2020 ties with 2016 as hottest year yet, European analysis shows

NEW YORK (NYTIMES) – Last year effectively tied with 2016 as the hottest year on record, European climate researchers announced on Friday (Jan 8), as global temperatures continued their relentless rise brought on by the emission of heat-trapping greenhouse gases.

The record warmth – which fuelled deadly heat waves, droughts, intense wildfires and other environmental disasters around the world in 2020 – occurred despite the development in the second half of the year of La Nina, a global climate phenomenon marked by surface cooling across much of the equatorial Pacific Ocean.

And while 2020 may tie for the record, all of the last six years are among the hottest ever, said Dr Freja Vamborg, a senior scientist with the Copernicus Climate Change Service.

“It’s a reminder that temperatures are changing and will continue to change if we don’t cut greenhouse gas emissions,” Dr Vamborg said.

According to Copernicus, a programme of the European Union, the global average temperature in 2020 was 1.25 deg C warmer than the average from 1850 to 1900, before the rise of emissions from spreading industrialisation. The 2020 average was very slightly lower than the average in 2016, too small a difference to be significant.

Some regions experienced exceptional warming. For the second year in a row, Europe had its warmest year ever, and suffered from deadly heat waves. But the temperature difference between 2020 and 2019 was striking: 2020 was 0.4 deg C warmer.

While not quite as drastic as in Europe, temperatures across North America were above average as well. The warming played a critical role in widespread drought that affected most of the western half of the United States and intense wildfires that ravaged California and Colorado.

The Arctic is warming much faster than elsewhere, a characteristic that was reflected in the 2020 numbers. Average temperatures in some parts of the Arctic were more than 6 deg C higher last year than a baseline average from 1981 to 2010. Europe, by contrast, was 1.6 deg C higher last year than the same baseline.

In the Arctic, and especially in parts of Siberia, abnormally warm conditions persisted through most of the year. In Siberia, the heat led to drying of vegetation that helped fuel one of the most intense wildfire seasons in history.

Parts of the Southern Hemisphere experienced lower-than-average temperatures, possibly as a result of the arrival of La Nina conditions in the second half of 2020.

Dr Vamborg said that it is difficult to attribute any temperature differences directly to La Nina, but the cooling effect of the phenomenon may be why December 2020, when La Nina was strengthening, was only the sixth-warmest December ever, while most of the other months of the year were in the top three.

Dr Zeke Hausfather, a research scientist at Berkeley Earth, an independent research group in California, said the greatest effect of La Nina on global temperatures tends to come several months after conditions peak in the Pacific.

“So while certainly La Nina had some cooling effect in the last few months, it’s likely going to have a bigger impact on 2021 temperatures,” he said.

Dr Hausfather said it was striking that 2020 matched 2016, because that year’s record warmth was fuelled by El Nino. El Nino is essentially the opposite of La Nina, when surface warming in the Pacific tends to supercharge global temperatures.

So 2020 and 2016 being equally warm, Dr Hausfather said, means that the last five years of global warming have had a cumulative effect that is about the same as El Nino.

More on this topic

Berkeley Earth will release its own analysis of 2020 global temperatures later this month, as will the National Oceanic and Atmospheric Administration and Nasa. The three analyses take a similar approach, essentially compiling thousands of temperature measurements worldwide.

Copernicus employs a technique called re-analysis, which uses fewer temperature measurements but adds other weather data like air pressure, and feeds it all into a computer model to come up with its temperature averages.

Despite the differences, the results of the analyses tend to be very similar.


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