Assessing the Distribution of Urban Green Spaces and its Anisotropic Cooling Distance on Urban Heat Island Pattern in Baotou, China

Tongliga Bao; Xueming Li; Jing Zhang; Yingjia Zhang; Shenzhen Tian

doi:10.3390/ijgi5020012

Urban Heat Island Effect of Addis Ababa City: Implications of Urban Green Spaces for Climate Change Adaptation

Climate Change Management - Climate Change Adaptation in Africa ◽

10.1007/978-3-319-49520-0_33 ◽

2017 ◽

pp. 539-552 ◽

Cited By ~ 3

Author(s):

Ermias Teferi ◽

Hiwot Abraha

Keyword(s):

Climate Change ◽

Urban Heat Island ◽

Climate Change Adaptation ◽

Addis Ababa ◽

Green Spaces ◽

Heat Island ◽

Urban Green ◽

Urban Green Spaces ◽

Island Effect ◽

Urban Heat

Quantifying the effects of urban vegetation on water partitioning in complex cityscapes: the potential of isotope-based ecohydrological models

10.5194/egusphere-egu2020-413 ◽

2020 ◽

Author(s):

Mikael Gillefalk ◽

Dörthe Tetzlaff ◽

Reinhard Hinkelmann ◽

Lena-Marie Kuhlemann ◽

Aaron Smith ◽

...

Keyword(s):

Urban Heat Island ◽

Groundwater Recharge ◽

Water Use ◽

Green Spaces ◽

Heat Island ◽

Urban Green ◽

Urban Green Spaces ◽

Island Effect ◽

Water Partitioning ◽

Urban Heat

The continued global acceleration of urbanisation increasingly requires sustainable, adaptive management strategies for land and water use in cities. Although the effects of buildings and sealed surfaces on urban runoff generation (via storm drains) and local climate (through the urban heat island effect) are well known, much less is known about how these artificial influences integrate with water partitioning in more natural urban green spaces. In particular, little is quantitatively known about how different types of urban green spaces (lawns, parks, woodland etc.) regulate the partitioning of evaporation, transpiration and groundwater recharge. To address this crucial issue, we integrated field observations with advanced, isotope-based ecohydrological modelling at the plot scale in the urban area of Berlin, Germany. Measurements of soil moisture, sap flow, and stable isotopes in precipitation, soil water and groundwater have been made over the course of one growing season. Additionally, an eddy flux tower at the site Rothenburgstra&#223;e in Berlin-Steglitz continuously collects hydroclimate data by measuring temperature, precipitation, radiation, humidity and wind speed at high temporal resolution. These data (30-min averages) have been used as input to, and for calibration of, the process-based ecohydrological model EcH2O-iso. The model also tracks stable isotope ratios and water ages in various stores (e.g. soils and groundwater) and fluxes (evaporation, transpiration and recharge). EcH2O-iso has successfully been used to describe the effects of vegetation cover on water partitioning in a number of studies but this is the first implementation in an urban setting. It shows that ecohydrological water use by vegetation type increases in the order forests > shrubs > grass, mainly through higher interception and transpiration. Accordingly, trees can reduce groundwater recharge by >50%, but provide cooling latent heat transfers to the atmosphere.&#160; Similarly, ages of stored water and fluxes are generally greater under trees than grass. The results, which form the basis for future upscaling, show that urban green spaces play an important role in urban hydrology and in Berlin there is a trade-off between moderating the urban heat island effect and maintaining groundwater recharge. Consequently, it is clear that vegetation management needs to be considered in sustainable water and land use planning in urban areas to build resilience in cities to climatic and other environmental change.

