Reprint

Urban Forest and Urban Microclimate

Edited by
July 2024
198 pages
  • ISBN978-3-7258-1511-1 (Hardback)
  • ISBN978-3-7258-1512-8 (PDF)

This is a Reprint of the Special Issue Urban Forest and Urban Microclimate that was published in

Biology & Life Sciences
Environmental & Earth Sciences
Summary

Urban green addresses major urban challenges such as improving quality of life, preserving biodiversity, and adaptation to climate change. Especially urban trees as one of the main urban green components, are of special interest to enhance climate resilience of urban areas due to their capacity to moderate the urban microclimate, mainly through their cooling function which strongly depends on the trees’ evapotranspiration and shading capacity. On the other hand, tree growth and tree vitality, both of which strongly affect the provision of ecosystem services, are influenced by many control factors, particularly the surrounding microclimate, built urban structure, and tree species characteristics. We hope topics from all fields, including experimental studies, monitoring approaches, or modeling studies, to contribute to this special issue in order to promote knowledge and adaptation strategies for improving the urban microclimate and for mitigating the negative impacts of climate change. The topics concerning patterns and processes of microclimatic regulation through urban trees are particularly important for our research. Topics for this Special Issue further include dynamics and functions of urban trees, and the effects of (micro-)climate and climate change on urban tree growth and their ecosystem services as well as studies on the growth patterns of urban trees.

Format
  • Hardback
License and Copyright
© 2024 by the authors; CC BY-NC-ND license
Keywords
vertical greening; indoor thermal environment; annual cycle; windowed model; Aesculus hippocastanum; diameter growth; drought; Platanus × hispanica; Quercus nigra; Quercus robur; Robinia pseudoacacia; Tilia cordata; urban trees; urban trees; crown volume; crown shape; climate mitigation; ecosystem services; tree growth; soil water monitoring; relative extractable water; soil water tension; soil water content; urban water management; soil texture; structural soil; street tree; lidar point cloud model; morphological structure; canopy geometry; thermal comfort; microclimate; urban green space; plant community; outdoor thermal comfort; microclimate; canopy density; tridimensional green biomass; tree information modeling; tree engineering; building information modeling; computational design; urban green infrastructure; urban riparian woodlands; soil heat flux; phase shift; urban microclimate; ENVI-met; residential district; canopy structure; tree coverage; cooling effect; crown dimension; arid city; Delonix regia; Ficus nitida; Phoenix dactylifera; urban trees; carbon storage; shade potential; tree pit surface area; leaf area index; n/a