Abstract
Current characterization of the Urban Heat Island (UHI) remains insufficient to support the effective mitigation and adaptation of increasing temperatures in urban areas. Planning and design strategies are restricted to the investigation of temperature anomalies at a city scale. By focusing on Land Surface Temperature of Wuhan, China, this research examines the temperature variations locally where mitigation and adaptation would be more feasible. It shows how local temperature anomalies can be identified morphologically. Technically, the MODerate-resolution Imaging Spectroradiometer satellite image products are used. They are first considered as noisy observations of the latent temperature patterns. The continuous latent patterns of the temperature are then recovered from these discrete observations by using the non-parametric Multi-Task Gaussian Process Modeling. The Multi-Scale Shape Index is then applied in the area of focus to extract the local morphological features. A triplet of shape, curvedness and temperature is formed as the criteria to extract local heat islands. The behavior of the local heat islands can thus be quantified morphologically. The places with critical deformations are identified as hotpots. The hotspots with certain yearly behavior are further associated with land surface composition to determine effective mitigation and adaptation strategies. This research can assist in the temperature and planning field on two levels: (1) the local land surface temperature patterns are characterized by decomposing the variations into fundamental deformation modes to allow a process-based understanding of the dynamics; and (2) the characterization at local scale conforms to planning and design conventions where mitigation and adaptation strategies are supposed to be more practical. The weaknesses and limitations of the study are addressed in the closing section.
Highlights
Cities possess a higher warming rate, and some are detected to be warming at twice the rate of the globe during the past 50 years [1]
Taking the image data acquired at 13:30 on 27 July 2012 as an example, the latent pattern of the Land Surface Temperature (LST) is recovered by using the Multi-Task Gaussin Process (MTGP) model
The determination gives statistically robust results. Such a smooth continuous surface successively helps to apply the Multi-scale Shape Index (MSSI) and related criteria to characterize the morphological features of the latent LST
Summary
Cities possess a higher warming rate, and some are detected to be warming at twice the rate of the globe during the past 50 years [1]. Known as the Urban Heat Island (UHI) [2], the magnitude of the UHI could be up to 12 ̋ C under calm and clear weather conditions [3,4,5]. Such a phenomenon has been documented since the 1800s [6]. The temperature has been analyzed in a more structured manner by recognizing the distinctive meteorological processes of urban areas. Studies have shown that temperature behavior is substantially influenced by land-use change [8], and suggested different heating contributions in terms of land-use change and other anthropogenic contributions
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