Beyond the Canopy: In Situ Evidence of Urban Green Spaces’ Cooling Potential Across Three Chilean Cities

Karina Salgado; Francisco de la Barrera; Valentina Salinas; Sergio González; Sonia Reyes-Packe; Ricardo Truffello and Agnese Salvati. 

Abstract

Vegetation in urban green spaces plays a critical role in mitigating surface heat, yet the magnitude of this effect remains uncertain across scales and measurement methods. This study assesses the cooling performance during the summer of 94 green spaces in three Chilean cities—classified in three types according to their size—combining satellite-derived land surface temperature (LST) data with high-resolution in situ thermal imaging. We performed comparisons of the cooling effects of green spaces and their components (vegetation, impermeable and semi-permeable surfaces). Spearman’s correlation analysis, the Mann-Whitney U test and Kruskal-Wallis and Dunn post hoc were used to evaluate associations and differences. Results demonstrate that vegetation quantity and composition—particularly tree and shrub cover—are key determinants of cooling performance. In situ measurements reveal that green spaces are on average 9.3 °C cooler than their urban surroundings, substantially exceeding differences captured by LST. Additionally, shaded surfaces within green spaces exhibit temperature reductions of 12 °C to 17 °C compared to sun-exposed areas, underscoring the role of vegetation in mitigating surface heat extremes. These findings challenge the sole reliance on remote sensing for urban heat assessments and highlight the value of integrating ground-based observations. This study advances understanding of vegetation’s localized cooling potential in Latin American cities and provides actionable insights for urban climate resilience planning.

Keywords: urban heat mitigation; land surface temperature; thermal imaging; Latin America; urban climate resilience

Cómo citar: Salgado, K., de la Barrera, F., Salinas, V., González, S., Reyes-Paecke, S., Truffello, R., & Salvati, A. (2025). Beyond the canopy: In situ evidence of urban green spaces’ cooling potential across three Chilean cities. Urban Science, 9(11), Article 485. https://doi.org/10.3390/urbansci9110485