2019
DOI: 10.4018/ijsesd.2019040102
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Understanding and Analysing the Urban Heat Island (UHI) Effect in Micro-Scale

Abstract: The shortage of vegetation cover alongside urban structures and land hardscape in cities causes an artificial temperature increase in urban environments known as the urban heat island (UHI) effect. The artificial heat stress in cities has a particular threat for usability and health-safety of outdoor living in public space. Australia may face a likely 3.8°C increase in surface temperature by 2090. Such an increase in temperature will have a severe impact on regional and local climate systems, natural ecosystem… Show more

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Cited by 9 publications
(1 citation statement)
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“…This extreme fluctuation posed challenges, especially considering the urban heat island effect, which amplified temperature differentials within built-up areas to a maximum of 6 • C. The UHI effect exacerbated the impact of temperature extremes, particularly during heatwaves. Similar findings were found in an important number of researches [64][65][66][67], highlighting the importance of urban planning and mitigation strategies to alleviate heatrelated risks with the city. The study further explored specific atmospheric phenomena, such as anticyclones and atmospheric blocking, to understand their influence on extreme weather events.…”
Section: Extreme Weather Eventssupporting
confidence: 86%
“…This extreme fluctuation posed challenges, especially considering the urban heat island effect, which amplified temperature differentials within built-up areas to a maximum of 6 • C. The UHI effect exacerbated the impact of temperature extremes, particularly during heatwaves. Similar findings were found in an important number of researches [64][65][66][67], highlighting the importance of urban planning and mitigation strategies to alleviate heatrelated risks with the city. The study further explored specific atmospheric phenomena, such as anticyclones and atmospheric blocking, to understand their influence on extreme weather events.…”
Section: Extreme Weather Eventssupporting
confidence: 86%