Urban heat adaptation strategies assume stable human bioclimatic potential responses across time
and space, yet cities transform substantially between day and night: thermally, acoustically,
visually, and in terms of perceived safety, fundamentally altering how populations sense and
respond to environmental exposures. Laboratory-based thermal comfort frameworks miss this
real-world contextual complexity. This study introduces urban chronotypes: four distinct patterns
of physiological and behavioral response to urban climatic conditions emerging from the interaction of time of day and perceived safety and examines their implications for climate vulnerability and heat adaptation effectiveness. In Brussels Capital Region during summer 2025, 36
monitoring sessions were conducted across morning and night walks through validated highsafety and low-safety urban areas, generating 2132 validated exposure-physiology-behavior
pathway observations using synchronized wearable environmental, physiological, and eyetracking sensors. Three findings emerge. First, unsafe contexts reversed physiologicalbehavioral coupling from positive to near-zero, demonstrating that cooling strategies deployed
in unsafe areas fail to produce protective behavioral responses despite intact physiological heat
sensing, a climate adaptation failure disproportionately affecting urban dwellers. Second, thermal
bioclimatic processing showed unique context-dependence (+24% coupling in nighttime conditions, Bonferroni-corrected), while air quality, acoustic, and visual processing remained stable
across all contexts. Third, nighttime processing accelerated by 3.6 min regardless of safety
context, establishing a universal 14–16 min adaptation window as the minimum duration urban
climate interventions must persist to enable complete physiological-behavioral integration. Urban
climate vulnerability is not solely determined by thermal exposure magnitude but is critically
shaped by perceived safety and temporal context, demanding integrated climate-safety approaches to urban heat adaptation
Grapas, C., Llaguno, M., Pisello, A. L., & Irajpour, A. (2026). Urban chronotypes as climate vulnerability indicators: Safety-modulated bioclimatic responses and adaptive behavior across diurnal urban contexts. Urban Climate, 67, 102906. https://doi.org/10.1016/j.uclim.2026.102906 (Original work published 2026)