Murray–Darling basin

Template:Short description Template:Redirect Template:Use dmy dates Template:Use Australian English Template:Infobox valley

The Murray–Darling Basin is a large geographical area in the interior of southeastern Australia, encompassing the drainage basin of the tributaries of the Murray River, Australia's longest river, and the Darling River, a right tributary of the Murray and Australia's third-longest river. The Basin, which includes six of Australia's seven longest rivers and covers around one-seventh of the Australian landmass,<ref name="awr"/> is one of the country's most significant agricultural areas providing one-third of Australia's food supply.<ref name="mdba">Template:Cite book</ref> Located west of the Great Dividing Range, it drains southwest into the Great Australian Bight and spans most of the states of New South Wales and Victoria, the Australian Capital Territory, and parts of the states of Queensland (the lower third) and South Australia (the southeastern corner).

The Basin is Template:Convert in length, with the Murray River being Template:Convert long. Most of the Template:Convert basin is flat, low-lying and far inland, and receives little direct rainfall. The many rivers it contains tend to be long and slow-flowing, and carry a volume of water that is large only by Australian standards.

The Snowy Mountains Scheme provides some security of water flows to the Murray–Darling Basin, providing approximately 2,100 gigalitres (7.4×10¹⁰ cu ft) of water a year to the Basin for use in Australia's irrigated agriculture industry, which is worth about A$3 billion per annum, representing more than 40% of the gross value of the nation's agricultural production.

The original inhabitantsEdit

The Basin was once home to a large number of Aboriginal people whose traditional lifestyle and cultures were gradually altered by the arrival of Europeans, while others were outright killed by the settlers. Although some tribes organised resistance, such as the Maraura, whose territory lay around the Rufus River above Renmark and the Tanganekald near The Coorong, they were eventually either killed, exiled, or succumbed to disease.<ref>Template:Cite book</ref>

Native faunaEdit

The Murray–Darling Basin is home to many native animal species. The true numbers may not be known, but a fairly confident estimate has been made of these animals and the current status of their population. The study found <ref>Australian Government. (24 November 2015). Animals of the Murray–Darling Basin. Retrieved 19 October 2020, from www.mdba.gov.au website: https://www.mdba.gov.au/importance-Murray–Darling-basin/plants-animals-animals

</ref> that there were:

• 80 species of mammals, with 62 extinct and 10 endangered
• 55 species of frogs, with 18 endangered
• 46 species of snakes, with five endangered
• five species of turtles, with none endangered
• 34 species of fish, with up to half of them either threatened or of conservation significance<ref>{{#invoke:citation/CS1|citation

|CitationClass=web }}</ref>

Historical records show that the previous abundances of fish provided a reliable food source.<ref name=Wohl>Template:Citation</ref> The bountiful fish became concentrated when the early stages of a flood left shallow water across the floodplain.<ref name=Wohl/> Today, roughly 24 native freshwater fish and another 15-25 marine and estuarine species are existent in the Basin, a very low biodiversity.<ref name=Wohl/>

2018–2019 fish killEdit

Over Christmas 2018 and January 2019 there were two mass deaths of fish in the waters of the Basin, the first numbering 10,000, the second in the hundreds of thousands.<ref name="Graun">Template:Cite news</ref> Species affected were Murray cod, golden perch, silver perch and bony herring.<ref name="Graun"/> Some blamed the draining of water from the Menindee Lakes by WaterNSW, with only 2.5% of the original water volume in the lakes being left; after the first fish kill, both the Department of Primary Industries (DPI) and WaterNSW blamed the ongoing drought affecting Australia, while the DPI blamed the second kill on a disruption of an algal bloom caused by a sudden fall in temperature.<ref name="Graun"/>

2023 fish killEdit

In March 2023, millions of fish were reported dead along the Darling River at Menindee, following a heatwave.<ref>Template:Cite news</ref> As the cleanup began, police attributed the cause to (naturally occurring) hypoxic blackwater.<ref>Template:Cite news</ref> Initial investigations by the New South Wales Environment Protection Authority (EPA) included single water samples at six sites and were criticised as inadequate.<ref>Template:Cite news</ref> Subsequently it was announced that the New South Wales government will treat the deaths as a "pollution incident", thus giving the EPA greater investigative powers; earlier testing was described as being primarily intended to ensure public safety.<ref>Template:Cite news</ref>

