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dc.contributor.authorKonarska, Janina
dc.date.accessioned2015-11-06T08:18:59Z
dc.date.available2015-11-06T08:18:59Z
dc.date.issued2015-11-06
dc.identifier.isbn978-91-628-9646-1
dc.identifier.issn1400-3813
dc.identifier.urihttp://hdl.handle.net/2077/40650
dc.description.abstractCities exert a strong influence on urban climate, and consequently on human health and wellbeing. This increases the importance of considering climate issues in urban planning, particularly in the context of global climate change. One of the key adaptation strategies in climate-sensitive planning is urban greenery. The purpose of this thesis is to increase understanding of how urban greenery influences the air temperature and outdoor thermal comfort in a high latitude city. The thesis consists of three main parts. In the first part the aim is to describe the urban greenery at various scales in terms of the amount of foliage. In the second part different aspects of the cooling effect of urban vegetation and the resulting intra-urban thermal variations are discussed. Finally, the last part deals with the modelling of mean radiant temperature (Tmrt), an important parameter governing human thermal comfort, in vegetated urban areas. The thesis is based on extensive meteorological and plant physiological measurements conducted in Gothenburg, Sweden. Study sites ranged from single street trees to parks and woodlands. Moreover, a LiDAR dataset and high resolution digital surface models (DSMs) of ground, buildings and vegetation were used to analyse spatial characteristics of the study sites, including effective leaf area index (Le) describing tree foliage, and sky view factor (SVF), a measure of obstruction of sky commonly used in urban climate studies. The results show substantial variations in Le between different types of urban greenery, with the highest Le observed in an urban woodland and the lowest in residential green yards. These variations were accurately modelled using LiDAR data. However, when averaged over large areas only partly covered by trees, variations in Le were found to result mostly from tree fraction rather than structural characteristics of tree canopies. Single urban trees of five common species were shown to provide a strong shading effect throughout the year, with a potentially positive effect on thermal comfort in summer and negative in winter in high latitude cities. Parameterisation of transmissivity of solar radiation through tree crowns significantly improved the modelling of Tmrt in SOLWEIG, a model simulating radiation fluxes in complex urban environments. While tree transpiration in temperate climates is often assumed negligible in darkness, night-time transpiration was observed in all of seven common tree species, and data analyses indicated its contribution to the evening cooling on clear, calm nights of the warm season. The cooling effect of trees due to both shading and transpiration was found to be influenced by tree growing conditions and access to sunlight. Trees growing on wide grass lawns had denser crowns and higher stomatal conductance than those surrounded by impervious surfaces. When provided with good growing conditions, sun-exposed trees can strongly influence microclimate by providing additional shade and by intensive transpiration. Parks exhibited a cooler microclimate than built-up sites throughout the day and year, and in different weather conditions, with the strongest cooling effect on clear, calm days of the warm season. While the evening cooling in a high latitude city is best correlated with SVF, spatial characteristics describing buildings and vegetation proved useful in the analysis of intra-urban thermal variations. When high resolution DSMs are not available, near-infrared hemispherical photography can be used to calculate SVFs accounting for the obstruction of sky by buildings and trees separately. The findings presented in this thesis can be used in climate-sensitive planning, in urban climate modelling as well as in valuation of ecosystem services provided by urban greenery.sv
dc.language.isoengsv
dc.relation.ispartofseriesAsv
dc.relation.ispartofseries156 2015sv
dc.relation.haspartI. Klingberg J, Konarska J, Lindberg F, Johansson E, Thorsson S (2015) Mapping leaf area of urban greenery in a high latitude city using aerial LiDAR and ground-based measurements. Submitted to Urban Forestry and Urban Greeningsv
dc.relation.haspartII. Konarska J, Lindberg F, Larsson A, Thorsson S, Holmer B (2014) Transmissivity of solar radiation through crowns of single urban trees—application for outdoor thermal comfort modelling. Theoretical and Applied Climatology 117:363-376. ::doi::10.1007/s00704-013-1000-3sv
dc.relation.haspartIII. Konarska J, Uddling J, Holmer B, Lutz M, Lindberg F, Pleijel H, Thorsson S (2015) Transpiration of urban trees and its cooling effect in a high latitude city. International Journal of Biometeorology. In press. ::doi::10.1007/s00484-015-1014-xsv
dc.relation.haspartIV. Konarska J, Holmer B, Lindberg F, Thorsson S (2015) Influence of vegetation and building geometry on the spatial variations of air temperature and cooling rates in a high latitude city. International Journal of Climatology. In press. ::doi::10.1002/joc.4502sv
dc.relation.haspartV. Konarska J, Klingberg J, Lindberg F (2015) Identifying vegetation in near-infrared hemispherical photographs – potential applications in urban climatology and urban forestry. Manuscriptsv
dc.subjectGothenburgsv
dc.subjectSwedensv
dc.subjecthigh latitude citysv
dc.subjecturban greenerysv
dc.subjecturban treessv
dc.subjectleaf area indexsv
dc.subjecttree transpirationsv
dc.subjectsky view factorsv
dc.subjectmean radiant temperaturesv
dc.subjecthemispherical photographysv
dc.subjectclimate-sensitive planningsv
dc.titleClimate regulation provided by urban greening - examples from a high latitude citysv
dc.typeText
dc.type.svepDoctoral thesiseng
dc.gup.mailjanina.konarska@gvc.gu.sesv
dc.type.degreeDoctor of Philosophysv
dc.gup.originGöteborgs universitet. Naturvetenskapliga fakultetensv
dc.gup.departmentDepartment of Earth Sciences ; Institutionen för geovetenskapersv
dc.gup.defenceplace27 November 2015, 10:00, Stora Hörsalen, Geovetarcentrum, Guldhedsgatan 5csv
dc.gup.defencedate2015-11-27
dc.gup.dissdb-fakultetMNF


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