A tale of two cities: The influence of urban meteorological network design on the nocturnal surface versus canopy heat island relationship in Oklahoma City, <scp>OK,</scp> and Birmingham, <scp>UK</scp>

Feng, Jiali; Cai, Xiao Ming; Chapman, Lee

doi:10.1002/joc.6697

Cited by 5 publications

(4 citation statements)

References 45 publications

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“…The day-to-day variation of SUHI can also be dominated by meteorological variables (Lai et al 2021b), owing to the surface-air interactions (Oke et al 2017). For instance, the wind can influence not only the near-SAT, but also the radiation cooling of land surface by altering the heat advection (Feng et al 2020). The wind reveals a direct influence on CUHI (He 2018); while it shows insignificant influence on SUHI until the wind speed reaches a certain level (Shaposhnikova 2017).…”

Section: Introductionmentioning

confidence: 99%

“…Literature surveys show that the meteorological controls on SUHI have an order of priority different from that of CUHI (Oke et al 2017). Despite these aspects, compared to the extensively acknowledged CUHI variations in response to meteorological variables changes (Oke et al 2017, Feng et al 2020, there is still a lack of sufficient investigations that quantify the empirical relationships between day-to-day SUHII variation (termed as SUHII dv ) and the dynamics of various meteorological variables.…”

Section: Introductionmentioning

confidence: 99%

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Strong regulation of daily variations in nighttime surface urban heat islands by meteorological variables across global cities

She

Liu

Zhan

et al. 2022

Environ. Res. Lett.

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Knowledge of the day-to-day dynamics of surface urban heat island (SUHI) as well as their underlying determinants is crucial to a better design of effective heat mitigation. However, there remains a lack of a globally comprehensive investigation of the responsiveness of SUHI variations to meteorological variables. Based on the MODIS LSTs and auxiliary data in 2017, here we investigated 10,000+ cities worldwide to reveal day-to-day SUHI intensity (SUHII) variations (termed as SUHIIdv) in response to meteorological variables using Google Earth Engine. We found that: (1) meteorological variables related to the thermal admittance, e.g., precipitation, specific humidity and soil moisture (represented by daily temperature range in rural area, DTRr), reveal a larger regulation on SUHIIdv than those related to the air conditions (e.g., wind speed and near-surface air temperature) over a global scale. (2) Meteorological regulations on SUHIIdv can differ greatly by background climates. The control of specific humidity on SUHIIdv is significantly strengthened in arid zones, while that of wind speed is weakened prominently in equatorial zones. SUHIIdv is more sensitive to soil moisture in cities with higher background temperatures. (3) All meteorological variables, except that related to soil moisture (DTRr), show larger impact on SUHIIdv with antecedent precipitation over the global scale. Precipitation is observed to mitigate the SUHIIdv globally, and such effects are even more pronounced in equatorial and arid zones. We consider that our findings should be helpful in enriching the knowledge of SUHI dynamics on multiple timescales.

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Section: Introductionmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

Strong regulation of daily variations in nighttime surface urban heat islands by meteorological variables across global cities

She

Liu

Zhan

et al. 2022

Environ. Res. Lett.

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“…Birmingham hosted an urban meteorological network between 2012 and 2014 [73], and the city has been a focus for urban climate research [74], using remote sensing (e.g., [75,76]), modeling (e.g., [11,18,77], and land-based observations [78] or mixed methods [79,80]. Although, some of this work has been undertaken in collaboration with BCC, there has been a disconnect between academic research and local authority decision making, and to date, previous research outputs have not been embedded within city design and planning policies.…”

Section: Case Study Area-birmingham Ukmentioning

confidence: 99%

Incorporating Heat Vulnerability into Local Authority Decision Making: An Open Access Approach

Ferranti,

Cook,

Greenham

et al. 2023

Sustainability

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High temperatures and heatwaves are becoming more frequent, but heat vulnerability is rarely considered within local authority city design and statutory land-use planning processes. Here, we describe an approach to assess heat vulnerability in Birmingham, the second largest city in the UK. The approach uses open access data and GIS techniques that are available for built environment practitioners. Heat vulnerability is assessed by combining four datasets: surface temperatures, Local Climate Zones, green space, and Indices of Multiple Deprivation. The assessment shows that central and eastern areas of Birmingham that have the most compact urban form, least green space, and highest levels of deprivation are most vulnerable to heat. We evaluated the approach against previous climate research, examined the approach and datasets at the local scale, and described how heat vulnerability can be (and is being) incorporated into decision making. This project combines three key innovations: (1) the decision-centric process that focuses the method on the decision that needs to be made, minimizing inertia related to scientific or modeling uncertainty and reducing resource-intensity; (2) the co-creation process with Birmingham City Council, who have statutory powers for planning within the city, thereby ensuring that heat vulnerability is embedded within decisions on the suitability, design, and location of sites for future development; and (3) the open access and technically appropriate methodology which can be applied to any urban area in the UK, using the open access datasets described here, or globally, using locally applicable data sources.

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“…Their findings confirmed the presence of urban heat islands in Delhi at night and highlighted the role of urban areas as regulators of temperature changes under lowwind conditions. Furthermore, Feng et al [21] compared the SUHII-CUHII relationship under different weather conditions in Oklahoma City, USA, and Birmingham, UK, using MODIS data and the Urban Weather Network. They also compared the canopy urban heat island and surface urban heat island of Beijing, China, based on MODIS data, considering the spatial scale of the city.…”

Section: Introductionmentioning

confidence: 99%

Diurnal Variation in Urban Heat Island Intensity in Birmingham: The Relationship between Nocturnal Surface and Canopy Heat Islands

Wen,

Mamtimin,

Feng

et al. 2023

Land

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Urban heat islands have garnered significant attention due to their potential impact on human life. Previous studies on urban heat islands have focused on characterizing temporal and spatial variations over longer periods of time. In this study, we investigated the urban heat island (UHI) in Birmingham from September 2013 to August 2014 using higher temporal resolution SEVIRI satellite surface temperature data along with data from the Birmingham Urban Climate Laboratory (BUCL) meteorological station and the UK Meteorological Office meteorological station. Our aim was to characterize the diurnal variations in the surface urban heat island intensity (SUHII) and canopy urban heat island intensity (CUHII) and to explore their relationship under the influence of three factors (day/nighttime, season, and wind speed) using regression analysis. Our findings reveal that SUHII and CUHII exhibit relatively stable patterns at night but vary significantly during the day with opposite diurnal trends. In addition, SUHII and CUHII were more variable in spring and summer but less variable in winter. During the nighttime, SUHII represents CUHII with high confidence, especially during spring and summer, but less so during the cold season. In addition, SUHII represents CUHII with greater confidence under low-wind conditions. This study deepens our understanding of the diurnal dynamics of urban heat islands and the influence of atmospheric conditions on the relationship between surface and canopy heat islands in urban areas. The results of this study can be used for heat island studies in cities that lack high-precision observation networks and to guide sustainable urban development.

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A tale of two cities: The influence of urban meteorological network design on the nocturnal surface versus canopy heat island relationship in Oklahoma City, OK, and Birmingham, UK

Cited by 5 publications

References 45 publications

Strong regulation of daily variations in nighttime surface urban heat islands by meteorological variables across global cities

Strong regulation of daily variations in nighttime surface urban heat islands by meteorological variables across global cities

Incorporating Heat Vulnerability into Local Authority Decision Making: An Open Access Approach

Diurnal Variation in Urban Heat Island Intensity in Birmingham: The Relationship between Nocturnal Surface and Canopy Heat Islands

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