All posts by Operations

The mathematics of conservation

The Earth is losing species and ecosystems fast, but figuring out the best response is not easy when information, time and money are scarce.

Dr Eve McDonald Madden helps saves species—with maths. Credit: L’Oréal Australia/sdpmedia.com.au
Dr Eve McDonald Madden helps saves species—with maths. Credit: L’Oréal Australia/sdpmedia.com.au

Dr Eve McDonald-Madden is using maths to help governments and others make tough decisions on how best to use limited resources to preserve ecosystems under threat.

The young Australian scientist helps to save species, not by going out into the field, but by analysing the data other people have collected on endangered species. Continue reading The mathematics of conservation

Fibre optics: from cables to colon health

A new fibre optic medical tool is revolutionising our understanding of serious but socially embarrassing digestive illnesses, such as constipation, diarrhoea and irritable bowel syndrome. Thanks to this device, medical scientists can see for the first time the coordinated, fine and complex muscular activity of the human digestive system in action.

FIBRE OPTIC TECHNNOLOGY IS HELPING JOHN ARKWRIGHT UNDERSTAND OUR DIGESTIVE FUNCTION. CREDIT: ISTOCKPHOTO

CSIRO optical physicist Dr John Arkwright, together with Dr Philip Dinning, of Flinders University, collected a 2011 Eureka Prize for their creation of the fibre optic catheter, which gleans information about digestive function by measuring pressure.
Continue reading Fibre optics: from cables to colon health

Frog peptides versus superbugs

Neutrons and native frogs are an unlikely but dynamic duo in the battle against antibiotic-resistant bacteria, commonly known as superbugs, recent research has shown.

The growling grass frog’s skin secretions include disease fighting peptides. Credit: Craig Cleeland

The skin secretions of the Australian green-eyed and growling grass frogs contain peptides (small proteins) that help frogs fight infection. Researchers hope these peptides will offer a new line of defence against a range of human bacterial pathogens, including methicillin-resistant Staphylococcus aureus (MRSA).
Continue reading Frog peptides versus superbugs

Bionic eye researchers take a shine to diamond

Electrodes made of diamond are helping Melbourne researchers build a better bionic eye.

David Garrett’s Melbourne team is designing diamond electrodes to replace light-sensing parts of the retina. Credit: David J. Garrett
David Garrett’s Melbourne team is designing diamond electrodes to replace light-sensing parts of the retina. Credit: David J. Garrett

Some types of blindness are caused by diseases where the light-sensing part of the retina is damaged, but the nerves that communicate with the brain are still healthy—for example, retinitis pigmentosa and age-related macular degeneration.

Dr David Garrett and his colleagues at the Melbourne Materials Institute at the University of Melbourne are using diamond to build electrodes that can replace the light-sensing function of the retina: they deliver an electrical signal to the eye via a light-sensing camera.

Continue reading Bionic eye researchers take a shine to diamond

Understanding the genetic contribution to epilepsy

Twenty years ago doctors thought epilepsy was caused by injuries or tumours but, thanks to the work of a Melbourne paediatrician, we now know that there’s a large genetic factor.

Ingrid Scheffer with one of her young patients Credit: SDP/ L’Oréal
Ingrid Scheffer with one of her young patients. Credit: SDP/ L’Oréal

Prof Ingrid Scheffer, a paediatric neurologist at the Florey Neuroscience Institutes and the University of Melbourne, has spent the last 20 years looking at the genetics of epilepsy, particularly in children.

We now know that genes play a large role and that’s opened the way to better diagnosis, treatment, counselling, and potential cures.

In particular, Ingrid’s team and her collaborators at the University of South Australia have discovered that one kind of inherited infant epilepsy is due to a single letter change in the genetic code.

Continue reading Understanding the genetic contribution to epilepsy

Prized astronomer continues to contribute

He received the first ever Malcolm McIntosh Prize for Physical Scientist of the Year in 2000, then the Shaw Prize in Astronomy in 2006, the Gruber Cosmology Prize in 2007 and the Nobel Prize for Physics in 2011—it’s been a satisfying progression for Brian Schmidt, professor of astronomy at the Australian National University, and for Australian science. Schmidt led one of two research teams that determined that the expansion of the Universe is accelerating.