Introduced speciesEdit

Four varieties of carp were used to stock up fish dams. Since then they have made their way into the river systems, where they spread quite quickly. Human introduction, possibly by anglers using small carp illegally as live bait, has also increased their distribution.<ref name="giac">{{#invoke:citation/CS1|citation |CitationClass=web }}</ref> These fish are very mobile, breed rapidly and can survive in very shallow water and through long periods of very low dissolved oxygen content.

Carp are a problem because they feed by sucking gravel from the riverbed and taking all the edible material off it, before returning the rest to the water. This stirs up all the sediment, reducing the quality of the water. A project for developing daughterless carp shows promise for eliminating carp from the river system.

Cane toads have entered the upper reaches of the Darling Basin and there are several reports of individuals being found further down the system.<ref>Ayers, D., Mazzer, T.M. and Ellis, M.V. (2004). Herpetofauna of the Darling Basin. In: The Darling (Eds. R. Breckwoldt, R. Boden and J. Andrew) (Murray–Darling Basin Commission, Canberra).</ref> Cane toads compete with native amphibians and are toxic to native carnivores.

Phyla canescens has invaded wetlands and floodplains with heavy clay soils in the Murray–Darling Basin, to the detriment of the native vegetation; the plant does best in habitats that are inundated occasionally, although it cannot compete with the grass Paspalum distichum and the sedge Eleocharis plana in more heavily inundated sites.<ref name=MacDonald>{{#invoke:citation/CS1|citation |CitationClass=web }}</ref>

PhysiographyEdit

This area is one of the physiographic provinces of the larger East Australian Basins division, and encompasses the smaller Naracoorte Platform and Encounter Shelf physiographic sections.

Total water flow in the Murray–Darling Basin 1885 to the present has averaged around Template:Convert per year. This is the lowest rate of the world's major river systems.<ref name="awr">Template:Cite book</ref> About 6.0 percent of Australia's total rainwater falls into the Basin.<ref name="rivertourism">Template:Cite book</ref> In most years only half of this quantity reaches the sea and in dry years much less. Estimated total annual flows for the Basin have ranged from Template:Convert in 1902 to Template:Convert in 1956.Template:Citation needed Despite the magnitude of the Basin, the hydrology of the streams within it is quite varied.

These waters are divided into four types:<ref name="brown">Brown, J. A. H. (John Alexander Henstridge); Australia's Surface Water Resources. Template:ISBN</ref>

• The Darling and Lachlan basins. These have extremely variable flows from year to year, with the smallest annual flow being typically as little as 1 percent of the long-term mean and the largest often more than ten times the mean. Periods of zero flow in most rivers can extend to months and in the drier parts (Warrego, Paroo and Lower Darling Basins) to years.<ref name="brown"/> Flows in these rivers are not strongly seasonal. In the northern regions the majority of floods occur in the summer from monsoonal penetration. For most of the Darling and Lachlan catchments it is typical to see high or low flows begin in winter and extend to the following autumn (see El Niño). High water extraction rates for irrigation and mining have heavily compromised these rivers.
• The southwestern basins (Campaspe, Loddon, Avoca, Wimmera). These have a marked winter rainfall maximum and relatively lower precipitation variability than the Lachlan or Darling. However, the age and infertility of the soils mean that run-off ratios are exceedingly low (for comparison, around a tenth that of a European or North American catchment with a similar climate<ref>McMahon, T.A. and Finlayson, B.L.; Global Runoff: Continental Comparisons of Annual Flows and Peak Discharges; pp. 86–98 Template:ISBN.</ref>). Thus, variability of runoff is very high and most of the terminal lakes found in these basins very frequently dry up. Almost all runoff occurs in the winter and spring and, in the absence of large dams for regulation, these rivers are often seasonally dry during summer and autumn.
• A number of small catchments in South Australia, of which the largest are the Angas River flowing through Strathalbyn and the Finniss River further west, are part of the Murray–Darling Basin. These catchments lead to Lake Alexandrina, one of the lakes at the end of the Murray system. The Angas River is often dry in summer because of high levels of water extraction. The Finniss River has permanent flow into Lake Alexandrina but was cut off by a weir for several years of drought in the early 21st century.
• The Murray, Murrumbidgee and Goulburn (except the Broken River which resembles the southwestern basins) basins. Because these catchments have headwaters in alpine country with relatively young peaty soils, the runoff ratios are much higher than in other parts of the Basin. Consequently, although gross precipitation variability is no lower than in the Lachlan or Darling basins, runoff variability is markedly lower than in other parts of the Basin. Typically these rivers never cease to flow and the smallest annual flow is around 30 percent of the long-term mean and the largest around three times the mean. In most cases the flow peaks very strongly with the spring snow melt and troughs in mid-autumn.

