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Global emissions almost back to pre-pandemic levels after unprecedented drop in 2020, new analysis shows

Pep Canadell, CSIRO; Corinne Le Quéré, University of East Anglia; Glen Peters, Center for International Climate and Environment Research – Oslo; Pierre Friedlingstein, University of Exeter; Robbie Andrew, Center for International Climate and Environment Research – Oslo, and Rob Jackson, Stanford University

Global carbon dioxide emissions have bounced back after COVID-19 restrictions and are likely to reach close to pre-pandemic levels this year, our analysis released today has found.

The troubling finding comes as world leaders meet at the COP26 climate talks in Glasgow in a last-ditch bid to keep dangerous global warming at bay. The analysis was undertaken by the Global Carbon Project, a consortium of scientists from around the world who produce, collect and analyse global greenhouse gas information.

The fast recovery in CO₂ emissions, following last year’s sharp drop, should come as no surprise. The world’s strong economic rebound has created a surge in demand for energy, and the global energy system is still heavily dependent on fossil fuels.

Most concerning is the long-term upward trends of CO₂ emissions from oil and gas, and this year’s growth in coal emissions, which together are far from trending towards net-zero by 2050.

The troubling findings come as world leaders meet at the COP26 climate summit in Glasgow. Evan Vucci/AP

The global emissions picture

Global CO₂ emissions from fossil fuels dropped by 5.4% in 2020, compared to the previous year. But they are set to increase by about 4.9% above 2020 levels this year, reaching 36.4 billion tonnes. This brings them almost back to 2019 levels.

We can expect another 2.9 billion tonnes of CO₂ emissions this year from the net effect of everything we do to the land, including deforestation, degradation and re-vegetation.

This brings us to a total of 39.4 billion tonnes of CO₂ to be emitted by the end of this year.

The fast growth in emissions matches the corresponding large increase in energy demand as the global economy opens up, with the help of US$17.2 trillion in economic stimulus packages around the world.

CO₂ emissions from all fossil fuel types (coal, oil and natural gas) grew this year, with emissions from coal and natural gas set to grow more in 2021 than they fell in 2020.

Emissions from global coal use were declining before the pandemic hit in early 2020 but they surged back this year. Emissions from global gas use have returned to the rising trend seen before the pandemic.

CO₂ emissions from global oil use remain well below pre-pandemic levels but are expected to increase in coming years as road transport and aviation recover from COVID-related restrictions.

Global fossil CO₂ emissions. Source: Global Carbon Project, https://www.globalcarbonproject.org/carbonbudget

Nations leading the emissions charge

Emissions from China have recovered faster than other countries. It’s among the few countries where emissions grew in 2020 (by 1.4%) followed by a projected growth of 4% this year.

Taking these two years together, CO₂ emissions from China in 2021 are projected to be 5.5% above 2019 levels, reaching 11.1 billion tonnes. China accounted for 31% of global emissions in 2020.

Coal emissions in China are estimated to grow by 2.4% this year. If realised, it would match what was thought to be China’s peak coal emissions in 2013.

India’s CO₂ emissions are projected to grow even faster than China’s this year at 12.6%, after a 7.3% fall last year. Emissions this year are set to be 4.4% above 2019 levels – reaching 2.7 billion tonnes. India accounted for 7% of global emissions in 2020.

Emissions from both the US and European Union are projected to rise 7.6% this year. It would lead to emissions that are, respectively, 3.7% and 4.2% below 2019 levels.

US and EU, respectively, accounted for 14% and 7% of global emissions in 2020.

Emissions in the rest of the world (including all international transport, particularly aviation) are projected to rise 2.9% this year, but remain 4.2% below 2019 levels. Together, these countries represent 59% of global emissions.

Regional fossil CO₂ emissions 2019-2021. Source: Global Carbon Project, https://www.globalcarbonproject.org/carbonbudget

The remaining carbon budget

The relatively large changes in annual emissions over the past two years have had no discernible effect in the speed at which CO₂ accumulates in the atmosphere.

CO₂ concentrations, and associated global warming, are driven by the accumulation of greenhouse gases – particularly CO₂ – since the beginning of the industrial era. This accumulation has accelerated in recent decades.

To stop further global warming, global CO₂ emissions must stop or reach net-zero – the latter meaning that any remaining CO₂ emissions would have to be compensated for by removing an equivalent amount from the atmosphere.

Carbon budgets are a useful way of measuring how much CO₂ can be emitted for a given level of global warming. In our latest analysis, we updated the carbon budget outlined by the Intergovernmental Panel on Climate Change (IPCC) in August this year.

From the beginning of 2022, the world can emit an additional 420 billion tonnes of CO₂ to limit global warming to 1.5℃, or 11 years of emissions at this year’s rate.

To limit global warming to 2℃, the world can emit an additional 1,270 billion tonnes of CO₂ – or 32 years of emissions at the current rate.

The remaining carbon budgets to limit warming to 1.5℃ and 2℃. Updated from IPCC 2021. Source: Global Carbon Project, https://www.globalcarbonproject.org/carbonbudget

These budgets are the compass to net-zero emissions. Consistent with the pledge by many countries to reach net-zero emissions by 2050, CO₂ emissions need to decline by 1.4 billion tonnes each year, on average.

This is an amount comparable to the drop during 2020, of 1.9 billion tonnes. This fact highlights the extraordinary challenge ahead and the need to increase short- and long-term commitments to drive down global emissions.

Pep Canadell, Chief research scientist, Climate Science Centre, CSIRO Oceans and Atmosphere; and Executive Director, Global Carbon Project, CSIRO; Corinne Le Quéré, Royal Society Research Professor of Climate Change Science, University of East Anglia; Glen Peters, Research Director, Center for International Climate and Environment Research – Oslo; Pierre Friedlingstein, Chair, Mathematical Modelling of Climate, University of Exeter; Robbie Andrew, Senior Researcher, Center for International Climate and Environment Research – Oslo, and Rob Jackson, Professor, Department of Earth System Science, and Chair of the Global Carbon Project, Stanford University

This article is republished from The Conversation under a Creative Commons license. Read the original article.

The Conversation

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