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Study highlights formation of beachrock in resisting climate-induced sea level rises

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Study highlights formation of beachrock in resisting climate-induced sea level rises

Heron Island, Great Barrier Reef, Australia. Credit: The University of Queensland Microorganisms play a crucial role in forming beachrock, a type of rock that forms on the beach and protects low-lying reef islands from erosion, a new study involving University of Queensland research has revealed. Professor Gordon Southam of UQ’s School of Earth and Environmental Sciences said the findings threw new light on an area of coastal ecology that had been little studied, but could help protect islands such as in Australia’s Great Barrier Reef.
”These results are of interest because beachrock could be used as a natural coastline stabilisation strategy on sand reef cays, and in turn, protect the unique habitats that reef islands support,” Professor Southam said.
He said of all the coastal environments that would be influenced by sea-level rise and increased cyclone intensity, sandy beaches on low elevation coral reef cays were among the most vulnerable due to their susceptibility to erosion.
”Changes to reef islands will have negative implications for the existence of reef cay environments, which host vital sea turtle and bird rookery habitats,” he said.
”Beachrock – consolidated carbonate beach sediment in the intertidal zone – forms naturally on many tropical beaches and reduces the erosion rates of these beaches when compared to unconsolidated sand.
”In spite of the critical role beachrock plays in stabilizing some reef cay shores, the mechanism of beach rock formation is still incompletely understood.
Co-author Professor Gregory Webb said in this investigation beachrock was synthesised in the laboratory using beach sand and beachrock samples from Heron Island on Australia’s Great Barrier Reef.
The researchers conducted aquarium experiments in which natural beach rock formation conditions were simulated, with one experiment influenced by beachrock microbes and the other, lacking these bacteria.
The resulting materials were then analysed in the Australian synchrotron in Melbourne, and the analysis showed the fundamental role these bacteria play in initiating beachrock formation.
Professor Southam said the results provided a better understanding of the role of microorganisms in beachrock generation, and could guide future studies examining on site beachrock formation.
Explore further:The Sydney Barrier Reef—engineering a natural defence against future storms
More information: Jenine McCutcheon et al, Building biogenic beachrock: Visualizing microbially-mediated carbonate cement precipitation using XFM and a strontium tracer, Chemical Geology (2017). DOI: 10.1016/j.chemgeo.2017.05.019

Journal reference:Chemical Geology
Provided by:University of Queensland

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