Pittwater Online News

Dr Melissa Danks from Edith Cowan University in Western Australia led an investigation into how swamp wallabies spread truffle spores around the environment. Results demonstrate the importance of these animals to the survival of the forest.

"There are thousands of truffle species in Australia and they play a critical role in helping our trees and woody plants to survive," she said.

"Truffles live in a mutually beneficial relationship with these plants, helping them to uptake water and nutrients and defence against disease.

"Unlike mushrooms where spores are dispersed through wind and water from their caps, truffles are found underground with the spores inside an enclosed ball -- they need to be eaten by an animal to move their spores."

Dr Danks and colleagues at the University of New England investigated the role of swamp wallabies in dispersing these spores.

"Wallabies are browsing animals that will munch on ferns and leaves as well as a wide array of mushrooms and truffles," she said.

"This has helped them to be more resilient to changes in the environment than smaller mammals with specialist diets like potoroos.

"We were interested in finding out whether swamp wallabies have become increasingly important in truffle dispersal with the loss of these other mammals."

The team fed truffles to wallabies and timed how long it would take for the spores to appear in the animals' poo. Most spores appeared within 51 hours, with some taking up to three days.

Armed with this information, the researchers attached temporary GPS trackers to wallabies to map how far they move over a three-day period.

Results showed the wallabies could move hundreds of metres, and occasionally more than 1200 metres, from the original truffle source before the spores appeared in their poo, which makes them a very effective at dispersing truffles around the forest.

Dr Danks said this research had wide ranging conservation implications for Australian forests.

"As forest systems become more fragmented and increasingly under pressure, understanding spore dispersal systems is really key to forest survival," Dr Danks said.

"Many of our bushland plants have a partnership with truffles for survival and so it is really critical to understand the role of animals in dispersing these truffle spores.

"Our research on swamp wallabies has demonstrated a simple method to predict how far an animal disperses fungal spores in a variety of landscapes."

Melissa A. Danks, Natalie Simpson, Todd F. Elliott, C. E. Timothy Paine, Karl Vernes. Modelling mycorrhizal fungi dispersal by the mycophagous swamp wallaby (Wallabia bicolor). Ecology and Evolution, 2020; DOI: 10.1002/ece3.6873

It is critical to understand the role of animals in forest ecosystem health. Credit Todd F Elliott.

NUW Alliance CEO Matt Gijselman welcomed the announcement.

The Minister for Skills and Tertiary Education joins the Vice-Chancellors of the four NUW Alliance universities and NUW CEO at the signing ceremony on Monday. Photo: NUW Alliance.

“The capabilities and expertise represented in this Alliance have not been brought together in this way in Australia before. The size and scale of this joint venture has not been seen before in Australia – 194,000 students plus 14,500 staff, working across 37 locations including 15 innovation hubs and driving $850 million in research funding. Today is a game changer in higher education. Together, and as individuals, we are among the world’s best,” said Mr. Gijselman.

The new arrangement draws on the extensive collaboration between the four universities that has already produced a New Education and Training Model (NETM) incorporating TAFE NSW and industry partnered education, research, and training. The formalisation of the joint venture arrangement underscores the long-term commitment to delivering the model.

The Alliance is focused on collaborative projects that will have real impact, including the delivery of the Multiversity – a single entity that brings together four of Australia’s leading higher education institutions to deliver 22nd century education, training, and research in the Western Parkland City.

The Western Parkland City is the focus of the 2018 Western Sydney City Deal. Under the Deal, three levels of government have committed to creating 200,000 knowledge jobs by 2038. The Multiversity has a pivotal role in realising that objective for a region among the hardest hit by the jobs and economic fallout of the COVID-19 pandemic.

The Multiversity will specialise in industry-experienced graduates and researchers in high-demand STEM (science, technology, engineering, and mathematics) fields and will be part of the Aerotropolis precinct at Badgerys Creek. By leveraging the expertise of the four institutions, students, employees, and the wider community will have unparalleled access to innovative teaching and research.

The Alliance represents a step change in industry, education, research and training collaboration. These world-first initiatives will unquestionably deliver job-ready graduates for the future.

