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clear felled mountain ash forest by Chris Taylor
clear felled mountain ash forest by Chris Taylor

‘Stark warning’: Combating ecosystem collapse from the tropics to the Antarctic

‘Stark warning’: Combating ecosystem collapse from the tropics to the Antarctic

19 marine and terrestrial ecosystems across Australian and Antarctica undergoing collapse

Eminent scientists warn that key ecosystems around Australia and Antarctica are collapsing, and propose a three-step framework to combat irreversible damage.

Their , authored by 38 Australian, UK and US scientists from universities and government agencies, is published today in the international journal Global Change Biology.

Lead author, Dr Dana Bergstrom from the Australian Antarctic Division and an Honorary Fellow at the 51 (UOW), said that the project emerged from a conference inspired by her ecological research in polar environments.

“I was seeing unbelievably rapid, widespread dieback in the alpine tundra of World Heritage-listed Macquarie Island and started wondering if this was happening elsewhere,” Dr Bergstrom said.

“With my colleagues from the Australian Antarctic Division and the University of Queensland we organised a national conference and workshop on ‘Ecological Surprises and Rapid Collapse of Ecosystems in a Changing World’, with support from the Australian Academy of Sciences.”

The resulting paper and extensive case studies examine the current state and recent trajectories of 19 marine and terrestrial ecosystems across all Australian states, spanning 58° of latitude from coral reefs to Antarctica. Findings include:

  • Ecosystem collapse (defined as potentially irreversible change to ecosystem structure, composition and function) is occurring now in 19 case studies. This conclusion is supported by empirical evidence, rather than modelled predictions.
  • No ecosystems have collapsed across their entire range, but for all case studies there is evidence of local collapse.
  • The 19 ecosystems include the Great Barrier Reef, mangroves in the Gulf of Carpentaria, the arid zone of central Australia, Shark Bay seagrass beds in Western Australia, Great Southern Reef kelp forests, Gondwanan conifer forests of Tasmania, Mountain Ash forest in Victoria, and moss beds of East Antarctica.
  • Drivers of ecosystem collapse are pressures from global climate change and regional human impacts, categorised as chronic ‘presses’ (eg changes in temperature and precipitation, land clearing) or acute ‘pulses’ (eg heatwaves, storms, fires and pollution after storms).

map showing 19 ecosystem across Australia and Antarctica that are experiencing ecosystem collapseEcosystems MAP_Australia

 

Co-author Senior Professor and her team at UOW have monitored Antarctica’s old growth moss “forests” near Australia’s Casey Station for the past 20 years.

“Between 2000 and 2013, the species composition in these Antarctic moss beds changed significantly. Moss species that can tolerate drier conditions (and which are also found on other continents) expanded, while the endemic moss, which is better adapted to frequent meltwater events, declined,” said Professor Robinson, Executive Director of UOW’s Global Challenges Program.

“By 2008, half the mosses that had been green and healthy in 2003, were stressed and turning red or grey under drying conditions. The drying was due to a combination of climate change and ozone thinning, .

“This makes water less available during the growing season, and less water means less moss growth. This represents a decline in the health of plants that have been growing at Casey since before Mawson, Shacklelton, Scott and Armundsen were exploring Antarctica.”

Drying appears to be more widespread than just the Casey region. A time series of photos from extensive moss banks at Mossel Lake in the Vestfold Hills has shown similar declines but in the summer of 2019/20 an melted nearby snow banks and glaciers causing flooding. 

Dr Bergstrom observed some grey mosses greened within a month, however others that did not receive flood water remained grey and stressed.

Historically, activity associated with research stations has also reduced local moss populations.

The paper recommends a new ‘3As’ framework to guide decision-making about actions to combat irreversible damage:

  • Awareness of the importance of the ecosystem and the need for its protection;
  • Anticipation of the risks from current and future pressures
  • Action on reducing the pressures to avoid or lessen their impacts

“To give Antarctic mosses the best chance to grow for another hundred years we should ; take global climate action; leave vegetated areas to recover after extreme events, and reduce pressures from stations, research and operational activities,” Professor Robinson said.

“In the future, we may need engineering solutions – such as strategically placed snow fences – to replace the lost water and create new habitats. Or we may have to translocate plants to areas with more secure future water availability.

“Although it is devastating to document the common collapse of so many ecosystems, across such a vast area, the positive note is that we can repair many of them if we are prepared to take fast and effective actions to preserve Australia’s natural wonders.”

The scientific team concluded that in the near future, even apparently resilient ecosystems are likely to suffer collapse as the intensity and frequency of pressures increase.

“Anticipating and preparing for future change is necessary for most ecosystems, unless we are willing to accept a high risk of loss,” Dr Bergstrom said.

“Protecting the iconic ecosystems we have highlighted is not just for the animals and plants that live there. Our economic livelihoods, and therefore ultimately our survival, are intimately connected to the natural world.”

Bleached coral on the Great Barrier Reef, Picture C. Sharker

Bleached coral on the Great Barrier Reef. Picture C. Sharker

About the research

‘Combating ecosystem collapse from the tropics to the Antarctic’ by Dana M. Bergstrom, et al, is published in Global Change Biology ().