The two principal rivers of the Basin, the Murray and Darling, bring water from the high ranges of the east and carry it west then south through long flat and dry inland areas,<ref>Weir, Jessica K. 2009. Murray River country: an ecological dialogue with traditional owners. Canberra: Aboriginal Studies Press.</ref> often resulting in alluvial channel wetlands, such as The (Great) Cumbung Swamp, at the terminus of the Lachlan and Murrumbidgee Rivers. Nevertheless, these waters are subject to major diversions for municipal drinking supplies and irrigated agriculture that began in the 1890s.<ref name=Wohl/> Currently, 4 major reservoirs, 14 lock and weir structures, and five coastal barrages interject the water flowing down the Murray–Darling.<ref name=Wohl/> Of the approximately Template:Convert of flow in the Basin, which studies have shown to be divertible, Template:Convert are removed for irrigation, industrial use, and domestic supply. Agricultural irrigation accounts for about 95 percent of the water removed,<ref name="awr"/> including for the growing of rice and cotton. This extraction is highly controversial among scientists in Australia, regarding the agriculture industry's high water use in a region extremely short of water (as much due to exceptionally low run-off coefficients as to low rainfall).<ref>Government, politics, power and policy in Australia / [editors] Dennis Woodward, Andrew Parkin, John Summers.</ref> These extensive irrigation systems require a reliable supply of water, not the unpredictable flows that characterise the Murray–Darling.<ref name=Wohl/> These structures and irrigation implements were ideal when there was a steady flow of water.<ref name=Richter>Template:Citation</ref> However, during "the Big Dry", as the early 2000s drought came to be known, Australian farmers experienced a scarcity unlike ever before. The drought was so severe that numerous rivers and streams such as the Murray–Darling stopped flowing.<ref name=Richter/> The Basin contains more than 30,000 wetlands.<ref name="iwm">Template:Cite journal</ref> Eleven of these are protected under the Ramsar Convention of Wetlands of International Importance.

Rivers in the Murray–Darling BasinEdit

• YarrawongaWeir.jpg

  Yarrawonga Weir on the Murray River forms Lake Mulwala, 2010

• MenindeeDarlingRiver.JPG

  Darling River at Menindee, 2009

• Warrego River.JPG

  Warrego River at Cunnamulla, 2010

• Collarenebri (2).JPG

  Barwon River at Collarenebri, 2008

• Lake Burrendong.jpg

  Lake Burrendong, formed at the confluence of the Macquarie River and Cudgegong River, 1995

• Macquarie River at Bathurst.jpg

  Macquarie River at Bathurst, 2009

• StGeorgeCottonIrrig.jpg

  Siphon irrigation of cotton on the Balonne River near St George, 2012

• Mitchell Maranoa River DSC03260.JPG

  Maranoa River at Mitchell, 2005

• StateLibQld 1 43711 Floodwaters rush under the MacIntyre River Bridge, Goondiwindi, 1921.jpg

  Macintyre River in flood at Goondiwindi, 1921

• Taemas Bridge, NSW, from north.jpg

  Taemas Bridge across the Murrumbidgee River, 2011

• BrindabellaValleyAndGoodradigbeeRiver.jpg

  Goodradigbee River in the valley below the Brindabella Ranges, 2005

• MolongloRiver1920.jpg

  Molonglo River at Acton in 1920, prior to the damming of the river to form Lake Burley Griffin.

