绿色基础设施
城市规划
生态系统服务
城市热岛
气候变化
城市气候
绿色屋顶
环境规划
环境科学
生物多样性
环境资源管理
业务
地理
环境保护
土木工程
生态学
生态系统
气象学
工程类
屋顶
考古
生物
作者
Briony A. Norton,Andrew Coutts,Stephen J. Livesley,Richard J. Harris,Annie M. Hunter,Nicholas S. G. Williams
标识
DOI:10.1016/j.landurbplan.2014.10.018
摘要
Warming associated with urban development will be exacerbated in future years by temperature increases due to climate change. The strategic implementation of urban green infrastructure (UGI) e.g. street trees, parks, green roofs and facades can help achieve temperature reductions in urban areas while delivering diverse additional benefits such as pollution reduction and biodiversity habitat. Although the greatest thermal benefits of UGI are achieved in climates with hot, dry summers, there is comparatively little information available for land managers to determine an appropriate strategy for UGI implementation under these climatic conditions. We present a framework for prioritisation and selection of UGI for cooling. The framework is supported by a review of the scientific literature examining the relationships between urban geometry, UGI and temperature mitigation which we used to develop guidelines for UGI implementation that maximises urban surface temperature cooling. We focus particularly on quantifying the cooling benefits of four types of UGI: green open spaces (primarily public parks), shade trees, green roofs, and vertical greening systems (green walls and facades) and demonstrate how the framework can be applied using a case study from Melbourne, Australia.
科研通智能强力驱动
Strongly Powered by AbleSci AI