Recent News \| Archives \| Tags \| About \| Newsletter \| Submit News \| Links \| Subscribe

New Articles

Lichens function as indicators of nitrogen pollution in forests 10/8/2008

Deepest living fishes caught on camera for the first time 10/8/2008

Shift in bald eagle diet linked to sea otter decline 10/7/2008

Wielding microbe against microbe, beetle defends its food source 10/6/2008

Moths with a nose for learning 10/5/2008

Reproducing early and often is the key to rapid evolution in plants 10/4/2008

Atlantic tuna return thousands of miles to birthplace to spawn 10/3/2008

Study Reveals an Oily Diet for Subsurface Life 10/1/2008

Common insecticide can decimate tadpole populations 9/30/2008

Researchers describe for first time how some bacteria kill males: They first invade the mother 9/29/2008

Captive breeding introduced infectious disease to Mallorcan amphibians 9/28/2008

Researchers find animal with ability to survive climate change 9/26/2008

Wolves show scientists are barking up the wrong tree 9/25/2008

Extinct may not be forever for some species of Galapagos tortoises 9/24/2008

Remembrance of tussles past: paper wasps show surprisingly strong memory for previous encounters 9/23/2008

Threatened or invasive? Species' fates identified (6/14/2008)

Tags:
extinction

A new ecological study led by a University of Adelaide researcher should help identify species prone to extinction under environmental change, and species that are likely to become a pest.

The study, the first of its kind, was published this week online in the British Ecological Society's prestigious Journal of Ecology.

"This study provides good evidence that we can take any group of species and predict how individual species will respond to changes in the environment through events such as climate change or habitat loss," says lead author Associate Professor Corey Bradshaw, from the University of Adelaide's School of Earth and Environmental Sciences.

The researchers analysed life-history and ecological traits in more than 8900 species of the legume, or the Fabaceae, plant family and found a correlation between evolved species' traits and a particular susceptibility to a species becoming threatened or invasive.

"The urgency and scale of the global biodiversity crisis means we need good generalised predictors of a species' likelihood of going extinct or becoming invasive in non-native areas," says Associate Professor Bradshaw.

"Previous studies have been limited by studying one or other of these `fates' in isolation.

"Developing evidence-based rules of thumb for categorising poorly studied species according to their susceptibility will aid decision makers in choosing best ways to allocate finite conservation resources."

Lists of `species to watch' - both threatened and potentially invasive - should be expanded based on ranking of `susceptibility traits', Associate Professor Bradshaw says. Associate Professor Bradshaw is also employed by the South Australian Research and Development Institute as a senior scientist.

"Our results are particularly valuable where there is sustained habitat loss or fragmentation, especially given the predictions that climate change will simultaneously promote the expansion of invasive alien species and greater extinction rates in others," he says.

Note: This story has been adapted from a news release issued by the University of Adelaide

Post Comments:

Search

Archives \| Submit News \| Advertise With Us \| Contact Us \| Links