Atmospheric particle retention capacity and photosynthetic responses of three common greening plant species under different pollution levels in Hangzhou

Atmospheric particle retention capacity and photosynthetic responses of three common greening plant species under different pollution levels in Hangzhou

The retention capacities and photosynthetic response to different-sized particulate matter in plants are very important indicators for urban green plant species selection. A large number of studies have been reported on the particulate matter retention capacities of plants, but few reports have been...

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Main Authors: Ting Lu, Xintao Lin, Jian Chen, Dongming Huang, Ming Li
Format: Article
Language:English
Published: Elsevier 2019-10-01
Series:Global Ecology and Conservation
Online Access:http://www.sciencedirect.com/science/article/pii/S2351989419301313
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spelling doaj-d02dadc3a3b04e7e8d5d4dc6d650a48e2020-11-25T01:18:41ZengElsevierGlobal Ecology and Conservation2351-98942019-10-0120Atmospheric particle retention capacity and photosynthetic responses of three common greening plant species under different pollution levels in HangzhouTing Lu0Xintao Lin1Jian Chen2Dongming Huang3Ming Li4State Key Laboratory of Subtropical Silviculture, Zhejiang A& F University, Lin'an, 311300, ChinaState Key Laboratory of Subtropical Silviculture, Zhejiang A& F University, Lin'an, 311300, ChinaCorresponding author. No. 666 Wusu Street, Hangzhou, China.; State Key Laboratory of Subtropical Silviculture, Zhejiang A& F University, Lin'an, 311300, ChinaState Key Laboratory of Subtropical Silviculture, Zhejiang A& F University, Lin'an, 311300, ChinaState Key Laboratory of Subtropical Silviculture, Zhejiang A& F University, Lin'an, 311300, ChinaThe retention capacities and photosynthetic response to different-sized particulate matter in plants are very important indicators for urban green plant species selection. A large number of studies have been reported on the particulate matter retention capacities of plants, but few reports have been reported on the photosynthetic response of plants after particulate matter retention. In this study, we investigated the capacities of Rhododendron x pulchrum Sweet, Osmanthus fragrans Lour. and Photinia x fraseri Dress to retain atmospheric particles of different sizes and their photosynthetic gas exchange capacity in autumn and winter of 2017 at a freeway toll station and on a university campus. The results showed that the retention capacities of the three plant species were in the order R. pulchrum > O. fragrans > P. fraseri. The total suspended particles (TSPs) absorbed by R. pulchrum at the freeway toll station was the highest (autumn: 371.22 μg cm−2; winter: 177.11 μg cm−2), while the TSPs absorbed by P. fraseri at the campus was the lowest (autumn: 36.13 μg cm−2; winter: 41.50 μg cm−2). Plant surface retention (sPM) accounted for more than 60% of TSPs. Large particulate matter (10–100 μm) in sPM and wPM accounted for 52.17–9.60% and 45.36–72.20%, respectively. In winter, the proportion of fine particulate matter (0.2–2.5 μm) of sPM was significantly higher than that in autumn. Photosynthetic gas exchange capacity of plants, especially stomatal conductance (Gs), was significantly reduced by particulate pollution. There was a negative correlation between plant dust retention and photosynthetic gas exchange capacity. The amount of PM2.5 retained by plants was negatively correlated with the net photosynthetic rate (Pn). The photosynthetic gas exchange capacity of P. fraseri was the least affected under different particulate pollution levels, and this species was best able to adapt to growing in a more polluted environment. Keywords: Particulate matter, Photosynthetic responses, Plant dust, Rhododendron x pulchrum Sweet, Osmanthus fragrans Lour., Photinia x fraseri Dresshttp://www.sciencedirect.com/science/article/pii/S2351989419301313
collection DOAJ
language English
format Article
sources DOAJ
author Ting Lu
Xintao Lin
Jian Chen
Dongming Huang
Ming Li
spellingShingle Ting Lu
Xintao Lin
Jian Chen
Dongming Huang
Ming Li
