Our results find the rate of increase in the annual number of extreme heat events between 1956 and 2005 in the most sprawling metropolitan regions to be more than double the rate of increase observed in the most compact metropolitan regions.The primary author, Brian Stone, is also quoted by OurAmazingPlanet as follows:
"These findings show that the pace of climate change is greater in sprawling cities than in others, which has not been shown before."The study uses "urban sprawl" as the independent variable, which is more sophisticated than simply using a city's population size. That said, these findings essentially confirm what I stated in my post titled Urban Heat Island Effect - A Model. Briefly, I had determined that the UHI effect on the 130-year temperature trend depends logarithmically on the size of a station's associated town, but only if the town's population is greater than about a million people.