Species of Australian lizards much more than previously thought

March 5th, 2009 - 3:18 pm ICT by ANI  

Washington, March 5 (ANI): A genetic study, conducted by a University of Adelaide researcher, has discovered that there are many more species of Australian lizards than previously thought, raising new questions about conservation and management of Australias native reptiles.

The study, done by Paul Oliver, a PhD student from the Universitys School of Earth and Environmental Sciences, focused on the Australian gecko genus Diplodactylus and found more than twice the recognised number of gecko species, from 13 species to 29.

Many of these species are externally very similar, leading to previous severe underestimation of true species diversity, said Oliver.

According to Oliver, One of the major problems for biodiversity conservation and management is that many species remain undocumented. This problem is widely acknowledged to be dire among invertebrates and in developing countries.

But, in this group of vertebrates in a developed nation, which we thought we knew reasonably well, we found more than half the species were unrecognized, he added.

Oliver said that this has great significance for conservation.

For instance, what was thought to be a single very widespread species of gecko has turned out to be eight or nine separate species with much narrower, more restricted habitats and possibly much more vulnerable to environmental change, he said.

This completely changes how we look at conservation management of these species. Even at just the basic inventory level, this shows that there is a lot of work still to be done, he said.

Vertebrate taxonomy clearly remains far from complete with many species still to be discovered. This will require detailed genetic and morphological work, using integrated data from multiple sources. It will require considerable effort and expense but with potentially rich returns, he added. (ANI)

Related Stories

Tags: , , , , , , , , , , , , , , , , , , ,

Posted in Health Science |