New maps reveal locations of species at risk as climate changes
An international team of scientists has produced global maps showing how fast and in which direction local climates have shifted.
In research published today in the journal Nature, CSIRO and an international team of scientists revealed global maps showing how fast and in which direction local climates are shifting. This new study points to a simpler way of looking at climatic changes and their likely effects on biodiversity.
As climate change unfolds over the next century, plants and animals will need to adapt or shift locations to track their ideal climate.
“The maps show areas where plants and animals may struggle to find a new home in a changing climate and provide crucial information for targeting conservation efforts,” CSIRO's Dr Elvira Poloczanska said.
"The maps show areas where plants and animals may struggle to find a new home in a changing climate and provide crucial information for targeting conservation efforts."
Dr Elvira Poloczanska, CSIRO Marine and Atmospheric Research
The study analysed 50 years of sea surface and land temperature data (1960-2009) and also investigated two future scenarios for marine environments (‘business as usual’ and a 1.75°C temperature increase).
The new maps show where new thermal environments are being generated and where existing environments may disappear.
“The maps show us how fast and in which direction temperatures are shifting, and where climate migrants following them may hit barriers such as coastlines. Our work shows that climate migration is far more complex than a simple shift towards the poles,” ecological geographer with the project Kristen Williams said.
“Across Australia, species are already experiencing warmer temperatures. In terrestrial habitats, species have started to seek relief by moving to higher elevations, or further south. However, some species of animals and plants cannot move large distances, and some not at all.”
Species migration can have important consequences for local biodiversity. For example, the dry, flat continental interior of Australia is a hot, arid region where species already exist close to the margin of their thermal tolerances.
Some species driven south from monsoonal northern Australia in the hope of cooler habitats may perish in that environment.
“In the oceans, warming waters and a strengthening of the East Australian Current have mobilised the Long-spined Sea Urchin (Centrostephanus rodgersii), previously only found as far south as southern NSW, to invade the eastern Tasmania coast. This has resulted in the decline of giant kelp forests with knock-on effects for commercially-fished rock lobsters,” Dr Poloczanska said.
CSIRO and University of Queensland’s Anthony Richardson said the study cannot be used as a sole guide as to what to do in the face of climate change.
“Biological factors such as a species’ capacity to adapt and disperse need to be taken into consideration,” Professor Richardson said.
“But in an unprecedented period of climate change, economic development and fast growing demand on an already pressured planet, we need to act fast to make sure as much of the world’s living resources survive that change.”
The study was undertaken by CSIRO's Dr Elvira Poloczanska and Associate Professor Anthony Richardson and Dr Kristen Williams with a team of 18 international researchers from Australia, Canada, Germany, Spain, UK and USA.
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For more information on this research go to the Climate Response blog.
To see what’s happening in your backyard download the Google Earth files [external link].
Burrows MT, Schoeman DS, Richardson AJ, Molinos JG, Hoffmann A, Buckley LB, Moore PJ, Brown CJ, Bruno JF, Duarte CM, Halpern BS, Hoegh-Guldberg O, Kappel CV, Kiessling W, O’Connor MI, Pandolfi JM, Parmesan C, Sydeman WJ, Ferrier S, Williams KJ, Poloczanska ES. 2014. Geographical limits to species-range shifts are suggested by climate velocity [external link]. Nature. DOI: doi:10.1038/nature12976.