The annual State of the Climate report from the National Oceanic and Atmospheric Administration (NOAA) and American Meteorological Societyassembles climate studies and reports from the previous year in one package. The 25th annual report is out and the news isn’t good: indicators ofclimate change show up everywhere.
“Most of the dozens of essential climate variables monitored each year in this report continued to follow their long-term trends in 2014, with several setting new records,” the report said.
A lot of the 292-page study is highly technical as it incorporates the work of more than 400 scientists analyzing everything from temperatures to precipitation to extreme weather events to ice melt all over the world. But one of the main conclusions of the report is how much things are changing and how quickly.
Perhaps Jeff Severinghaus of the Scripps Institution of Oceanography provides the best takeaway from the report, saying, if this is Earth’s annual checkup, “the doctor is saying ‘you are gravely ill.’”
Here are seven climate records broken in 2014:
1. Hottest Year: Records for the hottest temperature were set around the world with the highest average global surface temperature since record-keeping began, according to four separate analyses. Records were shattered everywhere. Europe and Mexico had their warmest years ever, while Argentina and Uruguay had their second hottest years and Australia its third warmest after enduring all-time record heat in 2013. Africa and Asia also had above-average temperatures.
“Warmer-than-average conditions were present across much of the world’s land and ocean surfaces during 2014,” the report said. “These contributed to a global average temperature that was the highest or joint highest since records began in the mid-to-late 1800s. Over land surfaces, Eurasia and western North America were particularly warm, while noticeable cold was felt in eastern North America, which suffered several Arctic cold-air outbreaks in early 2014. The frequency of warm extreme temperatures was above average for all regions apart from North America.”
2. Greenhouse Gas Emissions: Driving those temperature increases were all the major heat-trapping greenhouse gases, including carbon dioxide, methane and nitrous oxide, which reported record-high atmospheric concentrations. Carbon levels at Mauna Loa stayed above 400 ppm from April through June, and globally the average was 397.2ppm. Methane concentrations rose as well, with an increase that’s bigger than the average annual increase of the past decade.
3. Sea Surface Temperature: The average sea surface temperature globally was the highest on record, with especially warm temperatures in the western Atlantic and central and northeast Pacific. While this didn’t drive an El Niño event in 2014, scientists expect one to arrive in 2015.
4. Ocean Temperature: The heat content of the ocean’s waters also set a record, reflecting the fact that the oceans absorb more than 90 percent of the heat trapped in the Earth’s atmosphere by greenhouse gases. As greenhouse gases rise, therefore, so do ocean temperatures.
5. Sea Level Rise: Sea levels are setting records too. Sea levels are now about 67 millimeters, or about 2.6 inches, higher than they were in 1993. Factors contribution to this rise includes the melting of glaciers and other sea ice, the fact that water expands as it warms and melting land ice flowing out to sea.
6. Greenland Ice Melt: The Greenland ice sheet was above average in its rate for melt for 90 percent of the regular melt season. It hit a record low for August in how much of the sun’s energy is reflected off its surface. Melting darkens the ice sheet’s surface, making it less able to reflect the sun’s energy.
7. Antarctic Ice Melt: Antarctic sea ice set a different record—for highest sea ice extent, which has broken records three years running. One possible reason for that is changing wind patterns, scientists say. Without land to block it as in the Arctic, ice near land blows out to sea, exposing open water, which then freezes. While it might sound counterintuitive to the idea of a warming planet, it’s indicative of potentially climate change-driven atmospheric shifts.
“As we step into the next quarter-century of this report’s life, we look forward to seeing our Earth science disciplines grow to meet the challenges associated with documenting the evolving state of our planet’s climate system in this series,” says the report. “These challenges are not just in observing and documenting, but in connecting: across the climate system’s several major components and associated myriad sub-components, the time scales and observing practices related to these, and the possibilities of satellite-era Big Data with the longevity and purpose of more traditional observations.”