Faster CO2 rise expected this year: Study

Faster CO2 rise expected this year: Study

The Earth this year may witness one of the largest increase in atmospheric carbon dioxide in over six decades of record keeping, scientists say.

The forecast by researchers from the UK Met Office and the University of Exeter is based on a combination of factors including rising anthropogenic emissions and a relative reduction in the uptake of carbon-dioxide by ecosystems due to tropical climate variability.

"Since 1958, monitoring at the Mauna Loa observatory in Hawaii has registered around a 30 per cent increase in the concentration of carbon dioxide in the atmosphere," said Richard Betts, a professor at University of Exeter.

"This is caused by emissions from fossil fuels, deforestation and cement production, and the increase would have been even larger if it were not for natural carbon sinks which soak up some of the excess CO2," Betts said.

"This year we expect these carbon sinks to be relatively weak, so the impact of record high human-caused emissions will be larger than last year," he said.

Weather patterns linked to year-by-year swings in Pacific Ocean temperatures are known to affect the uptake of carbon-dioxide by land ecosystems.

In years with a warmer tropical Pacific, many regions become warmer and drier, which limits the ability of plants to grow and absorb CO2. The opposite occurs when the Pacific is cool, as happened a year ago.

The Met Office forecast suggests that the average rise in atmospheric CO2 will be 2.75 parts per million (ppm) higher in 2019 than in 2018.

This figure would be among the largest annual rises on record, but less than those in 2015-2016 and 1997-1998 -- years with El Nino events and hence large Pacific warming.

In the first decade of measurements, the rise of atmospheric CO2 was less than 0.9 ppm per year. The rise has since become generally faster over time as human emissions have increased, but with fluctuations related to climate swings such as El Nino.

The average CO2 concentration in 2019 is forecast to be 411.3 ppm, with monthly averages reaching a peak of 414.7 ppm in May, temporarily dropping back to 408.1 ppm in September before rising again at the end of the year.

"Looking at the monthly figures, it's as if you can see the planet 'breathing' as the levels of carbon dioxide fall and rise with seasonal cycle of plant growth and decay in the northern hemisphere," said Betts.

"But each year's CO2 is higher than the last, and this will keep happening until humans stop adding CO2 to the atmosphere. Testing our predictions of the details of this helps us improve our understanding of feedbacks in the climate system," he said.