The influence of manmade global warming on the climate system continues to grow, with human fingerprints identified in more than two dozen climate “indicators” examined by an international research team — from air temperatures to ocean acidity — for a comprehensive annual “State of the Climate” report released Tuesday.
In a related study also released on Tuesday, climate researchers said manmade global warming is already shifting the probability of many extreme weather and climate events, making heat waves, droughts, and other events more likely to occur in some parts of the world. The study found that manmade global warming made the devastating Texas drought and heat wave of 2011, which was the most expensive drought in the Lone Star State’s history, at least 20 times more likely compared to years with similar large-scale weather patterns in the 1960s. The report also tied other recent extreme events worldwide to manmade warming.
Together, the two reports amount to a comprehensive accounting of the present state of the climate system, over which mankind is now exerting a greater impact than ever before.
Drought map from June 2011, showing the intensifying drought in Texas and northern Mexico. Credit: NOAA.
“Every weather event that happens now takes place in the context of a changing global environment,” said deputy NOAA administrator Kathryn D. Sullivan in a press release. The reports were released during a time when extreme weather events have been making international headlines, with the U.S. having just experienced an historic heat wave that has withered crops. Drought has expanded across the lower 48 states, affecting 56 percent of the contiguous U.S., and Russia is burying the dead from flash flooding that struck Krymsk, a small town near the Black Sea. Through June, the U.S. has had its warmest 12-month period, warmest year-to-date on record, and also saw a string of deadly wildfires.
The “State of the Climate 2011” report, published by the National Oceanic and Atmospheric Administration (NOAA) and the American Meteorological Society (AMS), presents a peer reviewed tour through the weather and climate events of 2011. The overriding theme that emerges from the report is that the effects of human activities are readily evident, be it in the form of rising concentrations of greenhouse gases in the atmosphere — global carbon dioxide concentrations hit a new all-time high of 390 parts per million last year, and will cross the 400 ppm threshold worldwide by 2016 — to the inexorable increase in ocean heat content.
The report shows that a La Nina event, characterized by cooler-than-average sea surface temperatures, helped keep global average surface temperatures down compared to 2010, but it was one of the warmest La Nina years on record.
In the Arctic, which has been warming at twice the rate of the rest of the globe, 2011 had the second-lowest sea ice extent on record. Barrow, Alaska, located above the Arctic Circle, experienced a record 86 straight days when the temperature failed to drop below freezing.
The report also contains evidence from ocean salinity measurements that the global water cycle is intensifying. “The dry regions are getting drier and the wet regions are getting wetter,” Kate Willet, a senior scientist at the U.K. Met Office said on a conference call with reporters.
The other climate assessment, which was also released by NOAA and the AMS, represents a step forward in efforts to decipher how manmade global warming is influencing specific extreme weather and climate events.
As the reports, along with prior studies, point out, some extreme events are much more likely to occur in a warming world. Researchers used different and largely novel approaches to analyze a half-dozen extreme weather and climate events that occurred last year, from the brutal Texas drought and heat wave to the deadly Thailand floods.
The report notes that global warming has already been playing a role in shifting the odds for several of these extreme events, including the Texas drought. The 2011 growing season was by far the warmest and driest in Texas history, and the drought was the worst one-year drought on record there as well, costing billions in agricultural losses.
The study concluded that, due to manmade global warming, La Nina-related heat waves are now 20 times more likely to occur in Texas than they were 50 years ago.
According to Peter Stott, who leads the Climate Monitoring and Attribution team at the U.K.’s Met Office, since manmade global warming is boosting average temperatures, it makes it more likely that certain thresholds will be reached or exceeded when a La Nina occurs. Weather patterns during La Nina years naturally tend to favor warmer and drier conditions in the Lone Star State.
“You’re [now] much more likely to have exceptional warmth,” in Texas during a La Nina year, Stott said.
Other researchers looked at international events and came to different conclusions depending on the questions researchers asked and the specific event in question. For example, scientists looked into the shifting odds for two unusual months that the U.K. experienced in 2010 and 2011. The U.K. had a very warm November of 2011, and rare cold during December 2010, during which time much of Britain experienced a white Christmas.
The study found that, because of manmade global warming and other factors, cold Decembers are now half as likely to occur as they were 50 years ago, and warm Novembers are 62 times more likely to take place.
Other experts in the burgeoning field of “extreme-event attribution” took on the challenge of determining whether there was a global warming influence on the record Thailand floods of last year.
The floods were the worst to occur there since 1942, with some areas remaining submerged by 6 feet of water for more than two months, according to NOAA. The floodwaters damaged or destroyed many high tech manufacturing centers, leading to delays in shipping equipment such as laptop computers.
In this case, the researchers found evidence that the floods were manmade, but not because of climate change. The study concluded that the rainfall amounts were not actually unprecedented or that unusual for Thailand, and that industrial development, reservoir management policies, and other trends on the ground contributed to the flooding.
“The flooding was unprecedented but the rainfall that produced it was not,” Stott said.
Stott is working with an international team of scientists to advance extreme-event assessments, and has raised the possibility of eventually being able to conduct them in near-real time if the science advances far enough.