Earth on the edge: Record breaking 2016 was close to 1.5°C warming
Reading, 05 January 2017
- 2016 confirmed as the warmest year on record, warmer than 2015 by close to 0.2°C
- Global temperatures reached a peak in February 2016 around 1.5°C higher than at the start of the Industrial Revolution
- Extreme conditions impacting several regions across the Earth
The first global analysis of the whole of 2016 has confirmed last year as the warmest on record and saw the planet near a 1.5°C warming, according to the Copernicus Climate Change Service (C3S).
The latest figures from C3S, part of the EU’s Copernicus earth observation programme, show that 2016’s global temperature exceeded 14.8°C, and was around 1.3°C higher than typical for the middle years of the 18th century. 2016 was close to 0.2°C warmer than 2015, which was previously the warmest year on record.
Countries agreed in Paris in 2015 to holding the increase in the global average temperature to well below 2 °C above pre-industrial levels and to pursue efforts to limit the temperature increase to 1.5 °C above pre-industrial levels, recognizing that this would significantly reduce the risks and impacts of climate change.
A more dangerous climate
Global warming increases the likelihood of extreme weather events such as heatwaves, droughts and floods. Future warming could cause billions of euro of damage each year and affect the availability of fresh water and crop yields in the most vulnerable countries.
Director of ECMWF’s Copernicus Services Juan Garcés de Marcilla said:
“We are already seeing around the globe the impacts of a changing climate. Land and sea temperatures are rising along with sea-levels, while the world’s sea-ice extent, glacier volume and snow cover are decreasing; rainfall patterns are changing and climate-related extremes such as heatwaves, floods and droughts are increasing in frequency and intensity for many regions. The future impact of climate change will depend on the effort we make now, in part achieved by better sharing of climate knowledge and information.
To help decision-makers develop effective adaptation and mitigation solutions we make the data from Copernicus Climate Change Service (C3S) and the Copernicus Atmosphere Monitoring Service (CAMS) freely and openly available. By mainstreaming the information that the Copernicus Services hold into climate policy and strategy, governments, the private sector and society can identify and unite around opportunities to tackle further climate change and reduce vulnerability where its effects are unavoidable.”
C3S found that global temperatures in February 2016 already touched the 1.5°C limit, thoughunder the influence of a strong El Niño, an intermittent event involving a period of warming. Global temperatures still remained well above average in the second half of 2016, associated partly with exceptionally low sea-ice cover in both the Arctic and Antarctic.
Annual global air temperature at a height of two metres (left axis) and estimated change from the beginning of the industrial era (right axis). Sources: Copernicus Climate Change Service, ECMWF, for data from 1979; Met Office Hadley Centre, NASA and NOAA for blended data prior to 1979.
(Credit: ECMWF, Copernicus Climate Change Service)
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C3S found that most regions around the world experienced above-average temperatures during 2016. The largest differences in regional average temperatures were found in the Arctic but conditions were also extreme over southern Africa early in the year, over southern and south-eastern Asia prior to the summer monsoon, over the Middle East later in summer, and over parts of North America in summer and autumn.
Air temperature at a height of two metres for 2016, shown relative to its 1981-2010 average. Source: Copernicus Climate Change Service, ECMWF. (Credit: ECMWF, Copernicus Climate Change Service)
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In addition to record temperatures, ECMWF’s Copernicus Services monitored other extremes occurring in 2016, including significant global wildfires and the growth of CO2 in the atmosphere. Destructive fires were observed around Fort McMurray, Canada in May and then extensive wildfires across Siberia, associated with the year’s high surface temperatures, during June and July.
For the first year CO2 levels did not return below 400 ppm as summer turned to autumn in the Northern Hemisphere. In previous years, take-up of CO2 by vegetation during the summer growing season has typically seen September mark the lowest point for CO2 levels.