Search Results (9)

Urban heat stress is becoming increasingly urgent, yet it remains understudied within the broader intersection of climate change and spatial justice. While urban climate scholarship has largely focused on climatic impacts such as flooding, rising sea levels, and prolonged droughts, the socio-spatial lens of urban heat in marginalised and low-income urban communities has received limited attention. This article, grounded in a systematic review of the global literature, foregrounds the mechanisms through which heat functions as a site of socio-environmental injustice. We argue that fragmented urban morphologies, entrenched spatial inequalities, and uneven adaptation strategies collectively produce and sustain heat vulnerability. The article identifies three interrelated conceptual framings that elucidate the production and persistence of heat inequity: transitional injustice, green climate gentrification, and intersectional adaptation praxis. These lenses reveal how heat risk is differentially distributed, governed, and experienced with broader discourses of urban marginalisation, environmental dispossession, and epistemic exclusion. We contend that advancing climate justice in the context of urban heat requires moving beyond technocratic and elite-oriented adaptation, toward multi-scalar planning paradigms that recognise embodied vulnerability, structural inequality, and the socio-political ecologies of thermal exposure. By theorising urban heat through the lens of climate justice, this article contributes to a more expansive and critical understanding of urban climate risk, one that situates heat inequity within the broader structures of power, governance, and spatial exclusion shaping contemporary urban environments. Full article

The topic of energy poverty is a vast and complex one warranting extensive research. During the XX century, numerous research articles, books, and documents were published with the aim of defining energy poverty, measuring it, and proposing solutions to tackle it. The phenomenon of energy poverty can be studied using a variety of research methods, including the usual economic and econometric analyses, as well as energy policy. Research can also be conducted on the measurement of energy poverty and its social and health impact on disadvantaged communities. This can be explored in depth within specific subject areas, such as engineering, energy, environmental science, and social science. This brief review of literature focuses on energy poverty and poor buildings, thermal comfort, and the phenomenon of cooling poverty. The aim of this brief literature review is to show to a young researcher a previous framework and, through some keywords, that it is useful to drive future research using keywords. Full article

With rapid urbanization, many cities have experienced significant changes in land use and land cover (LULC), triggered urban heat islands (UHI), and increased the health risks of citizens’ exposure to UHI. Some studies have recognized residents’ inequitable exposure to UHI intensity. However, few have discussed the spatiotemporal heterogeneity in environmental justice and countermeasures for mitigating the inequalities. This study proposed a novel framework that integrates the population-weighted exposure model for assessing adjusted thermal comfort exposure (TCEa) and the spatiotemporal weighted regression (STWR) model for analyzing countermeasures. This framework can facilitate capturing the spatiotemporal heterogeneities in the response of TCEa to three specified land-surface and built-environment parameters (i.e., enhanced vegetation index (EVI), normalized difference built-up index (NDBI), and modified normalized difference water index (MNDWI)). Using this framework, we conducted an empirical study in the urban area of Fuzhou, China. Results showed that high TCEa was mainly concentrated in locations with dense populations and industrial regions. Although the TCEa’s responses to various land-surface and built-environment parameters differed at locations over time, the TCEa illustrated overall negative correlations with EVI and MNDWI while positive correlations with NDBI. Many exciting spatial details can be detected from the generated coefficient surfaces: (1) The influences of NDBI on TCEa may be magnified, especially in rapidly urbanizing areas. Still, they diminish to some extent, which may be related to the reduction in building construction activities caused by the COVID-19 epidemic and the gradual improvement of urbanization. (2) The influences of EVI on TCEa decline, which may be correlated with the population increase. (3) Compared with NDBI, the MNDWI had more continuous and stable significant cooling effects on TCEa. Several mitigation strategies based on the spatiotemporal heterogeneous relationships also emanated. The effectiveness of the presented framework was verified. It can help analysts effectively evaluate local thermal comfort exposure inequality and prompt timely mitigation efforts. Full article

This research delves into the intricate realm of social housing flat units within tower blocks in Leicester, as a microcosm that serves as a perfect reflection of the larger problem of fuel poverty among social housing systems within the UK. The multifaceted approach intertwines energy efficiency upgrades, indoor comfort, and resident satisfaction. Rooted in a comprehensive methodology, this research seeks to address pressing societal challenges within these architectural projects, from fuel poverty and well-being to environmental sustainability and social justice. Through surveys, interviews, audits, simulations, and detailed analyses of summer and winter thermal performance, this study navigates the complex interplay of factors that influence retrofit success. The findings underscore the transformative potential of comprehensive retrofit measures and the paramount importance of resident engagement while offering a potential holistic checklist for future projects. This research paves the way for future studies encompassing contextual diversity, interdisciplinary collaboration, and long-term impact assessment. As it advances, these findings guide the commitment to fostering positive change, enhancing lives, and contributing to a more sustainable and equitable future in social housing retrofit endeavours. Full article

With the increasing intensity, frequency and duration of heat waves, adaptation measures are becoming increasingly relevant and are moving up the agenda of decision-makers. In particular, urban areas require effective solutions due to the urban heat island effect and the increasing number of urban dwellers, including highly vulnerable social groups, such as people with low income or who lack access to public areas. However, despite there being strong agreement about the relevance of urban greening as an adaptation measure, there is still a limited understanding of where such measures should be implemented and for whom they are potentially accessible and beneficial. Through a systematic scoping review of the academic literature, this paper shows critical regional and methodological research gaps in mainstream adaptation research, including a bias towards Asian and European cities, and a lack of assessments of the socio-economic context and the accessibility of urban greening structures. Addressing the spatial issues of urban greening is of great importance for achieving the Sustainable Development Goals, given the ongoing urbanisation trends and projected increase in heat risk. Full article

