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climate-debate

CO2 Emissions Hit Record High in 2021

by P. Homewood, Mar 9, 2022 in NotaLotofPeopleKnowThat

Energy-related CO2 emissions grew to
36.3 Gt in 2021, a record high

 

Global CO2 emissions from energy combustion and industrial processes1 rebounded in 2021 to reach their highest ever annual level. A 6% increase from 2020 pushed emissions to 36.3 gigatonnes (Gt), an estimate based on the IEA’s detailed region-by-region and fuel-by-fuel analysis, drawing on the latest official national data and publicly available energy, economic and weather data.

The Covid-19 pandemic had far-reaching impacts on energy demand in 2020, reducing global CO2emissions by 5.2%. However, the world has experienced an extremely rapid economic recovery since then, driven by unprecedented fiscal and monetary stimulus and a fast – although uneven – roll-out of vaccines. The recovery of energy demand in 2021 was compounded by adverse weather and energy market conditions, which led to more coal being burnt despite renewable power generation registering its largest ever annual growth. 

Emissions increased by almost 2.1 Gt from 2020 levels. This puts 2021 above 2010 as the largest ever year-on-year increase in energy-related CO2 emissions in absolute terms. The rebound in 2021 more than reversed the pandemic-induced decline in emissions of 1.9 Gt experienced in 2020. CO2 emissions in 2021 rose to around 180 megatonnes (Mt) above the pre-pandemic level of 2019.

The 6% increase in CO2 emissions in 2021 was in line with the jump in global economic output of 5.9%. This marks the strongest coupling of CO2 emissions with Gross domestic product (GDP) growth since 2010, when global emissions rebounded by 6.1% while economic output grew by 5.1% as the world emerged from the Global Financial Crisis.

climate and geology

Well-preserved fossils could be consequence of past global climate change

by C. Rotter, Mar 9, 2022 in WUWT

Peer-Reviewed Publication

UNIVERSITY OF TEXAS AT AUSTIN

Lead researcher in the labIMAGE: LEAD AUTHOR SINJINI SINHA, A GRADUATE STUDENT AT THE UNIVERSITY OF TEXAS AT AUSTIN’S JACKSON SCHOOL OF GEOSCIENCES, EXAMINES IMAGES OF FOSSIL SPECIMENS IN THE SCANNING ELECTRON MICROSCOPE LAB. SINHA USED THE MICROSCOPE TO EXAMINE EXCEPTIONALLY PRESERVED FOSSILS AND LEARN MORE ABOUT THE FOSSILIZATION PROCESS. view more 
CREDIT: THE UNIVERSITY OF TEXAS AT AUSTIN/JACKSON SCHOOL OF GEOSCIENCES.
Climate change can affect life on Earth. According to new research, it can also affect the dead.
A study of exceptionally preserved fossils led by a graduate student at The University of Texas at Austin has found that rising global temperatures and a rapidly changing climate 183 million years ago may have created fossilization conditions in the world’s oceans that helped preserve the soft and delicate bodies of deceased marine animals.
The fossils include squid-like vampyropods with ink sacs, ornate crustacean claws and fish with intact gills and eye tissue.
Despite being from different locations and marine environments, the fossils were all preserved in a similar manner. Geochemical analysis revealed that the conditions needed to preserve such captivating fossils could be connected to Earth’s climate.
“When I started the research, I had no idea if they would preserve the same way or a different way,” said lead author Sinjini Sinha, a graduate student at the UT Jackson School of Geosciences. “I was curious what led to the exceptional preservation.”
The research was published in Scientific Reports.