Abstract
Establishing appropriate heatwave thresholds is important in reducing adverse human health consequences as it enables a more effective heatwave warning system and response plan. This paper defined such thresholds by focusing on the non-linear relationship between heatwave outcomes and meteorological variables as part of an inductive approach. Daily data on emergency department visitors who were diagnosed with heat illnesses and information on 19 meteorological variables were obtained for the years 2011 to 2016 from relevant government agencies. A Multivariate Adaptive Regression Splines (MARS) analysis was performed to explore points (referred to as “knots”) where the behaviour of the variables rapidly changed. For all emergency department visitors, two thresholds (a maximum daily temperature ≥ 32.58°C for 2 consecutive days and a heat index ≥ 79.64) were selected based on the dramatic rise of morbidity at these points. Nonetheless, visitors, who included children and outside workers diagnosed in the early summer season, were reported as being sensitive to heatwaves at lower thresholds. The average daytime temperature (from noon to 6 PM) was determined to represent an alternative threshold for heatwaves. The findings have implications for exploring complex heatwave-morbidity relationships and for developing appropriate intervention strategies to prevent and mitigate the health impact of heatwaves.
Highlights
An extended period of abnormally hot weather can cause adverse human health effects
The mathematical equation resulting from the Multivariate Adaptive Regression Splines (MARS) model for all emergency department visitors diagnosed with heat illnesses can be expressed as HWwhole 1⁄4 0:08 À 0:009 maxð0; 32:95 À AvgTmaxLag1Þ þ 0:179 maxðAvgTmaxLag1
This study developed a definition for the heatwave using a machine learning technique, MARS, to describe the fundamental relationship between i) the daily frequency of emergency department visits associated with heat illness, and ii) 19 meteorological factors
Summary
An extended period of abnormally hot weather (commonly referred to as a heatwave) can cause adverse human health effects. Duration and intensity of extreme heat events are predicted to increase due to climate change [1], many countries have implemented heatwave warning systems and response plans to reduce the human health consequences. Defining a “heatwave” is one key factor in effectively mitigating the impacts of extreme heat events. Certain meteorological thresholds (i.e., two or more consecutive days at a maximum temperature above a certain value) are used for evaluating heatwave extremes and triggering warning systems [2, 3]. Some action plans to protect vulnerable groups have been designed based on such thresholds.
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