Climate Change: Are we passing some key 'tipping points'?
- Published
Critical elements in the Earth鈥檚 climate may be more likely to break down than previously thought, according to a group of scientists.
Their says there鈥檚 growing evidence that irreversible climatic changes could be triggered within a few decades.
The authors claim this could lead to a 鈥渃limatic emergency鈥 in which one shift amplifies another.
But other researchers say the argument is speculative.
The authors specialise in what鈥檚 known as Earth Systems Science, which studies the interactions of elements of the climate system.
For several years they have been promoting the theory that the climate may switch suddenly as a result of one climatic shift amplifying other changes.
The Intergovernmental Panel on Climate Change (IPCC) introduced this idea of "tipping points" two decades ago.
The commentary says that at the time these large-scale shifts were considered likely only if global warming exceeded 5C.
The authors argue that information from IPCC reports over the past two years suggests that tipping points could be exceeded even between 1 and 2C of warming.
They say research has shown that the Amundsen Sea bay of West Antarctica might already have passed a tipping point where the meeting point of ice, ocean and bedrock is retreating irreversibly.
One computer model suggests that when this sector collapses, it could destabilise the rest of the West Antarctic ice sheet like toppling dominoes - leading to about three metres of sea-level rise on a timescale of centuries to millennia.
The authors also point to the melting of the Greenland ice sheet.
As the elevation of the ice sheet lowers, it melts further, exposing the surface to ever-warmer air in what's known as a "positive feedback".
Some models suggest that the Greenland ice sheet could be doomed to disappear relentlessly if the world warms by just 1.5C.
The commentary says: 鈥淧oliticians, economists and even some natural scientists have tended to assume that tipping points in the Earth system such as the loss of the Amazon rainforest or the West Antarctic ice sheet, are of low probability and little understood.
鈥淵et evidence is mounting that these events could be more likely than was thought, have high impacts and are interconnected across different biophysical systems, potentially committing the world to long-term irreversible changes.鈥
Human pressures
Co-author Johan Rockstr枚m, director of the Potsdam Institute for Climate Impact Research in Germany, says it is not only human pressures on Earth that continue rising to unprecedented levels.
鈥淚t is also that as science advances, we must admit that we have underestimated the risks of unleashing irreversible changes, where the planet self-amplifies global warming," he says.
"This is what we now start seeing, already at 1C global warming.
鈥淭his provides strong evidence for declaring a state of planetary emergency to unleash world action that accelerates the path towards a world that can continue evolving on a stable planet.鈥
But not every scientist agrees with the thrust of their argument. One critic is Professor Mike Hulme from Cambridge University, who is disturbed by the talk of planetary emergency.
鈥淭heir position is speculative; there are no new research findings presented here.
鈥淭heir mathematical 鈥榝ormula鈥 contradicts everything that social science and humanities scholarship tells us about public emergencies - namely that they result from political argument, reflection and judgement.
鈥淓mergencies are declared by legitimate political actors; they are not calculated mathematically by self-appointed scientists.鈥
Professor Richard Betts from the Met Office says the chances of passing these tipping points increases with the level of global heating.
"Therefore, if we want to keep the risks to a minimum, it is logical that global heating should also be kept to a minimum.
"Even if we do pass a 'point of no return' (or if we have done so already - which may or may not be the case) we still have a chance to limit the damage if we don't overshoot too far."
Follow Roger on Twitter @rharrabin.