Atmospheric particle retention capacity and photosynthetic responses of three common greening plant species under different pollution levels in Hangzhou
Global Ecology and Conservation
author_facet Ting Lu
Xintao Lin
Jian Chen
Dongming Huang
Ming Li
author_sort Ting Lu
title Atmospheric particle retention capacity and photosynthetic responses of three common greening plant species under different pollution levels in Hangzhou
title_short Atmospheric particle retention capacity and photosynthetic responses of three common greening plant species under different pollution levels in Hangzhou
title_full Atmospheric particle retention capacity and photosynthetic responses of three common greening plant species under different pollution levels in Hangzhou
title_fullStr Atmospheric particle retention capacity and photosynthetic responses of three common greening plant species under different pollution levels in Hangzhou
title_full_unstemmed Atmospheric particle retention capacity and photosynthetic responses of three common greening plant species under different pollution levels in Hangzhou
title_sort atmospheric particle retention capacity and photosynthetic responses of three common greening plant species under different pollution levels in hangzhou
publisher Elsevier
series Global Ecology and Conservation
issn 2351-9894
publishDate 2019-10-01
description The retention capacities and photosynthetic response to different-sized particulate matter in plants are very important indicators for urban green plant species selection. A large number of studies have been reported on the particulate matter retention capacities of plants, but few reports have been reported on the photosynthetic response of plants after particulate matter retention. In this study, we investigated the capacities of Rhododendron x pulchrum Sweet, Osmanthus fragrans Lour. and Photinia x fraseri Dress to retain atmospheric particles of different sizes and their photosynthetic gas exchange capacity in autumn and winter of 2017 at a freeway toll station and on a university campus. The results showed that the retention capacities of the three plant species were in the order R. pulchrum > O. fragrans > P. fraseri. The total suspended particles (TSPs) absorbed by R. pulchrum at the freeway toll station was the highest (autumn: 371.22 μg cm−2; winter: 177.11 μg cm−2), while the TSPs absorbed by P. fraseri at the campus was the lowest (autumn: 36.13 μg cm−2; winter: 41.50 μg cm−2). Plant surface retention (sPM) accounted for more than 60% of TSPs. Large particulate matter (10–100 μm) in sPM and wPM accounted for 52.17–9.60% and 45.36–72.20%, respectively. In winter, the proportion of fine particulate matter (0.2–2.5 μm) of sPM was significantly higher than that in autumn. Photosynthetic gas exchange capacity of plants, especially stomatal conductance (Gs), was significantly reduced by particulate pollution. There was a negative correlation between plant dust retention and photosynthetic gas exchange capacity. The amount of PM2.5 retained by plants was negatively correlated with the net photosynthetic rate (Pn). The photosynthetic gas exchange capacity of P. fraseri was the least affected under different particulate pollution levels, and this species was best able to adapt to growing in a more polluted environment. Keywords: Particulate matter, Photosynthetic responses, Plant dust, Rhododendron x pulchrum Sweet, Osmanthus fragrans Lour., Photinia x fraseri Dress
url http://www.sciencedirect.com/science/article/pii/S2351989419301313
work_keys_str_mv AT tinglu atmosphericparticleretentioncapacityandphotosyntheticresponsesofthreecommongreeningplantspeciesunderdifferentpollutionlevelsinhangzhou
AT xintaolin atmosphericparticleretentioncapacityandphotosyntheticresponsesofthreecommongreeningplantspeciesunderdifferentpollutionlevelsinhangzhou
AT jianchen atmosphericparticleretentioncapacityandphotosyntheticresponsesofthreecommongreeningplantspeciesunderdifferentpollutionlevelsinhangzhou
AT dongminghuang atmosphericparticleretentioncapacityandphotosyntheticresponsesofthreecommongreeningplantspeciesunderdifferentpollutionlevelsinhangzhou
AT mingli atmosphericparticleretentioncapacityandphotosyntheticresponsesofthreecommongreeningplantspeciesunderdifferentpollutionlevelsinhangzhou
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