Litcius/Paper detail

Seasonal hysteresis of surface urban heat islands

Gabriele Manoli, Simone Fatichi, Elie Bou‐Zeid, Gabriel G. Katul

2020Proceedings of the National Academy of Sciences140 citationsDOIOpen Access PDF

Abstract

Temporal dynamics of urban warming have been extensively studied at the diurnal scale, but the impact of background climate on the observed seasonality of surface urban heat islands (SUHIs) remains largely unexplored. On seasonal time scales, the intensity of urban-rural surface temperature differences ([Formula: see text]) exhibits distinctive hysteretic cycles whose shape and looping direction vary across climatic zones. These observations highlight possible delays underlying the dynamics of the coupled urban-biosphere system. However, a general argument explaining the observed hysteretic patterns remains elusive. A coarse-grained model of SUHI coupled with a stochastic soil water balance is developed to demonstrate that the time lags between radiation forcing, air temperature, and rainfall generate a rate-dependent hysteresis, explaining the observed seasonal variations of [Formula: see text] If solar radiation is in phase with water availability, summer conditions cause strong SUHI intensities due to high rural evaporative cooling. Conversely, cities in seasonally dry regions where evapotranspiration is out of phase with radiation show a summertime oasis effect controlled by background climate and vegetation properties. These seasonal patterns of warming and cooling have significant implications for heat mitigation strategies as urban green spaces can reduce [Formula: see text] during summertime, while potentially negative effects of albedo management during winter are mitigated by the seasonality of solar radiation.

Topics & Concepts

Environmental scienceAlbedo (alchemy)Urban heat islandEvapotranspirationSeasonalityClimatologyAtmospheric sciencesLatent heatForcing (mathematics)HysteresisBiosphereClimate changeGeographyMeteorologyEcologyGeologyPhysicsPerformance artArt historyQuantum mechanicsArtBiologyUrban Heat Island MitigationPlant Water Relations and Carbon DynamicsLand Use and Ecosystem Services