• Kyalite Wakool River 002.JPG

  Wakool River, near Kyalite, 2012

• Charlton footbridge.JPG

  A footbridge of the Avoca River at Charlton, 2005

• MurchisonGoulburnRiver.JPG

  Goulburn River at Murchison, 2009

• PorepunkahOvensRiver.JPG

  Ovens River at Porepunkah, 2007

• Mitta Mitta in full flow through drought - 6543.jpg

  Mitta Mitta River, downstream from Dartmouth Dam, 2007

The rivers listed below comprise the Murray–Darling Basin and its direct significant tributaries, with elevations of their confluence with the downstream river. The tributary with the highest elevation is Swampy Plain River that rises in the Snowy Mountains, below Mount Kosciuszko at an elevation of Template:Convert, and ends merging with the Murray River, descending Template:Convert.

The ordering of the Basin, from downstream to upstream, is:

Murray–Darling Basin InitiativeEdit

BackgroundEdit

The Basin affects five states and territory governments, which according to the Constitution, are responsible for managing water resources. The River Murray Commission was established in 1917.<ref name="awr"/> Under the River Murray Waters Agreement, which did not include Queensland though about a quarter of the Basin lays in the state, the commission was an advisory body with no authority for enforcement of provisions. For a long time the commission was only concerned with water quantity until salinity became a problem.<ref>{{#invoke:citation/CS1|citation |CitationClass=web }}</ref> This led to minor reforms in 1982 in which water quality became part of the commission's responsibilities.<ref name="awr"/>

However, it was soon recognised that a new organisational structure which considered the national perspective was needed for effective management. The Murray–Darling Basin Agreement was first adopted in 1985 but it wasn't until 1993 that its full legal status was enacted.<ref name="awr"/> The Agreement led to the creation of a number of new organisations under what is known as the Murray–Darling Basin Initiative. These included the Murray–Darling Basin Ministerial Council and the Murray–Darling Basin Commission.

Murray–Darling Basin PlanEdit

The Murray–Darling Basin Authority (MDBA) was formed in 2008 to manage the Murray–Darling Basin in an integrated and sustainable manner. The MDBA is responsible for preparing and overseeing a legally-enforceable management plan. In October 2010, MDBA released a draft Murray–Darling Basin Plan (MDBP) for consultation.<ref name="Murry-Darling Basin Plan for October 2010">{{#invoke:citation/CS1|citation |CitationClass=web }}</ref> On 22 November 2012, Tony Burke signed the Murray–Darling Basin Plan, which passed the Australian Parliament's disallowance period on 19 March 2013.

Community consultationEdit

The MDBA's draft Murray–Darling Basin Plan, titled the Guide to the Proposed Murray–Darling Basin Plan, was released in October 2010 as the first part of a three-stage process to address the problems of the Murray–Darling Basin.<ref>Template:Cite news</ref> The Plan was in response to the 2000s Australian drought, and designed to secure the long-term ecological health of the Murray–Darling Basin. This entailed cutting existing water allocations and tree growth environmental flows.<ref name="cewa">Template:Cite news</ref> The Basin Plan was designed to set environmentally sustainable limits on the quantities of water that may be taken from Basin water resources, to set Basin-wide environmental, water quality and salinity objectives, to develop efficient water trading regimes across the Basin, to set requirements for state water resource plans and to improve water security for all Basin users.<ref name="smr">Template:Citation</ref> It also intends to minimise social and economic impacts whilst achieving the plan's environmental outcomes.<ref name="jsf">Template:Cite news</ref>

