Paris agreement, countries
The past two years were the first to officially exceed the °C temperature threshold for global warming that countries in the Paris Agreement pledged to avoid. Could geoengineering provide a solution to reverse the trend and lower temperatures?
A milestone has been reached: was the warmest year ever recorded and the past two years were the first to exceed a °C temperature increase compared with pre-industrial levels, the European Union's Copernicus climate observatory announced on January
In the treaty, such an increase is referred to as a long-term climate trend – the average temperature would have to remain above the °C threshold for 20 to 30 years for the limit to be officially considered exceeded.
Paris treaty on global warming Level of detail. Globe and Mail. Abrupt climate change Anoxic event Arctic methane emissions Arctic sea ice decline Atlantic meridional overturning circulation Drought Extreme weather Flood Coastal flooding Heat wave Marine Urban heat island Oceans acidification deoxygenation heat content sea surface temperature stratification temperature Ozone depletion Permafrost thaw Retreat of glaciers since Sea level rise Season creep Tipping points in the climate system Tropical cyclones Water cycle Wildfires. After an initial ruling against the government in that required it to maintain its planned reduction, the decision was upheld on appeals through the Supreme Court of the Netherlands in , ruling that the Dutch government failed to uphold human rights under Dutch law and the European Convention on Human Rights by lowering its emission targets.But the figures for – which recorded a °C increase overall – have raised fears that the target may now be altogether unattainable.
“Today the degree goal is practically ancient history already,” said Jochem Marotzke, climatologist and oceanographer at the Max-Planck-Institute for Meteorology in Hamburg, Germany.
“Anyone who continues to say the world can stay below that limit is delusional. We have to face reality and adapt to increasing warming.”
But, is there a way to turn back the clock and return to a more liveable climate? Faced with the failure to keep global temperatures below °C, is it possible to overstep that limit and then reverse the trend?
This idea of reversible overheating, known as an “overshoot”, is increasingly referenced by some politicians and scientists.
It is even part of scenarios modelled by the UN’s Intergovernmental Panel on Climate Change (IPCC).
But as reassuring as the concept may sound “it would entail many risks and its implementation today remains highly uncertain”, says Carl-Friedrich Schleussner, researcher at the International Institute for Applied Systems Analysis, and author of a study evaluating short- and long-term overshoot scenarios.
Billions of tonnes of CO2
The first issue is that to bring down the global thermostat, billions of tonnes of CO2 would have to be captured in the atmosphere.
Both developed and developing nations must report every two years on their mitigation efforts, and all parties will be subject to technical and peer review. Download as PDF Printable version. Archived from the original on 20 July Enhanced Transparency Framework.For the world to even achieve carbon neutrality – a perfect balance between the carbon that is emitted and absorbed – it would first have to counteract unavoidable residual emissions, such as those generated by agriculture, and historical emissions.
To reduce the global temperature by °C the study estimates that at least billion tonnes of CO2 would need to be absorbed, equivalent to four years of global emissions.
But such quantities would be extremely difficult to achieve.
Aside from extensive reforestation to recreate natural carbon sinks, it would only be possible through geoengineering such as carbon capturing plants or even the much-maligned solar geoengineering – a method of cooling the earth by reflecting sunlight back into space.
Such methods are still developing, often contested and expensive.
They require large reserves of energy, water and land and could have unexpected long-term effects.
For comparison, today only 2 billion tonnes of CO2 are eliminated per year by human efforts, mainly reforestation, 2 million of which are permanently eliminated by more technological solutions.
The quantities of CO2 that need to be stored could also turn out to be even greater than predicted.
Scientists regularly warn of the risk of “hidden” warming, a scenario in which temperatures would continue to rise even after carbon neutrality had been achieved.
“And even if we could achieve this huge technological challenge, it still might not be enough,” says Schleussner. “Currently, there is no certainty about how carbon sinks would behave in a trajectory of decreasing CO2, but some data shows that the ocean could, initially, start releasing carbon.”
In short, returning to temperatures below the °C limit seems like a long shot, and the longer the temperature stays above the limit, the more CO2 will have to be absorbed to try and reverse the trend.
No going back
Even in a scenario where the carbon capturing technology worked perfectly, “the climate and the world would never be the same as before”, says Schleussner.
Some of the impacts of global warming are irreversible and will become more serious the longer the temperature stays above the limit and the higher it climbs, his study says.
Paris treaty on global warming trump The Guardian. Retrieved 9 May The treaty aims to help countries adapt to climate change effects, and mobilize enough finance. On 4 August , the Trump administration delivered an official notice to the United Nations that the United States, the second largest emitter of greenhouse gases after China, [ 46 ] intended to withdraw from the Paris Agreement as soon as it was eligible to do so.People will have died in heatwaves, countries will have had their economies devastated, some species of animals and plants will have gone extinct, glaciers, peat bogs and permafrost will have disappeared.
“Sea levels will continue to rise for centuries to millennia even if long-term temperatures decline,” the study says.
Changes specific to different regions could also persist, for example temperature increases in the Antarctic Ocean could continue as could droughts and desertification in West Africa.
“All this without factoring in that with every extra tenth of a degree, the risk increases of triggering tipping points – phenomena such as the collapse of sea ice and glaciers or the death of coral reefs and the Amazon, which, if they occur, would have a disastrous runaway effect on the climate and human life,” Schleussner adds.
In short, returning to temperatures below the °C mark seems like a long shot, and the longer that temperatures exceed °C, the more CO2 will have to be absorbed to try and reverse the trend.
‘Into uncharted territory’
So what next for our ever-warming planet?
“We must be very clear about what science today knows and does not know about these ‘overshoot’ scenarios, and make reasonable plans based on this knowledge,” Schleussner says.
“Warming above °C takes us into uncharted territory,” he adds. “And we know that will have immense consequences for the planet and humans, especially in vulnerable countries that are not primarily responsible for climate deregulation.”
Schleussner believes it is a good idea to develop CO2 capturing technologies “as a preventative measure”.
But “we can't afford to waste this capacity on emissions that could be avoided in the first place … The only way to limit the damage is drastically and immediately reducing greenhouse gas emissions to reach carbon neutrality.”
This article has been translated from the original in French.