Study: Added Arctic data show warming didn't pause

November 20, 2017

Meghan Murphy
907-474-7541

Figure courtesy of Xiangdong Zhang. This figure shows the spatial distribution of the Arctic annual warming rate from 1998-2012 using the newly reconstructed surface air temperature data.
Figure courtesy of Xiangdong Zhang. This figure shows the spatial distribution of the Arctic annual warming rate from 1998-2012 using the newly reconstructed surface air temperature data.


Gaps in Arctic temperature data caused a misperception that global warming slowed from 1998 to 2012, according to a new study in the journal Nature Climate Change.

A University of Alaska Fairbanks professor and his colleagues in China built the first data set of surface temperatures from across the world that significantly improves representation of the Arctic during the "global warming hiatus."

Xiangdong Zhang, an atmospheric scientist with UAF's International Arctic Research Center, said he collaborated with colleagues at Tsinghua University in Beijing and Chinese agencies studying Arctic warming to analyze temperature data collected from buoys drifting in the Arctic Ocean.

“We recalculated the average global temperatures from 1998-2012 and found that the rate of global warming had continued to rise at 0.112C per decade instead of slowing down to 0.05C per decade as previously thought,” said Zhang, who is also a professor with UAF's College of Natural Science and Mathematics.

Zhang said their new estimates showed that the Arctic warmed more than six times the global average during that time period.

Photo by Ignatius Rigor of the Polar Science Center, Applied Physics Laboratory University of Washington. . A research team deploys an ice beacon on sea ice north of Utqiagvik (formerly known as Barrow), Alaska's northernmost community.
Photo by Ignatius Rigor of the Polar Science Center, Applied Physics Laboratory University of Washington. . A research team deploys an ice beacon on sea ice north of Utqiagvik (formerly known as Barrow), Alaska's northernmost community.


The team developed new methods of incorporating the Arctic temperature data into global temperature data to better estimate the average temperatures.

Most current estimates use global data that tend to represent a long time span and provide good coverage of a global geographic area. But the remote Arctic lacks a robust network of instruments to collect temperature data.

To improve the dataset in time and space, the team relied on temperature data collected from the International Arctic Buoy Program at the University of Washington. For global data, the team used newly corrected sea surface temperatures from the National Oceanic and Atmospheric Administration.

Zhang said this study expands on NOAA research and other recent studies that have either supported or refuted the idea of a “global warming hiatus” by re-estimating the average global temperatures during that time period with more accurate and representative data.

The global warming hiatus is a much-debated topic among climate researchers. Some scientists theorized that an unusually warm El Niño in the years 1997-1998 and an extended period afterward without an El Niño in the tropical Pacific Ocean may have disrupted the rate of global warming.

The Earth’s average global temperatures have been rising over the past century and accelerating as more human produced carbon dioxide enters and lingers in the atmosphere, which is why the idea of “global warming hiatus” seemed baffling to some scientists.

But the new data set and resulting estimates show conclusively that the warming didn't pause.

Photo by Ignatius Rigor of the Polar Science Center, Applied Physics Laboratory University of Washington.. A seasonal ice beacon floats in the Arctic Ocean after a research team deploys it from the ice breaker, the USCGC Healy.
Photo by Ignatius Rigor of the Polar Science Center, Applied Physics Laboratory University of Washington.. A seasonal ice beacon floats in the Arctic Ocean after a research team deploys it from the ice breaker, the USCGC Healy.


It also highlights the importance of considering the Arctic when thinking about climate change. Until recently, Zhang said, many scientists didn’t consider the Arctic big enough to greatly influence the average global temperatures.

“The Arctic is remote only in terms of physical distance,” he said. “In terms of science, it’s close to every one of us. It’s a necessary part of the equation and the answer affects us all.”

The National Science Foundation, the State Key Development Program for Basic Research of China, the Tsinghua University Initiative Scientific Research Program and the China Meteorological Administration Special Public Welfare Research Fund supported this research.

ADDITIONAL CONTACTS: Xiangdong Zhang, xzhang9@alaska.edu

PAPER: Please contact Meghan Murphy, mmmurphy3@alaska.edu, 907-474-7541 for a copy of the paper.