Ancient wetlands offer window into climate change
Environmental researchers have uncovered a wealth of information about a unique part of Australia that offers never-before-seen insights into climate change since the last ice age.
The work – led by the University of Adelaide, and involving scientists from the Queensland Government, and members of the local community – has uncovered what the researchers describe as a "treasure trove" of ancient wetlands on Queensland's North Stradbroke Island (known to Indigenous communities as Minjerribah), some dating as old as 200,000 years ago.
Now published in the Journal of Quaternary Science, the research details the development of wetlands on the island, at a time when water across Australia was scarce.
"There are more wetlands on North Stradbroke Island dating to the last ice age than anywhere else in Australia," says project leader Dr John Tibby, Acting Head of the Department of Geography, Environment and Population at the University of Adelaide.
"Australia was much drier during the last ice age than it is today, as most of the water was held in large ice sheets in the Northern Hemisphere. Right across Australia there were few wetlands during this time, which raises the question: where and how did plants and animals survive that needed permanent water?
"The island, and possibly even the region itself, may have been a refuge from dry climates," Dr Tibby says.
Dr Jonathan Marshall, Principal Scientist with the Queensland Department of Science, Information Technology and Innovation, says their work has demonstrated that North Stradbroke Island "is an Australian exception".
"We cored and dated 16 wetlands on the island and found six dating to the ice age or earlier, with one being more than 200,000 years old," Dr Marshall says.
"Some of these wetlands on North Stradbroke were around before humans arrived in Australia. Analysis of the sediments laid down in the wetlands provides us with a better understanding of their natural variation to climate change. This allows us to make better recommendations about sustainable environmental management," he says.
Dr Tibby says a range of indicators in the wetlands offer researchers a window into past climate and environments.
"We're using the chemicals in leaves to determine past rainfall, and fossil algae to tell us how the water in the wetlands has changed," Dr Tibby says.
"Using this information, we can glean insights into whether climate changed at the same time Australian megafauna went extinct. This is important, since scientists are often forced to rely on records as far away as Antarctica to tell them about Australian climate change.
"The persistence of these wetlands suggests that for much of the past 40,000 years, and for perhaps much longer, the local environment has remained relatively moist. This may partly be due to links between these wetlands and the island's groundwater systems, which act as water reservoirs during periods of rainfall deficit.
"This unique and remarkably long and uninterrupted record of climatic conditions in south-east Queensland will greatly improve our understanding about the drivers of both local and regional climate variability," he says.
Darren Burns, Traditional Owner, and Land and Sea Manager, Quandamooka Yoolooburrabee Aboriginal Corporation, says: "This evidence represents and confirms the resources that no doubt the Quandamooka People would have had to enable them to live continually on the Island. Coupled with the existence of the Pleistocene sites, this study demonstrates the long and extensive connection Quandamooka People have to our ancient land."
This research has been funded by the Australian Research Council (ARC), the Queensland Government, and the Jani Haenke Charitable Trust. It involved the support of the Quandamooka Yoolooburrabee Aboriginal Corporation and Minjerribah Moorgumpin elders.
Dr John Tibby
Department of Geography, Environment and Population and Director, Sprigg Geobiology Centre
The University of Adelaide
Dr. John Tibby
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