OCO-2 satellite

An artist’s conception shows the OCO-2 satellite. (NASA Illustration)

Readings from NASA’s Orbiting Carbon Observatory-2 have confirmed that the El Niño weather pattern of 2015-2016 was behind the biggest annual increase in atmospheric carbon dioxide levels in millennia.

The OCO-2 satellite, launched in 2014, is designed to provide a detailed picture of how carbon is exchanged between air, land and sea.

OCO-2 data showed that 2015’s El Niño weather, created by warmer waters in the central and eastern Pacific Ocean, led to hotter conditions in tropical regions of South America, Africa and Indonesia.

In South America, drought stressed out vegetation so much that less carbon dioxide was converted through photosynthesis into oxygen, researchers reported today in the journal Science.

In Africa, hotter-than-normal temperatures led to faster decomposition of dead trees and plants, releasing more carbon into the atmosphere. And in Indonesia, dry conditions led to increased fires, which also released more carbon.

The El Nino in 2015-16 impacted the amount of carbon dioxide that Earth’s tropical regions released into the atmosphere, leading to a recent record spike in atmospheric CO2. (NASA / JPL-Caltech Graphic)

“These three tropical regions released 2.5 gigatons more carbon into the atmosphere than they did in 2011,” lead study author Junjie …read more

Source:: GeekWire

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