Effects of Small Water Bodies on the Urban Heat Island and Their Interaction with Urban Green Spaces in a Medium-Size City in Germany

Springer Geography - Advanced Technologies for Sustainable Development of Urban Green Infrastructure ◽

10.1007/978-3-030-75285-9_7 ◽

2021 ◽

pp. 65-76

Author(s):

Gunnar Ketzler ◽

Sophie Goertz ◽

Michael Leuchner

Keyword(s):

Urban Heat Island ◽

Water Bodies ◽

Green Spaces ◽

Medium Size ◽

Heat Island ◽

Urban Green ◽

Urban Green Spaces ◽

Small Water ◽

Urban Heat ◽

Small Water Bodies

Influence of Spatial Characteristics of Green Spaces on Microclimate: A Case Study in Suzhou Industrial Park, China

10.21203/rs.3.rs-591707/v1 ◽

2021 ◽

Author(s):

Xiangdong Xiao ◽

Lulu Zhang ◽

Yimei Xiong

Keyword(s):

Urban Heat Island ◽

Green Space ◽

Green Spaces ◽

Medium Size ◽

Industrial Park ◽

Air Cooling ◽

Heat Island ◽

Local Cooling ◽

Urban Green Spaces ◽

Urban Heat

Abstract Continuous urban development leads to urban heat island effects. Research suggests that urban green spaces can help effectively reduce urban heat island effects in the summer. Previous studies have mainly focused on the influence of different underlying surfaces on air cooling and humidification. There is a lack of in-depth research on the relationship between park structure and microclimatic effects. Here, we examined the main landscape parameters of green spaces in 15 parks located in Suzhou Industrial Park (SIP) with a subtropical maritime monsoon climate zone during the summer to analyze their influence on the microclimate. The average cooling and humidifying effect of medium-size green spaces was most significant during high-temperature hours in the daytime. When the distance to a water body was the same, the average cooling and humidifying effect ranked as follows: large-size green space > small-size green space > medium-size green space. We explored the mechanisms of the local cooling and humidifying effects of woodland and water areas in parks by numerical simulations. The significance of the cooling and humidifying effects of water areas of different shapes was as follows: annular water > massive water > banded water. This confirmed that the shape and size of water areas within a green space has a significant influence on local cooling and humidification.

The Cooling Effect of Urban Green Spaces in Metacities: A Case Study of Beijing, China’s Capital

Remote Sensing ◽

10.3390/rs13224601 ◽

2021 ◽

Vol 13 (22) ◽

pp. 4601

Author(s):

Liang Yan ◽

Wenxiao Jia ◽

Shuqing Zhao

Keyword(s):

Well Being ◽

Green Spaces ◽

Cooling Effect ◽

Heat Island ◽

Urban Green ◽

Urban Green Spaces ◽

Cooling Intensity ◽

Urban Heat ◽

Health And Well Being

Urban green spaces have many vital ecosystem services such as air cleaning, noise reduction, and carbon sequestration. Amid these great benefits from urban green spaces, the cooling effects via shading and evapotranspiration can mitigate the urban heat island effect. The impact of urban green spaces (UGSs) on the urban thermal environment in Beijing was quantified as a case study of metacities using four metrics: Land surface temperature (LST), cooling intensity, cooling extent, and cooling lapse. Three hundred and sixteen urban green spaces were extracted within the 4th ring road of Beijing from SPOT 6 satellite imagery and retrieved LST from Landsat 8 remote sensing data. The results showed that the cooling intensity of green spaces was generally more prominent in the areas with denser human activities and higher LST in this metacity. Vegetation density is always the dominant driver for the cooling effect indicated by all of the metrics. Furthermore, the results showed that those dispersive green spaces smaller than 9 ha, which are closely linked to the health and well-being of citizens, can possess about 6 °C of cooling effect variability, suggesting a great potential of managing the layout of small UGSs. In addition, the water nearby could be introduced to couple with the green and blue space for the promotion of cooling and enhancement of thermal comfort for tourists and residents. As the severe urban heating threatens human health and well-being in metacities, our findings may provide solutions for the mitigation of both the urban heat island and global climate warming of the UGS area customized cooling service.

