Climate Change Causes High but Predictable Extinction Risks
Embargo expired: 2/26/2014 5:00 AM EST
Source Newsroom: Stony Brook University
Newswise — STONY BROOK, NY, February 26, 2014 – Judging the effects of climate change on extinction may be easier than previously thought, according to a paper entitled, “Life history and spatial traits predict extinction risk due to climate change,” published today in the journal Nature Climate Change.
Although widely used assessments of threatened species, such as the IUCN Red List, were not developed with the effects of climate change in mind, a study of 36 amphibian and reptile species endemic to the US has concluded that climate change may not be fundamentally different from other extinction threats in terms of identifying species in danger of extinction.
The new study, funded by NASA and led by Dr. Richard Pearson of UCL Centre for Biodiversity and Environment Research and formerly of the American Museum of Natural History, and by Dr. Resit Akçakaya of Stony Brook University in New York, identified factors that predispose species to high extinction risk due to climate change. By looking at pre-existing information on species of salamanders, turtles, tortoises, snakes and lizards, the team hoped to create a blueprint for judging extinction risk in other species around the world.
“Surprisingly, we found that most important factors – such as having a small range or low population size – are already used in conservation assessments,” said Dr. Pearson. “These new results indicate that current systems may be better able to identify species vulnerability to climate change than previously thought.”
Through quantitative analysis the team found that across the reptiles and amphibians studied there was a 28% overall chance of extinction by 2100. In contrast, the risk of extinction without climate change was calculated to be less than 1%, suggesting that climate change will cause a dramatic increase in extinction risk for these taxonomic groups over the next century.
"The bad news is that climate change will cause many extinctions unless species-specific conservation actions are taken,” said Dr. Akçakaya. “But the good news is that the methods conservation organizations have been using to identify which species need the most urgent help also work when climate change is the main threat."
The factors identified in this study as predisposing species to high extinction risk due to climate change suggest that conservation actions should focus on species that occupy a small or declining area, have small population size, or have synchronized population fluctuations. The methodology used in this study offers great potential for adaption to additional taxonomic groups and geographical areas, helping to develop effective measures to conserve biodiversity over the coming century.
Unlike most previous studies, which predicted future extinction risks based only on projected contraction of areas with suitable climate for each species, the present study estimated extinction risk as the probability of the population size falling to zero by the year 2100. To do this, the authors used a new methodology that included modeling demographic processes such as reproduction, survival, and dispersal.
The approach was not designed to make specific predictions for each individual species; instead, the methods allowed the authors to draw conclusions beyond the limited set of species for which data were available. The result is new understanding of the factors that make some species more at risk due to the changing temperature and rainfall patterns that are expected over the coming century.
Dr. Pearson added: “Our analysis will hopefully help create better guidelines that account for the effects of climate change in assessing extinction risk.”
Photo captions: Ornate Box Turtle and Massasauga are among the species in a study that focused on the predictability of species extinction risks due to climate change. Photographs © Geoffrey A. Hammerson.
1) 'Life history and spatial traits predict extinction risk due to climate change’ is published online in Nature Climate Change on 26 February 2014; full citation: Pearson, R.G., J.C. Stanton, K.T. Shoemaker, M.E. Aiello-Lammens, P.J. Ersts, N. Horning, D.A. Fordham, C.J. Raxworthy, H.Y. Ryu, J. McNees, and H.R. Akçakaya. 2014. Life history and spatial traits predict extinction risk due to climate change. Nature Climate Change.
2) Journalists can obtain copies of the paper by contacting the authors.
3) Photographs may be used with attribution.
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