter (PM) threatens public health and the environment. Increasing traffic in the city is one of the main factors for increased PM in the air. Urban green spaces play an important role in reducing PM. In this study, the leaf surface and in-wax PM (sPM and wPM) accumulation were compared for 11 plant species widely used for landscaping in South Korea. In addition, biochemical characteristics of leaves (ascorbic acid chlorophyll content, leaf pH, and relative water content) were analyzed to determine air pollution tolerance. Plant species suitable for air quality improvement were selected based on their air pollution tolerance index (APTI) and anticipated performance index (API). Results showed a significant difference according to the accumulation of sPM and wPM and the plant species. PM accumulation and APTI showed a positive correlation. Pinus strobus showed the highest PM accumulation and APTI values, while Cercis chinensis showed the lowest. In 11 plants, API was divided into five groups. Pinus densiflora was classified as the best group, while Cornus officinalis and Ligustrum obtusifolium were classified as not recommended.

Published

2021

2. Assessment of Air Pollution Tolerance and Particulate Matter Accumulation of 11 Woody Plant Species.

Author

Bui, Huong-Thi, Odsuren, Uuriintuya, Kwon, Kei-Jung, Kim, Sang-Yong, Yang, Jong-Cheol, Jeong, Na-Ra, and Park, Bong-Ju

Subjects

*PARTICULATE matter, *PLANT species, *AIR quality indexes, *CITY traffic, *AIR pollution, *WHITE pine, *WOODY plants, *URBAN plants

Abstract

High concentration of particulate matter (PM) threatens public health and the environment. Increasing traffic in the city is one of the main factors for increased PM in the air. Urban green spaces play an important role in reducing PM. In this study, the leaf surface and in-wax PM (sPM and wPM) accumulation were compared for 11 plant species widely used for landscaping in South Korea. In addition, biochemical characteristics of leaves (ascorbic acid chlorophyll content, leaf pH, and relative water content) were analyzed to determine air pollution tolerance. Plant species suitable for air quality improvement were selected based on their air pollution tolerance index (APTI) and anticipated performance index (API). Results showed a significant difference according to the accumulation of sPM and wPM and the plant species. PM accumulation and APTI showed a positive correlation. Pinus strobus showed the highest PM accumulation and APTI values, while Cercis chinensis showed the lowest. In 11 plants, API was divided into five groups. Pinus densiflora was classified as the best group, while Cornus officinalis and Ligustrum obtusifolium were classified as not recommended. [ABSTRACT FROM AUTHOR]

Published

2021