Previous studies have shown, in the United States (U.S.), that communities of color are exposed to significantly higher temperatures in urban environments than complementary White populations. Studies highlighting this disparity have generally been cross-sectional and are therefore “snapshots” in time. Using surface urban heat island (SUHI) intensity data, U.S. Census 2020 population counts, and a measure of residential segregation, this study performs a comparative analysis between census tracts identified as prevalent for White, Black, Hispanic and Asian populations and their thermal exposure from 2003 to 2018. The analysis concentrates on the top 200 most populous U.S. cities. SUHI intensity is shown to be increasing on average through time for the examined tracts. However, based on raw observations the increase is only statistically significant for White and Black prevalent census tracts. There is a 1.25 K to ~2.00 K higher degree of thermal exposure on average for communities of color relative to White prevalent areas. When examined on an inter-city basis, White and Black prevalent tracts had the largest disparity, as measured by SUHI intensity, in New Orleans, LA, by <6.00 K. Hispanic (>7.00 K) and Asian (<6.75 K) prevalent tracts were greatest in intensity in San Jose, CA. To further explore temporal patterns, two models were developed using a Bayesian hierarchical spatial temporal framework. One models the effect of varying the percentages of each population group relative to SUHI intensity within all examined tracts. Increases in percentages of Black, Hispanic, and Asian populations contributed to statistically significant increases in SUHI intensity. White increases in population percentage witnessed a lowering of SUHI intensity. Throughout all modeled tracts, there is a statistically significant 0.01 K per year average increase in SUHI intensity. A second model tests the effect of residential segregation on thermal inequity across all examined cities. Residential segregation, indeed, has a statistically significant positive association with SUHI intensity based on this portion of the analysis. Similarly, there is a statistically significant 0.01 K increase in average SUHI intensity per year for all cities. Results from this study can be used to guide and prioritize intervention strategies and further urgency related to social, climatic, and environmental justice concerns. Full article

There is urgent need for a new model to address the housing crisis in remote Australian Indigenous communities. Decades of major government expenditure have not significantly improved the endemic problems, which include homelessness, overcrowding, substandard dwellings, and unemployment. Between 2017–2020, Foundation for Indigenous Sustainable Health (FISH) worked with the remote Kimberley Aboriginal community, Bawoorrooga, by facilitating the co-design and co-build of a culturally and climatically appropriate home with community members. This housing model incorporates a program of education, health, governance, justice system programs, and land tenure reforms. Build features incorporate sustainable local/recycled materials and earth construction, and ‘Solar Passive Design’. The project faced challenges, including limited funding, extreme climate and remoteness, cultural barriers, and mental health issues. Nevertheless, the program was ultimately successful, producing a house which is culturally designed, climatically/thermally effective, comparatively cheap to build, and efficient to run. The project produced improvements in mental health, schooling outcomes, reduced youth incarceration, and other spheres of community development, including enterprise and community governance. Co-design and co-build projects are slower and more complex than the conventional model of external contracting, but the outcomes can be far superior across broad areas of social and emotional wellbeing, house quality and comfort, energy consumption, long-term maintenance, community physical and mental health, pride, and ownership. These factors are essential in breaking intergenerational cycles of poverty, trauma, and engagement with the justice system. This paper provides a narrative case study of the project and outlines the core principles applied and the lessons learned. Full article

Exposure to heat is a growing public health concern as climate change accelerates worldwide. Different socioeconomic and racial groups often face unequal exposure to heat as well as increased heat-related sickness, mortality, and energy costs. We provide new insight into thermal inequities by analyzing 20 Southwestern U.S. metropolitan regions at the census block group scale for three temperature scenarios (average summer heat, extreme summer heat, and average summer nighttime heat). We first compared average temperatures for top and bottom decile block groups according to demographic variables. Then we used spatial regression models to investigate the extent to which exposure to heat (measured by land surface temperature) varies according to income and race. Large thermal inequities exist within all the regions studied. On average, the poorest 10% of neighborhoods in an urban region were 2.2 °C (4 °F) hotter than the wealthiest 10% on both extreme heat days and average summer days. The difference was as high as 3.3–3.7 °C (6–7 °F) in California metro areas such as Palm Springs and the Inland Empire. A similar pattern held for Latinx neighborhoods. Temperature disparities at night were much smaller (usually ~1 °F). Disparities for Black neighborhoods were also lower, perhaps because Black populations are small in most of these cities. California urban regions show stronger thermal disparities than those in other Southwestern states, perhaps because inexpensive water has led to more extensive vegetation in affluent neighborhoods. Our findings provide new details about urban thermal inequities and reinforce the need for programs to reduce the disproportionate heat experienced by disadvantaged communities. Full article

This article argues for the importance of recognizing local energy dilemmas and injustices that may arise in the wake of energy saving ambitions. Such energy justice dilemmas can occur anywhere, even in the wealthier parts of the world. Qualitative interviews were conducted immediately before energy efficiency renovation in a Swedish housing area, and perceptions of thermal comfort were used to illustrate the arguments of the article. The results show little compatibility between the housing company’s energy saving ambitions and the tenants’ wishes for a comfortable home. It is such discrepancies between the main actors of a renovation process, in habits, experiences and expectations, which tend to produce energy dilemmas and injustices. In the article, it is suggested that a more emic (insider’s) view should be adopted within the building and housing industry. An attempt to change from an etic (outsider’s) perspective to an emic perspective may help housing companies to find compromises with tenants. As illustrated through the example of thermal comfort, energy injustices can then more easily be avoided, and the well-being of tenants increased. Full article