EXPLAINER: The real math behind "net zero" carbon emissions

EXPLAINER: The real math behind "net zero" carbon emissions
This illustration provided by Carbon Engineering in October 2018 shows one of the designs of the company's air contactor assemblies to remove carbon dioxide from the atmosphere. More than a 100 countries —responsible for about two-thirds of the world's heat-trapping gases—have announced plans to cut their greenhouse gas emissions to "net zero" in coming decades to help curb man-made climate change. (Carbon Engineering via AP)

More than 100 countries—responsible for about two-thirds of the world's heat-trapping gases—have announced plans to cut their greenhouse gas emissions to "net zero" in coming decades to help curb man-made climate change.

The target has also been embraced by companies, states and cities wanting to help stop the planet from getting too hot for human comfort. China made a splash in September promising "" by 2060, and U.S. President-elect Joe Biden has promised America would be there by 2050.

But what exactly does "net zero" mean? Does it mean no more smokestacks? And is it any more than creative accounting?

WHY NET ZERO?

Carbon dioxide, the main heat-trapping gas, is produced by animals, including humans, and is absorbed by plants and the oceans. But burning of coal, oil and since the late 19th century far outstrips what plants and the oceans can remove from the air.

The Paris climate accord says global warming needs to be kept below 2 degrees Celsius (3.6 Fahrenheit), ideally no more than 1.5 Celsius (2.7 Fahrenheit), by the end of the century compared to the pre-industrial level. But Earth has already warmed 1.2 degrees Celsius (2.2 Fahrenheit), so countries want to prevent a few tenths of a degree of further warming.

The way to do that is to stop adding even more carbon to the atmosphere by 2050, scientists say.

ZERO MEANS ADDITION AND SUBTRACTION

It will be next to impossible for the world to wean itself off all , because they are used in products such as plastics and in aviation, meaning some emissions of greenhouse gases likely will continue, said climate scientist Zeke Hausfather of the Breakthrough Institute.

The math is simple for reaching net zero. If you are adding to pollution, you need to subtract as much, too.

Almost all natural solutions rely heavily on planting forests. But when trees are cut or burned down, the they absorbed is released again. "To have a good net zero you should not rely too much on forests," said German climate scientist Niklas Hohne of New Climate Institute.

That leaves technological remedies. So-called direct air capture sucks carbon dioxide from the atmosphere to bury underground. It's expensive and only being done on extremely small scale.

NOT ALL ZEROES ARE EQUAL

Some governments have interpreted net zero to mean cutting back only on carbon dioxide emissions. While that is the main greenhouse gas, others such as methane contribute to , too.

So instead of going "carbon neutral,'' experts recommend that countries aim to become "climate neutral." They also argue that countries should take responsibility for emissions from international shipping and air travel which, though technically outside their borders, still needs to be counted somewhere.

One issue that governments have yet to agree on is how to ensure the integrity of international markets that will be used to offset emissions caused in one country against captured elsewhere. Preventing offsets from being counted twice will be key to the integrity of such a system and the global effort to curb emissions.


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Citation: EXPLAINER: The real math behind "net zero" carbon emissions (2020, December 11) retrieved 16 April 2021 from https://phys.org/news/2020-12-real-math-net-carbon-emissions.html
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