Litcius/Paper detail

Air pollution removal through deposition on urban vegetation: The importance of vegetation characteristics

Jenny Lindén, Malin Gustafsson, Johan Uddling, Ågot K. Watne, Håkan Pleijel

2023Urban forestry & urban greening132 citationsDOIOpen Access PDF

Abstract

Urban vegetation has the potential to improve air quality as it promotes pollutant deposition and retention. Urban air quality models often include the effect vegetation have on pollution dispersion, however, processes involved in pollution removal by vegetation are often excluded or simplified and does not consider different vegetation characteristics. In this systematic review, we analyze the influence of the large interspecies variation in vegetation characteristics to identify the key factors affecting the removal of the major urban pollutants, particulate matter (PM) and nitrogen dioxide (NO2) from the air through vegetation deposition. The aim is to identify key processes needed to represent vegetation characteristics in urban air quality modelling assessments. We show that PM is mainly deposited to the leaf surface, and thus representation of characteristics affecting the aerodynamics from canopy down to leaf surface are important, such as branch/shoot complexity and leaf size, leaf surface roughness and hairiness. In addition, characteristics affecting PM retention capacity, resuspension and wash-off, include leaf surface roughness, hairiness and wax content. NO2 is mainly deposited through stomatal uptake, and thus stomatal conductance and its responses to environmental conditions are key factors. These include response to solar radiation, vapour pressure deficit and soil moisture. Representation of these vegetation characteristics in urban air quality models could greatly improve our ability to optimize the type and species of urban vegetation from an air quality perspective.

Topics & Concepts

Environmental scienceVegetation (pathology)Deposition (geology)Air quality indexPollutantStomatal conductanceAir pollutionPollutionHydrology (agriculture)EcologyGeographyChemistryMeteorologyBiologyPathologyPhotosynthesisMedicinePaleontologyGeotechnical engineeringSedimentBiochemistryEngineeringPlant responses to elevated CO2Atmospheric chemistry and aerosolsAir Quality and Health Impacts