Contemporary income inequality outweighs historic redlining in shaping intra-urban heat disparities in Los Angeles
Anamika Shreevastava (),
Glynn Hulley,
Sai Prasanth,
Chakraborty Tc,
Diego Ramos Aguilera,
Kelly Twomey Sanders and
Yi Yin
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Anamika Shreevastava: California Institute of Technology
Glynn Hulley: California Institute of Technology
Sai Prasanth: California Institute of Technology
Chakraborty Tc: Pacific Northwest National Laboratory
Diego Ramos Aguilera: University of Southern California
Kelly Twomey Sanders: University of Southern California
Yi Yin: New York University
Nature Communications, 2025, vol. 16, issue 1, 1-12
Abstract:
Abstract The roots of intra-urban heat disparity in the U.S. often trace back to historical discriminatory practices, such as redlining, which categorized neighborhoods by race or ethnicity. In this study, we compare the relative impacts of historic redlining and current income inequality on thermal disparities in Los Angeles. A key innovation of our work is the use of land surface temperature data from the ECOSTRESS instrument aboard the International Space Station, enabling us to capture diurnal trends in urban thermal disparities. Our findings reveal that present-day income inequality is a stronger predictor of heat burden than the legacy of redlining. Additionally, land surface temperature disparities exhibit a seasonal hysteresis effect, intensifying during extreme heat events by 5−7 °C. Sociodemographic analysis highlights that African-American and Hispanic populations in historically and economically disadvantaged areas are often the most vulnerable. Our findings suggest that while the legacy of redlining may persist, the present-day heat disparities are not necessarily an immutable inheritance, where targeted investments and interventions can pave the way for a more thermally just future for these communities.
Date: 2025
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Persistent link: https://EconPapers.repec.org/RePEc:nat:natcom:v:16:y:2025:i:1:d:10.1038_s41467-025-59912-x
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DOI: 10.1038/s41467-025-59912-x
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