New, lower-cost help may soon be on the way to help manage one of the biggest threats facing the Great Barrier Reef.
That threat is pollution from land making its way downstream by way of the many rivers and streams that flow into coastal waters along the reef.
Now, in collaboration with scientists at the Queensland Department of Environment and Science, researchers at the ARC Centre of Excellence for Mathematical and Statistical Frontiers (ACEMS) have developed statistical predictive tools that could lead to the deployment of many more low-cost sensors in those rivers and streams.
There is an opportunity to infill at a finer scale with lower cost sensors. However, at this stage, low-cost sensors aren’t yet able to show the two things that are most important in determining water quality. Those are direct measures of sediments and nutrients. Sediments can smother plants and animals. Nutrients are important for life, but an imbalance can lead to a variety of problems. What the low-cost sensors do measure are turbidity and conductivity. Turbidity is a measure of water clarity, and conductivity reflects the levels of ions like salt in the water.
In research just published in PLOS One, the ACEMS team developed statistical tools to take that turbidity and conductivity data and predict levels of sediments and nutrients in the water.
“They’re really the key things water agencies are looking for, both in what their values are and how they are changing over time,” said Dr Leigh.
The sensor data came from the Water Quality and Investigations (WQI) Team with the Queensland Department of Environment and Science. By being able to predict levels of sediment and nutrients, managers can look toward automating the sensor process.
“Right now, someone has to physically go to where the monitoring station is, get a sample, take it back to a lab and test it. If we can automate this process with the sensors, we can get a lot more frequent predictions of what’s happening,” said Dr Sevvandi Kandanaarachchi, an ACEMS Associate Investigator in the Department of Econometrics and Business Statistics at Monash University.
“Predicting these quantities is important because if they suddenly change then that’s an indication that something with the system needs to be looked into.”
Dr Leigh hopes the project will lead to the deployment of many more low-cost sensors. She also says they’re looking into developing an app that farmers and other landowners can use.
In work published earlier this year, the ACEMS team showed how to detect anomalies in the sensor data. In other words, they needed to ways to show if a sensor wasn’t working properly.
“You want to know that the data you’re collecting are good before you go and predict something else,” said Dr Leigh.
“The big picture is making sure certain things that could hurt the reef and our rivers don’t end up in a stream. If they do, that we can act in a timely fashion to figure what’s happening and why,” said Dr Leigh.
The project is a collaboration between ACEMS researchers and the Queensland Government that came together because of a need by Queensland Government to manage big data. A total of seven ACEMS researchers from QUT and Monash worked on it together. In addition to Dr Leigh and Dr Kandanaarachchi, the ACEMS team is made up of:
- Project Leader: Associate Professor Erin Peterson, ACEMS Associate Investigator at QUT’s Institute of Future Environments
- Associate Professor James McGree, ACEMS Associate Investigator at QUT
- Professor Rob Hyndman, ACEMS Chief Investigator at Monash University
- Omar Alsibai, ACEMS Research Associate at QUT
- Distinguished Professor Kerrie Mengersen, ACEMS Deputy Director and Chief Investigator at QUT
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ACEMS Media Contact: Tim Macuga 07 3138 6741 firstname.lastname@example.org