Potential of urban roadside hedges for particulate matter removal - importance of species choice, and its economic impact

Z.J. Qadir; J. Hadley; T. BreezeT. Blanusa

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Potential of urban roadside hedges for particulate matter removal - importance of species choice, and its economic impact

机译：Potential of urban roadside hedges for particulate matter removal - importance of species choice, and its economic impact

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Urban hedges provide multiple ecosystem services including microclimate regulation, flood and pollution mitigation, and biodiversity provision. Their relatively compact nature may suit higher-density housing developments more readily than many other forms of green infrastructure. However, hedge plant species differ in their capacity to promote different services, so it is important that the decision to plant hedges is evidence-based. Our research focused on testing which hedge species (and which associated leaf and canopy properties) are required to maximise the capture and retention of airborne pollutant particles, which are harmful to human health. We collected leaf material from species with morphologically different leaves, located by major and minor roads in Reading (UK) after periods of dry summertime weather and analysed the quantities of deposited particulates. The species included hairy-leaved Cotoneaster franchetii Bois, waxy/smooth-leaved Acuba japonica Thunb. and Crataegus monogyna Jacq., along with coniferous Thuja plicata Donn ex. D. Don. Results show that hedges with hairy, rough, and oval leaves (e.g. Cotoneaster), best captured airborne particles. Results also suggest that a significant extent of coverage and hedge depth is required, particularly to reduce the concentration of fine particles and in species with smaller inherent capacity for particulates' capture. This is evidenced in similar concentrations of particulates we detected at the front and back of Crataegus and Thuja even when the hedge depth was in the 1.5-2 m range, suggesting that a greater hedge depth (and/or denser planting) is needed to reduce concentrations of fine particles. Furthermore, planting choice made a significant difference to the extent of capture only on major roads, where the pollutant concentrations are highest. Based on experimental measurements of particulates' capture we estimated the impact of planting 100 km of the best-performing species, Cotoneaster franchetii, in Reading over an appraisal period of 10 years. Results (central estimate) indicated that approximately ￡300,000 of health, environmental and economic damage costs to society could be avoided from road transport-associated PM_(10) and ￡15,000 of PM_(2.5) costs.

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《Acta Horticulturae》 |2021年第1331期|139-144|共6页
作者
Z.J. Qadir; J. Hadley; T. BreezeT. Blanusa;
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作者单位

School of Agriculture, Policy and Development, University of Reading, RG6 6AR, UK;

Science Department, Royal Horticultural Society, Garden Wisley, Woking GU23 6QB, UK;

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正文语种英语
中图分类园艺;
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airborne particulate pollution; Cotoneaster; Crataegus; leaf hairs; Thuja;

Potential of urban roadside hedges for particulate matter removal - importance of species choice, and its economic impact

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