NASA satellite images to protect the Great Barrier Reef from pollution?
Now, a new technique analyses the images to assess coastal water quality from space
By : DC Correspondent
Update: 2014-05-13 16:55 GMT
Melbourne: Australian scientists are using images from NASA satellites to help protect the Great Barrier Reef - the world's largest coral reef system - from polluted land run-off.
Researchers from the James Cook University have developed a new technique that analyses the images to assess coastal water quality from space.
Many important habitats in the Great Barrier Reef such as coral reefs and sea-grass are in decline and one important driver of this decline is poor water quality.
Heavy rains and cyclones during the wet season scour mud and pollutants, such as fertilisers and pesticides, from land. The resulting river flood plumes are the main way polluted water travels to the Great Barrier Reef.
Researchers from TropWATER at the university, who regularly monitor the duration and impacts of flood plumes in the Great Barrier Reef, have proved that publicly available satellite imagery can be effectively used to map the extent, nutrient content and muddiness of flood plumes.
Traditional methods of monitoring flood plumes require scientists to use submerged data loggers, or boats and helicopters to gather water samples.
These methods are expensive, labour intensive, and cannot be collected everywhere.
"Despite technical challenges, satellite time series provide the spatial and long-term window necessary for understanding water quality variability inside Great Barrier Reef coastal waters, and provide the baseline information to assess changes to important ecosystems, such as sea-grass beds," said Dr Caroline Petus, lead author of the two studies.
She said these studies are first steps towards the development of river plume risk maps for Great Barrier Reef sea-grass and coral ecosystems.
"Combined with ecological and in-situ water quality data, these maps will help our understanding of the resilience of these ecosystems to water quality changes. In the near future they should help us predict ecosystems' health changes associated with human activities or climate change," said Petus.
"These new monitoring techniques, with other ongoing risk assessments, will help prioritise how money can be spent to get maximum outcomes for the reef," said Project Leader, Dr Michelle Devin.
Seagrass expert and co-author, Dr Michael Rasheed, says the information will help researchers understand the impact of flood plumes, ultimately leading to better management of the Great Barrier Reef.
"It is often difficult to determine whether declines in sea-grass beds are due to polluted river run-off or coastal development such as dredging around a port. This new tool will allow us to better understand which activities are driving declines," Rasheed said.