Imperial College London

Captive breeding introduced infectious disease to Mallorcan amphibians

Froggy

Mallorcan midwife toads released into wild were infected with chytrid fungus<em> - News Release</em>

See also:

Imperial College is not responsible for the content of external internet sites

Related news stories:

Imperial College London News Release

Under strict embargo for
Monday 22 September
12.00 EST / 17.00 BST

A potentially deadly fungus that can kill frogs and toads was inadvertently introduced into Mallorca by a captive breeding programme that was reintroducing a rare species of toad into the wild, according to a new study published today in the journal Current Biology. 

The study, by researchers from Imperial College London and international colleagues, reveals that captive Mallorcan midwife toads released into the wild in 1991 were infected with the chytrid fungus Batrachochytrium dendrobatidis (Bd). Measures to screen the health of the toads did not pick up the fungus, because at the time it was not known to science.

The chytrid fungus, which lives in the water and on the skin of host amphibians such as frogs, toads, salamanders and newts, has been known to cause amphibian population extinctions in Europe. Globally, the disease has been found in over 87 countries and has driven rapid amphibian declines in areas including Australia and Central America, pushing some species to extinction. Bd is currently rare in the UK, having only been detected in three locations.

The new study suggests that an endangered species of frog from South Africa, Xenopus gilli, which was housed in the same room as the Mallorcan midwife toads, was responsible for spreading the infection to them.

Frogs and toads at risk from chytrid fungus

The captive breeding and reintroduction programme for the Mallorcan midwife toad has been highly successful in increasing the numbers of the rare toad on the island. Over half of all the current populations on Mallorca are derived from reintroductions.

Although the chytrid fungus can be deadly, toads appear to be doing well in three out of the four populations in Mallorca infected with the chytrid fungus. This finding suggests that there are unidentified factors that are preventing these populations from extinction. The situation is being closely monitored by the Mallorcan conservation authorities.

Global efforts to save amphibians from extinction hinge on species being taken into captivity and bred until they can be reintroduced to the wild. The researchers behind the new study say their findings reveal the risks of reintroducing species into the wild even when health screening is carried out, and highlight the need to ensure that species bred in captivity do not become infected with pathogens from other species.

As soon as Bd was discovered in the late 1990s, screening for the disease was incorporated into amphibian conservation plans. Zoos are now moving towards breeding threatened frogs in strictly quarantined, biosecure facilities in an effort to prevent the disease spreading in captivity.

The chytrid fungus has also been added to a list of diseases that need to be quarantined compiled by the World Organisation for Animal Health. It is hoped that these quarantine measures will help those involved in conservation efforts to stop Bd from spreading further, by controlling the international trade in infected animals.

Dr Mat Fisher, one of the authors of the study from the Department of Infectious Disease Epidemiology at Imperial College London, said: "Our study has shown that species reintroduction programs can have unpredicted and unintended effects. However in this case we believe that the toads are going to survive the infection. The global conservation community is united in its goal of saving species from the effects of Bd and we now have international legislation which should prevent this disease being accidentally introduced into the wild."

The researchers reached their conclusions after comparing the specific genotype of Bd from infected wild toads from across Mallorca, and infected toads from mainland Spain, the UK and the rest of the world. They found that the disease in all Mallorcan toads was of the same genotype, and that this was a different genotype from those on mainland Europe and elsewhere.

Bd infects amphibians' skin and is thought to interfere with their ability to absorb water. Over 257 amphibian species are known to be affected by Bd. Some species are very susceptible and die quickly while others, which are more resistant, are carriers of the pathogen.

-ends-

For further information please contact:

Laura Gallagher
Senior Press Officer
Imperial College London
e-mail: l.gallagher@imperial.ac.uk
Telephone: +44 (0)207 594 6702 or ext. 46702
Out of hours duty Press Officer: +44 (0)7803 886 248

Notes to editors:

1. Photos of the Mallorcan midwife toads are available in 300 dpi.

2. About Mallorcan midwife toads (Alytes muletensis)

a) Mallorcan midwife toads had been known only from fossils and were thought to be extinct until 1978, when they were 'discovered' hiding in inaccessible gorges in the northern Mallorcan mountains.

b) The Mallorcan midwife toad is on the list of the 800 species most likely to go extinct in the near future unless they receive special protection. They are ranked 55 on a list of the 100 species most threatened with extinction according to the Zoological Society of London EDGE ratings (see www.edgeofexistence.org/amphibians/species_info.php?id=600 )

3. "Invasive pathogens threaten species recovery programs," Current Biology, 23 September 2008
Corresponding author: Susan F Walker, Imperial College London (for full list of authors please see paper).

4. About Imperial College London

Imperial College London - rated the world’s fifth best university in the 2007 Times Higher Education Supplement University Rankings - is a science-based institution with a reputation for excellence in teaching and research that attracts 12,000 students and 6,000 staff of the highest international quality. Innovative research at the College explores the interface between science, medicine, engineering and business, delivering practical solutions that improve quality of life and the environment - underpinned by a dynamic enterprise culture. Website: www.imperial.ac.uk