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It will take decades, but the Murray Darling Basin Plan is delivering environmental improvements

The Conversation May 1, 2018

In this cross-posting from The Conversation website, 12 scientists from Australian universities write that environmental benefits are slowly but surely being seen, more than five years after the adoption of the Murray Darling Basin Plan.

 

File 20180427 137525 7pn9i5.jpg?ixlib=rb 1.1
The Murrumbidgee River is one of several sites in the Murray-Darling Basin where improvements are being detected.
CSIRO/Wikimedia Commons, CC BY-SA

 

Amid the politics, it’s sometimes easy to forget that the Murray-Darling Basin Plan was originally designed primarily to restore the rivers’ environment. While questions have been raised over the plan’s governance, economics, and political commitment by the states, it is important to note that, more than five years after the plan’s adoption, the environmental benefits are slowly but surely being seen.

The Long-Term Intervention Monitoring Project began in 2014 to monitor and evaluate environmental outcomes from Commonwealth environmental water – the water being delivered into the Murray-Darling Basin by the plan.




Read more:
The science behind the Murray-Darling Basin plan


We are leading independent teams of researchers and consultants in monitoring seven selected areas across the Murray-Darling Basin, and then scaling up those results to deduce the health of the basin as a whole.

The seven monitoring sites.
Author provided

Three and a half years into an initial five-year program, we are generally seeing environmental changes of the types and magnitudes expected at this stage of the plan.

Plans, predictions and possibilities

It’s not widely known what environmental water can and cannot do, and how different environmental indicators will respond at different rates. The Basin Plan’s objectives focus on fish, bird and vegetation communities – and in all of these areas, the changes will take time.

Under the plan, we expect that it will take more than a decade from the start of flow delivery before large-scale changes become evident. Detecting these changes will require both time and high-quality data.

What’s more, Commonwealth environmental water is a relatively small proportion of what once flowed through these systems. The government currently holds entitlements to 1,836 billion litres, which is less than 6% of average system inflows (the rainfall that makes it into the river system).

This is not enough water to restore natural flow patterns. Along with other constraints, such as the pressure to keep water off floodplains, this means that managers need to be extremely selective about where, when and how water is delivered for environmental benefits.

What are we monitoring?

While we are monitoring fish, birds and vegetation to allow us to measure progress towards the Basin Plan’s objectives, we are also monitoring shorter-term responses. These responses provide data on environmental processes that will allow us to predict whether we can expect the Basin Plan ultimately to deliver on the promised long-term improvements.

A good example of this is golden perch, a threatened and iconic native fish species in the Murray-Darling Basin. Long-term changes in the adult population will only be seen if shorter-term processes, such as migration and spawning, occur. Environmental water should help these processes, and we are monitoring those outcomes.

Adult fish respond to high flows in spring, moving downstream to spawn. Eggs and larvae are washed further downstream, so to bring new fish into the local population, high flow events in autumn can be used to attract juvenile fish back into a river. Golden perch move over very large distances, and as adults they may end up living in a different river from where they were spawned.

If environmental water is used to achieve all these processes, then over years to decades, we will see an increase in adult golden perch numbers.

Adult golden perch fitted with a tag to track its movements.
Wayne Koster/Arthur Rylah Institute, Author provided

Quicker results

Not everything takes decades, however. We have already been able to detect some shorter-term benefits from the plan. Here are some examples from around the Basin:

  • Lower Murray: environmental water has reduced salinity in the Coorong and increased salt export through the Murray mouth
  • Edward-Wakool: environmental water has provided refuges for aquatic fauna during low-oxygen “black water” events caused by floods in 2010 and 2016, reducing impacts on fish populations
  • Murrumbidgee: environmental water has been crucial in helping endangered populations of the vulnerable southern bell frog to recover
  • Gwydir: environmental water allowed the production of 1,000 tonnes of zooplankton over 90 days, in turn providing food for fish and higher predators
  • Warrego-Darling: environmental water has maintained flows in a system that would have otherwise dried to a series of isolated pools, maintaining food webs and stimulating fish breeding.

Alternative outcomes

Besides reporting progress, our monitoring program also allows us to make predictions of what the system might have looked like with different environmental flows, or with no environmental flows at all.

In the Lachlan River in New South Wales, environmental water has been used to support a major bird breeding event by extending the period of flooding. Without this water, nests would have been abandoned, leaving thousands of fledglings to die.

Straw necked Ibis chicks from the Lachlan River.
Mal Carnegie/Lake Cowal Association, Author provided

We also share our results with environmental water managers to help improve the effectiveness and efficiency of environmental water delivery – a process called adaptive management. In the Goulburn River in Victoria, we have learned that the release of environmental water to help riverbank vegetation is more effective if delivered earlier in spring. Riverbank vegetation has now improved so much that metal pins being used to monitor erosion and sediment deposition can’t be found without a metal detector.

In it for the long haul

One criticism of the Basin Plan is that there is no evidence yet of basin-wide improvements. For some indicators this is to be expected because of the long time frames of response of the Basin Plan objectives. However, we have already reported on basin scale changes of other indicators, such as vegetation.

Also, the assessment of Commonwealth environmental water delivery shows that across the basin, we are creating the types of flow events expected to lead to beneficial environmental outcomes at broad scales.

Environmental water release to improve water quality in the Edward-Wakool system.
Photo: Commonwealth Environmental Water Office, Author provided



Read more:
Is the Murray-Darling Basin Plan broken?


The politics of the Murray-Darling Basin Plan will probably always be fraught. But as the group charged with assessing environmental progress, we want the debate on its effectiveness to be underpinned by sound evidence from independent experts.

The Long-Term Intervention Monitoring Project, along with other research and monitoring, is providing that evidence.

So, while the Basin Plan’s objectives will take a long time to be realised, there are positive signs that it is slowly achieving its major goal of improving environments in the Murray-Darling Basin, underpinning more sustainable social, environmental and economic outcomes into the future.


The ConversationThis article was coauthored by Mark Southwell, Geomorphologist, Eco Logical Australia; and Shane Brooks, Director, LitePC Technologies.

Authors:

Angus Webb, Senior Lecturer and quantitative ecologist, University of Melbourne; Darren Ryder, Professor of Aquatic Ecology and Restoration, University of New England; Fiona Dyer, Associate professor, University of Canberra; Michael Stewardson, Professor, University of Melbourne; Mike Grace, Associate Professor, Monash University; Nick Bond, Professor, La Trobe University; Paul Frazier, Adjunct Senior Lecturer, University of New England; Qifeng Ye, Principal Scientist, Inland Waters and Catchment Ecology Program; Rick Stoffels, Senior Scientist, CSIRO; Robyn J Watts, Professor of Ecology, Charles Sturt University; Samantha Capon, Research Fellow in Ecology, Griffith University, and Skye Wassens, Associate Professor in Ecology, Charles Sturt University

This article was originally published on The Conversation. Read the original article.

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