Uni leads study on echidna sex life

World echidna expert Dr Peggy Rismiller and geneticist Dr Frank Grützner will collaborate with the Monarto and Adelaide Zoos and South Australian Museum to learn more about these unique egg-laying mammals known as monotremes.

Dr Grützner says the project will look at the basic ecology of echidnas as well as their genetic and reproductive makeup, drawing new information from a unique concentration of world class monotreme experts.

"We want to integrate state-of-the-art animal tracking and molecular genetic techniques that we have established in the platypus to give us an in-depth insight into the behaviour and ecology of the echidna. We plan to grow cell lines from individual echidnas so we can develop genetic fingerprints," Dr Grützner says.

"This will, for the first time, give us definitive proof of which males are reproductively successful."

Scientists believe the echidna and its cousin, the platypus, may give us invaluable insights into the functions of human genes.

One has to go back 160 million years to find the last common ancestor between humans and the platypus, the earliest known branch in the mammalian lineage. It is thought the echidna diverged from the platypus after 25 million years.

"Evolution filters out important genes," Dr Grützner says. "By studying these monotremes we can probably find the genes that play a crucial role in our own development.

"We have such unique mammals in the echidna and platypus. They are exclusive to Australia, which allows us to lead monotreme research around the world. We have already developed very high-profile collaborations with the United States and Europe."

The genetics of the platypus have been studied extensively in recent years and scientists are now looking to the echidna, a more accessible species, for evolutionary answers.

"Keeping and breeding the platypus has been a huge problem. In this respect the echidna is a much better choice. Echidnas are also found throughout Australia, whereas platypuses are found only in eastern Australia."

Working together on the echidna project are Dr Grützner from the University's School of Molecular and Biomedical Science, Dr Peggy Rismiller from Anatomical Science, Dr Greg Johnston from the Royal Zoological Society of South Australia and Professor Steve Donnellan from the South Australian Museum.

Source: University of Adelaide

Loss of egg yolk genes in mammals and the origin of lactation and placentation
If you are reading this, you did not start your life by hatching from an egg. This is one of the many traits that you share with our mammalian relatives. A new paper in this week’s PLoS Biology explores the genetic changes that led mammals to feed their young via the placenta and with milk, rather then via the egg, and finds that these changes occurred fairly gradually in our evolutionary history. The paper shows that milk-protein genes arose in a common ancestor of all existing mammalian lineages and preceded the loss of the genes that encoded egg proteins.
New evidence implicates humans in prehistoric animal extinctions
Research led by UK and Australian scientists sheds new light on the role that our ancestors played in the extinction of Australia's prehistoric animals. The study, published this week in the journal Proceedings of the National Academy of Sciences of the USA, provides the first evidence that Tasmania's giant kangaroos and marsupial 'rhinos' and 'leopards' were still roaming the island when humans first arrived. The findings suggest that the mass extinction of Tasmania's large prehistoric animals was the result of human hunting, and not climate change as previously believed.
New approach to measuring carbon in forests
CSIRO is collaborating in a NASA-funded project, using a CSIRO-designed instrument, to help develop new methods of measuring forest carbon stores on a large scale.

Uni leads study on echidna sex life

Related stories:

News discussion: