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In the fall of 2016, the Arctic experienced heat that was so extreme that one expert called it a black swan event. That warmth helped set a new annual temperature record that was double the magnitude of the record set the year before. New NOAA-led research confirms that the event could not have happened without human-caused global warming and sea ice loss.
These maps compare the observed differences from average temperature in 2016 (left) to two computer simulations of 2016 (right). The top right map shows results from models that included only natural climate influences, using estimated conditions from the late nineteenth century. The bottom right map shows results from models in which things like greenhouse gases, sea surface temperatures, and sea ice were allowed to change as they have in the real world due to human activities.
None of the simulations using only natural climate influences were able to reproduce the extreme warmth that overtook the Arctic in 2016. Instead, those models projected that there would have been some areas that were cool and some that were warm, but not extremely so. Only the simulations that mirrored human-caused changes in greenhouse gases and the resulting sea ice loss were able to generate a realistic picture of the extreme heat. The most realistic simulations were generated by models in which sea ice was not only allowed to shrink in area, but also to thin—just as it has in the real world.
The scientists concluded that there was virtually zero chance that such an extreme heat event would have occurred without human influence on the climate. But they also concluded that its severity—exactly how far above average the temperatures were— was partially due to natural variability, including the influence of the strong 2015-16 El Niño event in the tropics.
This overlap of the impacts of human-caused climate change and natural variability is a common theme for many types of extreme weather events from high-tide flooding to heavy downpours. Events like the extreme warmth in the Arctic in 2016 are an early preview of what “normal” may look like within as little as a decade if greenhouse gas emissions continue their rapid rise.
References:
Sun, L., Allured, D., Hoerling, M., Smith, L., Perlwitz, J., Murray, D., & Eischeid, J. (2018). Drivers of 2016 record Arctic warmth assessed using climate simulations subjected to Factual and Counterfactual forcing. Weather and Climate Extremes, 19, 1–9. https://doi.org/10.1016/j.wace.2017.11.001
2016 Arctic heat would have been virtually impossible without global warming by Rebecca Lindsey, NOAA's Climate.gov, May 7, 2018
Hat tip to Stop Climate Science Denial.
Another extreme heat wave strikes the North Pole by Jason Samenow, Capital Weather Gang, Washington Post, May 7, 2018
The Climate Denier Roundup article, Free Speech on Campus Under Attack...By the Koch Bros, posted on the Daily Kos includes the following:
Case in point: the AP last week reported that newly released documents from 2003 to 2011 revealed that the Kochs had influence over the hiring process for their Mercatus center at George Mason University. Considering the Kochs had funded the center to the tune of nearly $50 million, this should be more of a confirmation of suspicions than startling revelation. (To be perfectly clear, the Mercatus Center is somewhat independent of George Mason itself, which employs great folks like climate communications researcher Ed Maibach and Dr. 97% himself, John Cook.)
Program in Atmospheres, Oceans and Climate (PAOC)
PAOC oversees a broad program of education and research in atmospheric, oceanic, and climate sciences. We are engaged in some of the most intellectually challenging and important problems in science, such as the physics of hurricanes, and the dynamics of ice ages. PAOC is part of the Department of Earth, Atmospheric and Planetary Sciences at MIT and includes members from other MIT departments and from Woods Hole Oceanographic Institution.
The phenomena under study involve a large array of scientific disciplines - geophysics, geochemistry, physical and chemical oceanography, meteorology, atmospheric chemistry, and planetary science. The program carries out research and gives instruction in all of these principal areas. Perhaps more than any other program in the world, PAOC offers its students unique opportunities for interdisciplinary study and research. In all areas we emphasize a combination of theoretical, observational and modeling approaches.
Students and researchers come from all over the world attracted not only by our programs but also the city of Cambridge and its environs which contain many institutions active in atmospheric and oceanographic research; Harvard University, Woods Hole Oceanographic Institution, and the Boston Office of the National Weather Service, as well as many private companies.
Contact with all of these institutions is maintained through seminars and symposia. Moreover students can formally take subjects at the Woods Hole Oceanographic Institution and Harvard University. The research and educational programs of PAOC also benefit from the larger intellectual milieu provided by MIT with its strengths in science and engineering. In research there are no departmental boundaries and we collaborate freely across discipline. PAOC is also involved in undergraduate education within the Department of Earth, Atmospheric and Planetary Sciences.
Alan Robock's bio page and quote source.
High resolution JPEG (1024 pixels wide)
Posted by John Hartz on Sunday, 13 May, 2018
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