30 per cent of species could be abruptly lost at 2.5°C of warming: Study

Climate change could push species over abrupt tipping points, forcing them to move to cooler regions or evolve to adapt which they are unlikely to do in short timeframes, finds a study.

Chameleon_Biodiversity_Loss
If the planet warms by 1.5°C, 15 per cent of species they studied will be at risk of experiencing unfamiliarly hot temperatures across at least 30 per cent of their existing geographic range in a single decade, but this doubles to 30 per cent of species at 2.5°C of warming. Image: , CC BY-SA 3.0, via Flickr.

A new study found that climate change is likely to abruptly push species over tipping points as their geographic ranges reach unforeseen temperatures. The new study published in Nature Ecology & Evolution predicted when and where climate change is likely to expose species across the globe to potentially dangerous temperatures. 

The research analysed data of over 36,000 marine and terrestrial species of animals (including mammals, amphibians, reptiles, birds, corals, fish, whales and plankton) and seagrasses from every continent and ocean basin, alongside climate projections running up to 2100. 

The researchers investigated when areas within each species’ geographical range will cross a threshold of thermal exposure, defined as the first five consecutive years where temperatures consistently exceed the most extreme monthly temperature experienced by a species across its geographic range over recent history (1850-2014). 

The study found that once the thermal exposure threshold is crossed, the animal is not necessarily going to die out, but there is no evidence that it is able to survive the higher temperatures. This means that for many species, there could be an abrupt loss of habitat due to future climate change. The researchers found a consistent trend that for many animals, the thermal exposure threshold will be crossed for much of their geographic range within the same decade. 

Lead author Alex Pigot, UCL Centre for Biodiversity & Environment Research, UCL Biosciences, said, “It is unlikely that climate change will gradually make environments more difficult for animals to survive in. Instead, for many animals, large swathes of their geographic range are likely to become unfamiliarly hot in a short span of time. While some animals may be able to survive these higher temperatures, many other animals will need to move to cooler regions or evolve to adapt, which they likely cannot do in such short timeframes.”

For many animals, large swathes of their geographic range are likely to become unfamiliarly hot in a short span of time. While some animals may be able to survive these higher temperatures, many other animals will need to move to cooler regions or evolve to adapt.

Alex Pigot, researcher, UCL Biosciences

“The findings suggested that once we start to notice that a species is suffering under unfamiliar conditions, there may be very little time before most of its range becomes inhospitable,” warned Pigot. So, it’s important to identify in advance which species may be at risk in the coming decades.

The researchers also found that the extent of global warming makes a big difference. If the planet warms by 1.5°C, 15 per cent of species they studied will be at risk of experiencing unfamiliarly hot temperatures across at least 30 per cent of their existing geographic range in a single decade, but this doubles to 30 per cent of species at 2.5°C of warming. 

The researchers said that this pattern of abrupt exposure may be an inevitable feature of living on a round planet. Due to the shape of the Earth, there is more area available to species in environments near the hot end of what they are used to, such as in low-lying areas or near the equator. 

A previous study by the same lead authors found that even if we stop climate change so that global temperatures peak and start to decline, the risks to biodiversity could persist for decades after. In another analysis similar to the current study, they found that many species facing unfamiliar temperatures will be living alongside other animals experiencing similar temperature shocks, which could pose grave risks to local ecosystem function.

The researchers hope that their study could help with targeting conservation efforts, as their data provides an early warning system showing when and where particular animals are likely to be at risk. 

This story was originally published on CarbonCopy.

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