With the release of the Guide to the Proposed Murray–Darling Basin Plan there have been a number of protests and voiced concerns about the plan in rural towns that the MDBA visited to present the plan to consultation meetings.<ref>Template:Cite news</ref> More than 5,000 people attended a MDBA meeting in Griffith where Griffith Mayor, Mike Neville, said the plan would "obliterate" Murrumbidgee valley communities.<ref name="GriffithMeeting">Template:Cite news</ref> Other groups also echo this feeling, such as the Victorian Farmers Federation<ref>VFF Declares War!: Stop the MDBA plundering Template:Webarchive.</ref> and Wine Group Growers' Australia.<ref>Federal Government urged "not to forget people" in Basin Plan Template:Webarchive. Media Release. 13 October 2010.</ref> Conversely, support for the Murray–Darling Basin plan has been received by various groups, including Australian Conservation Foundation,<ref>Cautious support from scientists for the emerging Murray‐Darling Basin PlanTemplate:Dead link.</ref> and Environment Victoria.<ref>Template:Citation</ref>

New legal advice from Commonwealth government lawyers is changing the plan. The Government's interpretation is that the plan must give equal weight to the environmental, social, and economic impacts of proposed cuts to irrigation.

Environmentalists and South Australian irrigators, at the end of the river in South Australia, say that the authority should stick to its original figure.<ref>Template:Cite news</ref>

In October 2010, a parliamentary inquiry into the economic impacts of the plan was announced.<ref>Template:Cite news</ref>

In late October 2010 the Water Minister, Tony Burke, played down the prospect of a High Court challenge to the Murray–Darling Basin plan, as confusion continued over new legal advice released by the Government. In response to community concerns that MDBA had put environmental issues first over social and economic needs, Burke released new advice on the requirements of the Water Act. Burke stated that the Act does allow for the authority to "optimise" the needs of all three areas, but constitutional lawyer, George Williams, had cast doubts over the interpretation of the laws, stating it could be subject to a legal challenge.<ref>Template:Cite news</ref>

The MDBA announced in November 2010 that it might be forced to push back the release of its final plan for the river system until early 2012.<ref>Template:Cite news</ref>

The then MDBA chairman, Mike Taylor, reassured the public meeting that more work is being done to look at how the proposed cuts would affect regional communities. He stated: "Importantly, we want to make sure the social and economic impacts—which under any sort of scenario is very significant—were fully teased out".<ref>Template:Cite news</ref> Taylor resigned as he allegedly believed that the overriding principle should be the environmental outcome which was in conflict with the Gillard Government and following a period of sustained criticism of the Authority and the implementation of the proposed draft Basin plan.<ref name="ABC-resign">Template:Cite news</ref> He was replaced by former New South Wales Planning Minister, Craig Knowles.<ref>Template:Cite news</ref><ref>Template:Cite news</ref><ref>Template:Cite news</ref>

In late May 2012, the revised plan was forwarded to state water ministers.<ref name="mdpdts">Template:Cite news</ref> It did not alter the recommendation to cut Template:Convert of water entitlements.

Following much negotiation between the Commonwealth and State governments and numerous submissions from interested stakeholders and the community, the Basin Plan became law in November 2012 and can now be implemented.

See alsoEdit

Template:Portal

• Climate change in Australia
• Drought in Australia
• Murray–Darling Cap
• List of drainage basins of Australia
• List of Darling River distances
• List of Murray River crossings
• List of Murray River distances
• List of Murrumbidgee River distances
• Murray Basin, the geological sedimentary basin

ReferencesEdit

Template:Reflist

External linksEdit

• Murray–Darling Basin Authority
• Murray–Darling Basin Water Budget Project
• Murray Darling Freshwater Research Centre
• River Murray Water Restrictions
• Murray Outback - Guide to the major towns on the Murray and Murray Outback Region.
• Save the Murray - lobby group
• Murray Darling Basin Resources
• The Basin Plan
• Guide to the Proposed Basin Plan
• Guide to the Basin Plan, Volumes 1 - 21
• Basin Plan - lobby group

News

• Template:Citation

Template:Rivers of the Murray–Darling basin Template:Drainage basins of Australia Template:Authority control