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Impact of atmospheric particulate matter retention on physiological characters of five plant species under different pollution levels in Zhengzhouopen access

Authors
He, DanYuan, JiangqinLin, RunzeXie, DongboWang, YifeiKim, GunwooLei, YakaiLi, Yonghua
Issue Date
Sep-2024
Publisher
PeerJ
Keywords
Landscape plants; Air pollution; Particulate matter; Dust retention; Physiological response
Citation
PeerJ, v.12, no.9, pp 1 - 25
Pages
25
Indexed
SCIE
SCOPUS
Journal Title
PeerJ
Volume
12
Number
9
Start Page
1
End Page
25
URI
https://scholarworks.bwise.kr/hanyang/handle/2021.sw.hanyang/204238
DOI
10.7717/peerj.18119
ISSN
2167-8359
2167-835
Abstract
Atmospheric particulate matter (PM) pollution has become a major environmental risk, and green plants can mitigate air pollution by regulating their enzymatic activity, osmoregulatory substances, photosynthetic pigments, and other biochemical characteristics. The present investigation aims to evaluate the mitigation potential of five common evergreen tree species (Photinia serrulata, Ligustrum lucidum, Eriobotrya japonica, Euonymus japonicus, Pittosporum tobira) against air pollution and to assess the effect of dust retention on plant physiological functions exposed to three different pollution levels (road, campus, and park). The results found that the amount of dust retained per unit leaf area of the plants was proportional to the mass concentration of atmospheric particulate matter in the environment, and that dust accumulation was higher on the road and campus than in the park. There were significant differences in dust retention among the five tree species, with the highest leaf dust accumulation observed for E. japonica (5.45 g<middle dot>m(-2)), and the lowest for P. tobira (1.53 g<middle dot>m(-2)). In addition, the increase in PM adsorption by different plants was uneven with increasing pollution levels, with significant decreases in chlorophyll content, photosynthetic and transpiration rate. From a physiological perspective, P. tobira exhibited greater potential to respond to PM pollution. Biochemical indicators suggested that PM pollution caused changes in plant protective enzyme activities, with a decrease in superoxide dismutase (SOD) and peroxidase (POD) activities, as well as promoting membrane lipid peroxidation, and appropriate stress also enables plants to counteract oxidative damage. In particular, PM exposure also induced stomatal constriction. Overall, PM retention was significantly associated with physiological and photosynthetic traits. In conclusion, our study contributes to the understanding of the effects of PM on plant physiology. Furthermore, it also provides insights into the selection of plants that are tolerant to PM pollution.
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