Be careful with “net zero” in climate policy – our planet is sensitive!

Removing a tonne of CO2 from the air and thus undoing a tonne of emissions? Doesn't quite work, says a study. And provides four objections in view of Earth systems.

Department of Net Zero in London: more and more countries are announcing “net zero”, but behind this lurks a misunderstanding. | Photo: Shutterstock/Barton

04.12.2023

While a trend reversal in global CO2 emissions is still yet to come, more and more countries are announcing the goal of “net zero” by mid-century: hard to avoid residual emissions, but offset by removing carbon from the atmosphere. However, a study now warns that behind such plus–minus strategies lurks a misunderstanding: the idea of simply removing emissions one-for-one to effectively “undo” them is at odds with the nature of Earth systems. The study, co-authored by the Berlin-based climate research institute MCC (Mercator Institute on Global Commons and Climate Change), has been published in the renowned journal Nature Climate Change.

The interdisciplinary research team investigated what this seemingly balanced combo deal with the atmosphere means for the Earth’s temperature. “If climate policy sets its sights not on absolute zero, but only on net zero with a view to what is feasible, then it must also keep the Earth systems in mind,” says Sabine Fuss, head of the MCC working group Sustainable Resource Management and Global Change, and co-author of the study. “We provide an overview and identify four reasons why the consequences of emissions and removal are not necessarily equivalent to each other.”

  • First, emissions and removals have different permanence. While emitted CO2 heats the planet for many centuries, CO2 removed and stored in forests or coastal ecosystems, for example, is released again much more quickly. Climate change also contributes to this, through drought- and heat-related forest dieback and heatwaves in the sea. Likewise, when it comes to storage in the ocean – and even in geological formations – the precautionary principle requires a certain discount: net zero in emissions and removals is still consequential for the planet.

  • Second, a number of removal methods also have biophysical effects: they change the vegetation and the surface structure, and thus the planet's reflectivity. Large-scale afforestation or the addition of biochar to fields, for example, removes CO2 from the atmosphere, but simultaneously decreases the absorption of solar radiation, which contributes to locally limited additional warming. On the other hand, carbon removal options such as the artificial upwelling of deep water by means of large pumps, or the cultivation of fast-growing biomass in climate plantations (for the purpose of combustion with carbon capture and underground storage), have a locally cooling effect.

  • Third, both the emission and removal of CO2 can have important repercussions for the balance of other greenhouse gases, such as methane and nitrous oxide. In addition, the extraction and burning of fossil fuels produces other gases, such as sulphur dioxide; this is a precursor to sulphate aerosols, which also have an impact on the climate. Even direct air capture through filter systems can cause emissions as a side effect of their energy requirements. The exact result of net-zero CO2 for the non-CO2 emission balance depends on many details, including the choice of tree species for afforestation.

  • Fourth, the climate response to the carbon cycle is asymmetrical for various reasons. For instance, primarily due to the slow response timescale of the deep ocean, a temperature increase caused by emissions is not immediately neutralised when emissions are removed years later. In addition, removals have less of an effect at higher atmospheric CO2 concentrations, i.e. when the climate system is already at a different stage. Some of these effects are also non-linear: trees grow slightly faster when there is more CO2 in the air and therefore contribute more to removal, but this effect decreases with rising CO2 concentrations.

“How a net-zero strategy affects the climate depends on its design and needs to be researched more precisely using advanced Earth system models,” recommends MCC researcher Fuss. “The uncertainties are unlikely to be resolved in the short timeframe available to design and implement climate policies consistent with the Paris Agreement. Removals must therefore be relied upon with caution. The priority must be to quickly push emissions towards zero.”

Reference of the cited article:
Zickfeld, K., MacIsaac, J., Canadell, J., Fuss, S., Jackson, R., Jones, C., Lohila, A., Matthews, H., Peters, G., Rogelj, J., Zaehle, S., 2023, Net-zero approaches must consider Earth system impacts to achieve climate goals, Nature Climate Change
https://www.nature.com/articles/s41558-023-01862-7