deep emissions cuts this decade could prevent abrupt ecological collapse - Deep emissions cuts this decade could prevent ‘abrupt ecological collapse’

School of tropical fish in Sipadan, Borneo in Malaysia. A new study shows that with continued high emissions of greenhouse gasses, losses of biodiversity and disruption of ecosystems from climate change are likely to happen abruptly and sooner than expected. Image:

The research, published in Nature, finds that uncontrolled climate change would see tropical ocean ecosystems exposed to potentially catastrophic temperature rise by 2030. By 2050, tropical forests could also face such conditions.

By comparison, limiting global warming to below 2C – the goal of the Paris Agreement – could delay the date of exposure by up to six decades, according to the research.

The results “show very clearly that it is not too late to act and the benefits of acting now will be massive”, a study author tells Carbon Brief.

Burning up

Rising temperatures and changing rainfall patterns are expected to make existing habitats inhospitable for many animal species. Due to this, some scientists expect that climate change will overtake land-use change to become the largest threat facing wildlife by the end of the century.

However, it is not yet certain at what point this century the effects of climate change will begin to overwhelm ecosystems. The new study addresses this question by looking at when various land and ocean ecosystems are likely to be exposed to possibly intolerable increases in temperature.

The results suggest the fate of ecosystems could hinge on the world taking immediate action to tackle climate change, says study author Dr Alex Pigot, a research scientist at the Centre for Biodiversity and Environment Research at University College London. He tells Carbon Brief:

“Our results show that with continued high emissions of greenhouse gasses, losses of biodiversity and disruption of ecosystems from climate change are likely to happen abruptly and could occur much sooner than we had expected.

“According to our models, biodiversity losses are likely to be already underway in the tropical oceans and over the next few decades these risks are expected to escalate rapidly, spreading to tropical forests and then higher latitudes by 2050.”

Corals to forests

For their research, the authors estimated the first date at which species in different world regions are likely to face temperatures beyond what they are known to tolerate in the wild.

Exposure to such temperatures could cause species to die out in that region – or to go “locally extinct”. However, it is possible that some species could adapt to intolerable temperatures, Pigot says:

“It is important to note exposure does not necessarily mean extinction. Some species may be able to persist at temperatures warmer than those under which they have previously been found, but this is not something we should blindly assume. Indeed, for some species we already have very good evidence that their current [temperature range] is likely to correspond closely to their physiological limits.”

They did this for more than 30,000 species spanning the world’s habitats, from tropical coral reefs to highland pine forests.

It should also be noted, however, that the authors only studied changes to temperature and rainfall exposure. They did not model other climate-change impacts known to affect wildlife, such as heatwaves or the disappearance of Arctic sea ice.

The authors looked at the timing of exposure under several scenarios for future climate change, known as the “Representative Concentration Pathways” (RCPs). These scenarios include one where future greenhouse gas emissions are very high (RCP8.5) and one where temperatures are limited to below 2C (RCP2.6). (It is important to note that RCP8.5 is not a “business as usual” scenario, but rather a scenario where no policies are put in place to tackle climate change.)

The two maps below illustrate how the risk to wildlife differs in these two scenarios. The maps show the risk of an ecosystem seeing an “abrupt exposure event” under RCP2.6 (top) and RCP8.5 (bottom). An “abrupt exposure event” is defined as when more than 20 per cent of all species in an ecosystem are exposed to temperatures beyond their natural range in a single decade.

The maps show how, under high emissions, many biodiversity hotspots, including the Amazon, parts of southern Africa and southeast Asia, could face a very high risk of exposure to intolerable temperatures by the end of the century.

The research finds that, under 2C of global warming, only 2 per cent of ecosystems worldwide are likely to face an abrupt exposure event by the end of the century. Under 4C, this proportion rises to 15 per cent.

The authors also find that limiting global warming to below 2C could delay the time when ecosystems first experience abrupt exposure events by up to six decades, when compared to the RCP8.5 scenario of very high emissions.

This is indicated on the charts below, which show the projected percentage of the world’s ocean (left) and land (ecosystems) exposed to intolerable temperatures under RCP2.6 (light blue) and RCP8.5 (purple) from 2020-2100. (The chart also shows results for RCP4.5 (orange), a scenario where future emissions are moderately high.)

‘Not too late’

The research finds that, under a very high emissions scenario, ecosystems could be exposed to intolerably high temperatures as early as this decade. However, this does not mean it is too late to act, Pigot tells Carbon Brief:

“Our results show very clearly that it is not too late to act and the benefits of acting now will be massive and will accumulate over time. By holding warming below 2C, we can effectively ‘flatten the curve’ of how climate risks to biodiversity accumulates over time, delaying the exposure of the most at-risk species by many decades and averting exposure entirely for many thousands of species.”

The findings are “very strong and convincing” says Peter Soroye, a PhD candidate in biology from the University of Ottawa, Canada, who recently published a study on projected bumblebee declines worldwide. He tells Carbon Brief:

“One of the critical things that this and other large-scale studies on climate change-related biodiversity impacts show is the positive effect of reducing carbon emissions on future biodiversity. Work like this demonstrates that while future climate change will modify ecosystems around the globe – overwhelmingly for the worse – we can mitigate many of these impacts by rapidly reducing our carbon emissions.”

This story was published with permission from Carbon Brief.

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