@ The University of Oklahoma

Month: February 2024

New paper on urban causal interactions under heat waves published in npj Urban Sustainability

Our new paper, “Megacities are causal pacemakers of extreme heatwaves“, is published in npj Urban Sustainability.

The paper and its supporting information can be downloaded at https://www.nature.com/articles/s42949-024-00148-x.

Authors: Xueli Yang, Zhi-Hua Wang, Chenghao Wang, and Ying-Cheng Lai

Abstract: Global climate change has been shown to cause longer, more intense, and frequent heatwaves, of which anthropogenic stressors concentrated in urban areas are a critical contributor. In this study, we investigate the causal interactions during heatwaves across 520 urban sites in the U.S. combining complex network and causal analysis. The presence of regional mediators is manifest in the constructed causal networks, together with long-range teleconnections. More importantly, megacities, such as New York City and Chicago, are causally connected with most of other cities and mediate the structure of urban networks during heatwaves. We also identified a significantly positive correlation between the causality strength and the total populations in megacities. These findings corroborate the contribution of human activities e.g., anthropogenic emissions of greenhouse gases or waste heat, to urban heatwaves. The emergence of teleconnections and supernodes are informative for the prediction and adaptation to heatwaves under global climate change.

DOI: https://doi.org/10.1038/s42949-024-00148-x

Fig. 6. Comparison of causality (outdegree) with two population metrics for 53 large U.S. cities with a population over 200,000 during the 2020 heatwave event (July 18-22). a, b For population totals, and c, d are for population density. The top panel shows comparison maps of the causal outdegree (triangular markers) and population metrics: population totals in a and population density in c, with sizes represented by gray shaded circles. The bottom panel represents the log-log correlation between the causal outdegree and population metrics: population totals in b and population density in d and causality, with sizes represented by colored circles.

Jessica Leffel joined our group. Welcome!

Jessica Leffel recently joined the Sustainable URban Futures (SURF) Lab as an M.S. student in Meteorology. Welcome!

Prior to coming to OU, Jessica graduated from Barrett the Honors College at Arizona State University with a bachelor’s degree in Meteorology-Climatology. Her previous research analyzed the relationship between tropospheric ozone pollution and synoptic conditions in Phoenix, Arizona. In addition, Jessica worked as a meteorologist for the National Oceanic and Atmospheric Administration/National Weather Service Phoenix office.

Jessica’s research interests include applied climatology, energy, urban meteorology, climate variability, and synoptic meteorology. Advised by Dr. Chenghao Wang, her research at OU will aim to enhance urban building energy use predictions with the development of an integrated modeling framework that accounts for local and regional meteorological conditions. This will combine building stock models with urban meteorological models to create more accurate predictions of city-level building energy use.

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