Brian Schmidt, the Malcolm McIntosh Physical Scientist of the Year 2011. Credit: ANU
Brian Schmidt, the Malcolm McIntosh Physical Scientist of the Year 2000 and 2011 Physics Nobel Laureate. Credit: ANU

But winning awards does not mean he’s resting on his laurels. Apart from countless invitations to speak, Brian has his hands full with commissioning SkyMapper, a new optical telescope equipped with Australia’s largest digital camera at 268 megapixels. And he’s also involved in two significant new facilities pioneering technology to be used in the Square Kilometre Array (SKA), the world’s largest radio telescope: the Murchison Widefield Array and the Australian SKA Pathfinder. And in his spare time, he’s working on one of the next generation of optical telescopes, the Giant Magellan Telescope.
Continue reading Prized astronomer continues to contribute

Donating used eyeglasses is a poor use of resources

It’s much better to give new glasses than recycled glasses if you want to help one of the 640 million people who are vision-impaired or blind simply for the lack of an eye examination and appropriate glasses.

Thembani waits for an eye examination at the Umlazi community hall near Durban, South Africa Credit: Dean Saffron/ICEE
Thembani waits for an eye examination at the Umlazi community hall near Durban, South Africa. Credit: Dean Saffron/ICEE

This is according to a new international study led by Australian researchers.

Dr David Wilson, research manager in the Asia-Pacific for International Centre for Eyecare Education and head author of a major paper on the topic, says although you might feel good sending your old reading glasses to a developing country, it is far better to give $10 for an eye examination and a new pair of glasses—and that’s more likely to strengthen the ability of these communities to help themselves.
Continue reading Donating used eyeglasses is a poor use of resources

Could a neutron beam help stop train derailments?

Scientists are using neutron radiation to look inside solid steel and analyse the stresses within rail tracks. This research will ultimately improve the safety and operational and repair efficiency of heavy-haul railways.

The wheels of heavily laden trains place considerable rolling-contact loading on rail tracks. The heavy loads can change the material properties near the running surface and within the railhead—causing “fatigue”. A number of serious incidents, including derailments, have been attributed to rail failures resulting from rolling-contact fatigue and accumulated residual stress.

Bragg Institute instrument scientist Dr Vladimir Luzin is looking at fatigue in insulated rail joints (IRJs) within a research project initiated by the Cooperative Research Centre for Rail Innovation. IRJs are an integral part of rail track systems, but they are also weak points, and their replacement is the single largest track maintenance cost in New South Wales, apart from ballast work.

“When a rail comes out of a factory it has already some residual stress,” explains Vladimir. “Now we are looking at the atomic level to see how these stresses develop through the life of the rail joints.”

Vladimir uses neutron diffraction to see how residual stresses evolve through different production steps and during service. The beauty of neutrons is that they can penetrate steel—unlike X-rays—and they can be used to map the stresses inside the rail components non-destructively.

Manufacturers and operators want to control and minimise these stresses. This research, backed by modellers and metallurgists, will help industry partners cut costs, modify production methods and develop rails of a quality and strength that can handle increasing loads.

Bragg Institute, Australian Nuclear Science and Technology Organisation, Vladimir Luzin, Tel: +61 2 9717 7262, vladimir.luzin@ansto.gov.au,  www.ansto.gov.au

Bionic pioneer explores how we’re wired for sound

Prof Graeme Clark changed the way we thought about hearing when he gave Rod Saunders the first cochlear implant in 1978—now he might just do it again.

3-D reconstruction of the left implanted cochlea in the brain of Rod Saunders. Credit: G. Clark; J.C.M. Clark.; M. Clarke; P. Nielsen- NICTA & Dept Otolaryngology, Melbourne University

Back then, Graeme brought together a team of engineers and medical personnel; now he’s trying to reveal exactly how the brain is wired for sound—by bringing together software specialists and experts on materials that can interface with the brain.

“We’re aiming to get closer to ‘high fidelity’ hearing for those with a cochlear implant,” says Graeme, now distinguished researcher at NICTA and laureate professor emeritus at the University of Melbourne. “This would mean they could enjoy the subtlety of music or the quiet hum of a dinner party.”

Continue reading Bionic pioneer explores how we’re wired for sound

Spray-on solar cells

Imagine a power station that’s literally sprayed onto your roof —and could match the colour of your tiles.

GERRY WILSON IS DEVELOPING SPRAY-ON SOLAR CELLS. CREDIT: ISTOCKPHOTO

Thin film solar cells are thinner, cheaper and more versatile than the traditional silicon solar panels. Spray-on solar is a next step in the evolution of on-site power generation.

“These cells can be made with semiconductor dye materials, so you can match them to any colour or pattern you like—they’ll just convert that part of the solar spectrum into electricity. In the future we could have billboards that act as solar panels,” says Dr Gerry Wilson of CSIRO’s flexible electronics team.

Continue reading Spray-on solar cells