Roadside Moss Turfs in South East Australia Capture More Particulate Matter Along an Urban Gradient than a Common Native Tree Species
Urbanisation largely consists of removing native vegetation. Plants that remain interact with air quality in complex ways. Pollutants can be detrimental to plant growth; plants sometimes reduce air quality, yet some species also improve it through phytoremediation. A common pollutant of concern to h...
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2019-04-01
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| Series: | Atmosphere |
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| Online Access: | https://www.mdpi.com/2073-4433/10/4/224 |
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doaj-25b40b1aa4c34eb4b54c4e94fa96e9e72020-11-25T00:30:04ZengMDPI AGAtmosphere2073-44332019-04-0110422410.3390/atmos10040224atmos10040224Roadside Moss Turfs in South East Australia Capture More Particulate Matter Along an Urban Gradient than a Common Native Tree SpeciesAlison Haynes0Robert Popek1Mitchell Boles2Clare Paton-Walsh3Sharon A. Robinson4School of Earth, Atmospheric and Life Sciences (SEALS), University of Wollongong, Wollongong, NSW 2522, AustraliaCentre for Sustainable Ecosystem Solutions, University of Wollongong, Wollongong, NSW 2522, AustraliaSchool of Earth, Atmospheric and Life Sciences (SEALS), University of Wollongong, Wollongong, NSW 2522, AustraliaSchool of Earth, Atmospheric and Life Sciences (SEALS), University of Wollongong, Wollongong, NSW 2522, AustraliaSchool of Earth, Atmospheric and Life Sciences (SEALS), University of Wollongong, Wollongong, NSW 2522, AustraliaUrbanisation largely consists of removing native vegetation. Plants that remain interact with air quality in complex ways. Pollutants can be detrimental to plant growth; plants sometimes reduce air quality, yet some species also improve it through phytoremediation. A common pollutant of concern to human health in urban areas is particulate matter (PM), small particles of solid or liquid. Our study compared roadside moss turfs with leaves of a common Australian tree species, <i>Pittosporum undulatum</i>, in their ability to capture PM along an urban gradient. We sampled nine sites, three in each of three levels of urbanisation: low, medium, and high according to road type (freeway, suburban road, quiet peri-urban road). In addition, we deployed a PM monitor over a two-week period in one site of each urban level to provide concentrations of PM<sub>2.5</sub>. We used chlorophyll fluorescence (F<sub>v</sub>/F<sub>m</sub>; maximum quantum yield of photosystem II) as a measure of plant stress. We extracted PM in three size fractions using a filtration and washing technique with water and chloroform. Site averages for moss turfs were between 5.60 and 33.00 mg per g dry weight for total PM compared to between 2.15 and 10.24 mg per g dry weight for the tree leaves. We found that moss was more sensitive to increasing urbanisation, both in terms of trapping proportionately more PM than the leaves, and also in terms of photosynthetic stress, with moss F<sub>v</sub>/F<sub>m</sub> declining by a site average of 40% from low to high urban “class„ (0.76 to 0.45). Our study highlights the stressors potentially limiting moss persistence in cities. It also demonstrates its ability to trap PM, a trait that could be useful in urban applications relating to urban greening or air quality.https://www.mdpi.com/2073-4433/10/4/224mossbryophytesurbanisationair qualityphytoremediationparticulate matterchlorophyll fluorescence |
| collection |
DOAJ |
| language |
English |
| format |
Article |
| sources |
DOAJ |
| author |
Alison Haynes Robert Popek Mitchell Boles Clare Paton-Walsh Sharon A. Robinson |
| spellingShingle |
Alison Haynes Robert Popek Mitchell Boles Clare Paton-Walsh Sharon A. Robinson Roadside Moss Turfs in South East Australia Capture More Particulate Matter Along an Urban Gradient than a Common Native Tree Species Atmosphere moss bryophytes urbanisation air quality phytoremediation particulate matter chlorophyll fluorescence |
| author_facet |
Alison Haynes Robert Popek Mitchell Boles Clare Paton-Walsh Sharon A. Robinson |
| author_sort |
Alison Haynes |
| title |
Roadside Moss Turfs in South East Australia Capture More Particulate Matter Along an Urban Gradient than a Common Native Tree Species |
| title_short |
Roadside Moss Turfs in South East Australia Capture More Particulate Matter Along an Urban Gradient than a Common Native Tree Species |
| title_full |
Roadside Moss Turfs in South East Australia Capture More Particulate Matter Along an Urban Gradient than a Common Native Tree Species |
| title_fullStr |
Roadside Moss Turfs in South East Australia Capture More Particulate Matter Along an Urban Gradient than a Common Native Tree Species |
| title_full_unstemmed |
Roadside Moss Turfs in South East Australia Capture More Particulate Matter Along an Urban Gradient than a Common Native Tree Species |
| title_sort |
roadside moss turfs in south east australia capture more particulate matter along an urban gradient than a common native tree species |
| publisher |
MDPI AG |
| series |
Atmosphere |
| issn |
2073-4433 |
| publishDate |
2019-04-01 |
| description |
Urbanisation largely consists of removing native vegetation. Plants that remain interact with air quality in complex ways. Pollutants can be detrimental to plant growth; plants sometimes reduce air quality, yet some species also improve it through phytoremediation. A common pollutant of concern to human health in urban areas is particulate matter (PM), small particles of solid or liquid. Our study compared roadside moss turfs with leaves of a common Australian tree species, <i>Pittosporum undulatum</i>, in their ability to capture PM along an urban gradient. We sampled nine sites, three in each of three levels of urbanisation: low, medium, and high according to road type (freeway, suburban road, quiet peri-urban road). In addition, we deployed a PM monitor over a two-week period in one site of each urban level to provide concentrations of PM<sub>2.5</sub>. We used chlorophyll fluorescence (F<sub>v</sub>/F<sub>m</sub>; maximum quantum yield of photosystem II) as a measure of plant stress. We extracted PM in three size fractions using a filtration and washing technique with water and chloroform. Site averages for moss turfs were between 5.60 and 33.00 mg per g dry weight for total PM compared to between 2.15 and 10.24 mg per g dry weight for the tree leaves. We found that moss was more sensitive to increasing urbanisation, both in terms of trapping proportionately more PM than the leaves, and also in terms of photosynthetic stress, with moss F<sub>v</sub>/F<sub>m</sub> declining by a site average of 40% from low to high urban “class„ (0.76 to 0.45). Our study highlights the stressors potentially limiting moss persistence in cities. It also demonstrates its ability to trap PM, a trait that could be useful in urban applications relating to urban greening or air quality. |
| topic |
moss bryophytes urbanisation air quality phytoremediation particulate matter chlorophyll fluorescence |
| url |
https://www.mdpi.com/2073-4433/10/4/224 |
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