Professor Paul Wellings CBE, Chair, NUW Alliance said; “The NUW Alliance looks forward to working with Western Sydney University for the jobs of the future as we develop a new model for the Multiversity within the Western Sydney Aerotropolis.”

Professor Barney Glover AO, Vice-Chancellor, Western Sydney University said: “The Western Sydney City Deal, Aerotropolis and Multiversity, combined, are an opportunity for generational change in the way we deliver the highest quality education and research for Western Sydney. As four universities, acting together, we can expand and accelerate these opportunities and other priorities in the interests of our shared communities.”

Professor Ian Jacobs, President and Vice-Chancellor, UNSW said: “Many challenges lie ahead of us as a state and a nation. Together these four universities represent a rich resource from which governments, business, industry and the wider community can draw upon as a partner to take on these challenges and prepare for our future.”

Professor Alex Zelinsky AO, Vice-Chancellor, University of Newcastle said: “The addition of Western Sydney University is a welcome expansion of the Alliance. Working together, our four institutions will be able to combine our research expertise and our networks with industry to help grow and transform our state.”

"Those species include 19 per cent of birds, 16 per cent of mammals, 17 per cent of dragonflies and 19 per cent of legumes that are classified as critically endangered, endangered or vulnerable," said lead author, Dr Luke Kelly, a Senior Lecturer in Ecology and Centenary Research Fellow.

"That's a massive number of plants and animals facing threats associated with fire."

The paper, Fire and biodiversity in the Anthropocene, published in Science, found that the species categorized as threatened by an increase in fire frequency or intensity, include the orangutan in Indonesia and mallee emu-wren in Australia.

"Recent fires have burned ecosystems where wildfire has historically been rare or absent, from the tropical forests of Queensland, Southeast Asia and South America to the tundra of the Arctic Circle," Dr Kelly said.

"Very large and severe fires have also been observed in areas with a long history of recurrent fire, and this is consistent with observations of longer fire seasons and predictions of increased wildfire activity in the forests and shrub lands of Australia, southern Europe and the western United States."

The research team also found a striking example from Australia: the total area burnt by bushfires in the eastern seaboard from August 2019 to March 2020, 12.6 million hectares, was unprecedented in scale.

However, some species and ecosystems are threatened when fire doesn't occur. Frequent fires, for example, are an important part of African savanna ecosystems and less fire activity can lead to shrub encroachment, which can displace wild herbivores such as wildebeest that prefer open areas.

"Understanding what's causing changes in different places helps us to find effective solutions that benefit people and nature," Dr Kelly said.

Researchers, including 27 authors from a combined 25 institutions around the world (including six authors from the University of Melbourne), identified three main groups of human drivers as transforming fire activity and its impacts of biodiversity: global climate change, land-use and biotic invasions. This means that people and governments around the world need to act and confront the diverse changes to the environment that are occurring.

"It really is time for new, bolder conservation initiatives," Dr Kelly said. "Emerging actions include large-scale habitat restoration, reintroductions of mammals that reduce fuels, creation of low-flammability green spaces and letting bushfires burn under the right conditions. The role of people is really important: Indigenous fire stewardship will enhance biodiversity and human well-being in many regions of the world."

Michael Clarke, Professor of Zoology at La Trobe University, who supported the study, echoed Dr Kelly's call, saying "Our research highlights the magnitude of the challenge fire poses to animals, plants and people, given worsening climatic conditions -- a conclusion echoed in the recent Royal Commission report into last summer's fires."

Luke T. Kelly, Katherine M. Giljohann, Andrea Duane, Núria Aquilué, Sally Archibald, Enric Batllori, Andrew F. Bennett, Stephen T. Buckland, Quim Canelles, Michael F. Clarke, Marie-Josée Fortin, Virgilio Hermoso, Sergi Herrando, Robert E. Keane, Frank K. Lake, Michael A. McCarthy, Alejandra Morán-Ordóñez, Catherine L. Parr, Juli G. Pausas, Trent D. Penman, Adrián Regos, Libby Rumpff, Julianna L. Santos, Annabel L. Smith, Alexandra D. Syphard, Morgan W. Tingley, Lluís Brotons. Fire and biodiversity in the Anthropocene. Science, 2020; 370 (6519): eabb0355 DOI: 10.1126/science.abb0355