Aussies told, cut water use to save bush

Feb 19, 2013

(Phys.org)—Australians may be asked to reduce their use of bore water in order to preserve their cherished native landscapes.

Researchers at the National Centre for Research and Training (NCGRT) have found that eucalypts, melaleucas, acacias and other Australian native trees drink much more groundwater than previously thought.

"We may have significantly overestimated how much water we can pump out of our aquifers," says Mr Parikshit Verma of NCGRT and Monash University. "Past models used to predict groundwater resources have neglected how these trees can use special pathways to harness groundwater, especially during long, dry periods.

"Our new model shows that during dry periods, the native plants can use nearly 50 per cent more groundwater through these pathways than was allowed for in the past."

"It's critical that we now re-evaluate how much groundwater we allocate for our own uses, as over-extraction can kill the plants and their surrounding landscapes."

Known as phreatophytes – plants that can exploit groundwater – most Australian trees grow naturally in areas where they have access to a steady supply of water, Mr Verma explains. Apart from growing dense root networks to absorb , they also develop deep roots that can reach ten metres into the ground.

By having roots in several soil areas, the trees are assured of a drink even during dry periods, Mr Verma says: "In drought when there isn't enough water in surface soils, Australian natives rely on groundwater to keep them going.

"Their deep, thick roots compensate for the lack of surface water by taking up groundwater from lower . The tree then releases this into the surface soils, so it can be used the following day."

Mr Verma's model is the first to quantify how much groundwater the plants use through this pathway. It has been tested at a field site near Sydney and proven accurate for this site.

"Australian native trees not only create our landscapes and shelter wildlife – they also provide us with the air we breathe, timber and fuel, prevent erosion and floods and help keep our water clean. We need to take greater account of their needs in future – because they look after us.

"Now we know our landscapes are much more dependent on groundwater than previously thought, Australians will need to allocate more of our bore and well water to maintaining them. This means being more sparing in our use of bore water, especially during drought."

While maintaining the health of and landscapes is a priority, it often conflicts with our increasing demand for groundwater, says Professor Derek Eamus of NCGRT and The University of Technology Sydney.

"In the past, it was extremely difficult to estimate how much of the plants' water comes from groundwater," Prof. Eamus says. "So the two major questions with groundwater extraction are often: how much can we take and when is it okay to pump out more?

"With this new model, we now know how much groundwater we can extract without harming the vegetation. This discovery is a major step towards managing both groundwater and landscapes harmoniously."

The finding also has important implications for large scale revegetation and tree planting programs, Prof. Eamus says.

"If we underestimate how much water the plants need and plant on a large scale in the wrong places, it could reduce the amount of rainwater that flows into our , and may even stop groundwater flowing into rivers," he says.

"This could change the local water balance, which could have an impact on irrigators, towns and river health. So it's crucial that we know how much groundwater trees need before we plant on a significant scale in a new landscape."

Explore further: Little Uruguay has big plans for smart agriculture

More information: Abstract: bit.ly/10rL2Al

Provided by National Centre for Groundwater Research & Training

5 /5 (1 vote)
add to favorites email to friend print save as pdf

Related Stories

Groundwater threat to rivers worse than suspected

Nov 02, 2010

Excessive groundwater development represents a greater threat to nearby rivers and streams during dry periods (low flows) than previously thought, according to research released today by CSIRO.

Saltwater solution to save crops

Sep 11, 2008

Technology under development at the University of New South Wales could offer new hope to farmers in drought-affected and marginal areas by enabling crops to grow using salty groundwater.

Crumbling bores 'jeopardise nation's water'

Feb 05, 2013

Fifteen thousand collapsing bores – and a half-billion dollar repair bill – are endangering the future of Australia's largest and most precious resource, its groundwater.

Recommended for you

More safety on thermal drying plants of sewage sludge

Dec 23, 2014

Researchers from the Madariaga Lab at the Universidad Politécnica de Madrid have carried out a series of trials to study the explosiveness of sludge on thermal drying plants of sewage sludge. The obtained ...

User comments : 0

Please sign in to add a comment. Registration is free, and takes less than a minute. Read more

Click here to reset your password.
Sign in to get notified via email when new comments are made.