Configuration of Green Spaces for Urban Heat Island Mitigation and Future Building Energy Conservation in Hanoi Master Plan 2030

Buildings ◽

10.3390/buildings5030933 ◽

2015 ◽

Vol 5 (3) ◽

pp. 933-947 ◽

Cited By ~ 13

Author(s):

Andhang Trihamdani ◽

Han Lee ◽

Tetsu Kubota ◽

Tran Phuong

Keyword(s):

Energy Conservation ◽

Urban Heat Island ◽

Building Energy ◽

Green Spaces ◽

Master Plan ◽

Heat Island ◽

Building Energy Conservation ◽

Urban Heat

The influence of the spatial characteristics of urban green space on the urban heat island effect in Suzhou Industrial Park

Sustainable Cities and Society ◽

10.1016/j.scs.2018.04.002 ◽

2018 ◽

Vol 40 ◽

pp. 428-439 ◽

Cited By ~ 31

Author(s):

Xiang Dong Xiao ◽

Li Dong ◽

Hainan Yan ◽

Nan Yang ◽

Yimei Xiong

Keyword(s):

Urban Heat Island ◽

Green Space ◽

Urban Green Space ◽

Urban Heat Island Effect ◽

Industrial Park ◽

Heat Island ◽

Spatial Characteristics ◽

Urban Green ◽

Island Effect ◽

Urban Heat

Assessment of Urban Heat Island and Mitigation by Urban Green Coverage

Springer Environmental Science and Engineering - Mitigating Climate Change ◽

10.1007/978-3-642-37030-4_13 ◽

2013 ◽

pp. 247-257 ◽

Cited By ~ 4

Author(s):

Dong Chen ◽

Xiaoming Wang ◽

Yong Bing Khoo ◽

Marcus Thatcher ◽

Brenda B. Lin ◽

...

Keyword(s):

Urban Heat Island ◽

Heat Island ◽

Urban Green ◽

Urban Heat

Spatial Analysis of Surface Urban Heat Islands in Four Rapidly Growing African Cities

Remote Sensing ◽

10.3390/rs11141645 ◽

2019 ◽

Vol 11 (14) ◽

pp. 1645 ◽

Cited By ~ 26

Author(s):

Matamyo Simwanda ◽

Manjula Ranagalage ◽

Ronald C. Estoque ◽

Yuji Murayama

Keyword(s):

Urban Heat Island ◽

Green Space ◽

Urban Landscape ◽

Impervious Surface ◽

Green Spaces ◽

Heat Island ◽

Impervious Surfaces ◽

African Cities ◽

Urban Rural ◽

Urban Heat

Africa’s unprecedented, uncontrolled and unplanned urbanization has put many African cities under constant ecological and environmental threat. One of the critical ecological impacts of urbanization likely to adversely affect Africa’s urban dwellers is the urban heat island (UHI) effect. However, UHI studies in African cities remain uncommon. Therefore, this study attempts to examine the relationship between land surface temperature (LST) and the spatial patterns, composition and configuration of impervious surfaces/green spaces in four African cities, Lagos (Nigeria), Nairobi (Kenya), Addis Ababa (Ethiopia) and Lusaka (Zambia). Landsat OLI/TIRS data and various geospatial approaches, including urban–rural gradient, urban heat island intensity, statistics and urban landscape metrics-based techniques, were used to facilitate the analysis. The results show significantly strong correlation between mean LST and the density of impervious surface (positive) and green space (negative) along the urban–rural gradients of the four African cities. The study also found high urban heat island intensities in the urban zones close (0 to 10 km) to the city center for all cities. Generally, cities with a higher percentage of the impervious surface were warmer by 3–4 °C and vice visa. This highlights the crucial mitigating effect of green spaces. We also found significant correlations between the mean LST and urban landscape metrics (patch density, size, shape, complexity and aggregation) of impervious surfaces (positive) and green spaces (negative). The study revealed that, although most African cities have relatively larger green space to impervious surface ratio with most green spaces located beyond the urban footprint, the UHI effect is still evident. We recommend that urban planners and policy makers should consider mitigating the UHI effect by restoring the urban ecosystems in the remaining open spaces in the urban area and further incorporate strategic combinations of impervious surfaces and green spaces in future urban and landscape planning.

The Influence of Urban Green Systems on the Urban Heat Island Effect in London

IOP Conference Series Earth and Environmental Science ◽

10.1088/1755-1315/329/1/012046 ◽

2019 ◽

Vol 329 ◽

pp. 012046

Author(s):

Hashem Taher ◽

Heba Elsharkawy ◽

Darryl Newport

Keyword(s):

Urban Heat Island ◽

Urban Heat Island Effect ◽

Heat Island ◽

Urban Green ◽

Island Effect ◽

Urban Heat