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National Water Account 2015

Burdekin: Physical information

Spillway at the Burdekin Falls Dam, North Queensland © CSIRO

General description

Area: 133,600 km2
Population: 26,000 (Australian Bureau of Statistics [ABS] 2011)

The Burdekin region lies within the northeast coast drainage division and is located in the drier part of the Queensland tropics, as shown in Figure C1.

 

Figure C1 The Burdekin region within Australia

Figure C1 The Burdekin region within Australia

 

The boundary of the region is physically defined by two surface water catchments: Burdekin River and the Haughton River (Figure C2).

The Burdekin region's landscape varies from the wet tropical rainforests of Eungella and the Paluma Range in the north to the drier areas of the upper catchments of the Belyando and Cape rivers (in the south and west) and the plains of the lower Burdekin River in the east. The main vegetation types in the region are eucalypt-dominated savannah woodlands and grasslands, interspersed with acacia forests and vine thickets. The wetter uplands support rainforest and wet sclerophyll (tall eucalypts with soft leaf undergrowth) formations.

Major water systems in the region include the Burdekin, Bowen-Broken, Cape and Suttor–Belyando rivers, and Lake Dalrymple, created by the Burdekin Falls Dam. The Burdekin River is one of Australia's largest rivers by discharge volume and is generally the biggest single source of sediment and fresh water to the Great Barrier Reef lagoon.

Key groundwater stores in the region include the Burdekin River lower delta aquifers.

 

Figure C2 Contextual map of the Burdekin region

Figure C2 Contextual map of the Burdekin region

 

Region definition

The Burdekin region is physically defined by the Burdekin River and the Haughton River catchments (Figure C2) and represents the water resource plan area of the Burdekin basin, as established by the Queensland Department of Natural Resources and Mines (DNRM).

For the purposes of this report, the region includes water stored in:

  • surface water storages
  • groundwater aquifers
  • the Giru Benefited Area; and
  • pipes and infrastructure as part of the town water supply, wastewater collection, and irrigation water supply systems.

The region excludes water stored in:

  • off-channel water storages, such as farm dams and private commercial water storages used to harvest runoff or collect rainwater, although water from overland flow is regulated in the catchment; and
  • the landscape, such as soil moisture.

For more information regarding items in this water accounting report, please refer to the Water accounting policies.

 

Land use

The Burdekin region contains several small urban centres, including:

  • Ayr: population 8,800
  • Charters Towers: population 8,500
  • Home Hill: population 3,200 (ABS 2011).

Other urban centres in the region include Collinsville and Glenden. Urban areas make up less than 0.3% of the region.

The major land uses in the Burdekin region include:

  • pastoral grazing
  • conservation and natural environments.

These two land use categories make up approximately 90% and 5% of the region, respectively. In addition, irrigated agriculture is concentrated around the Ayr area. The relative area and location of major land use in the Burdekin region is shown in Figure C3 (Australian Bureau of Agricultural and Resource Economics and Sciences 2014).

 

Figure C3 Land use in the Burdekin region

Figure C3 Land use in the Burdekin region

 

Most irrigated agriculture is sugarcane farming and horticulture products, which occurs primarily in the Burdekin River delta around Ayr (Figure C3). The irrigated land makes up approximately 1% of the region.

Mining is also an important industry in the region and makes up approximately 0.1% of the land use area in the region.

 

Significant aquatic ecosystems

The Burdekin region includes the Bowling Green Bay National Park, which is a Ramsar-listed wetland of international importance. It contains examples of rich coastal habitats that are typical of northeast Australia's coastal wet-dry tropics. It is home to abundant and varied birdlife, including migratory birds. A protected area management plan is applied for this area.

 

Figure C4 Significant wetlands within the Burdekin region

Figure C4 Significant wetlands within the Burdekin region

 

The Burdekin region also includes 28 nationally important wetlands that are listed in the Directory of Important Wetlands in Australia (Figure C4). Further information on these sites can be found on the Queensland Government WetlandInfo website. These wetlands cover an area of more than 4,400 km² and are predominately riverine systems (69%). The remaining systems are lakes (lacustrine) and inland marsh (palustrine) environments (14%), artificial and highly modified (9.5%), and estuarine (7.5%) (WetlandInfo).

 

Water resources

Surface water is the primary water source in the Burdekin region. There are two primary surface water resources in the Burdekin region:

  • Lake Dalrymple (Burdekin Falls Dam)
  • Lake Eungella.

These surface water resources support the main water users in the region, including irrigation for sugarcane and horticulture, mining, and urban supply. The above two major storages operate in conjunction with smaller storages and weirs downstream of the lakes that are used to divert water to customers via distribution channels and pipelines.

The groundwater resources of the lower Burdekin aquifers are regionally significant and support the irrigation of sugarcane and horticulture as well as domestic and urban supply.

 

Surface water

Storages

Surface water storages within the Burdekin region are shown in Figure C5;

Figure C5 Surface water storages within the Burdekin region
Figure C5 Surface water storages within the Burdekin region

 

Lake Dalrymple, formed by Burdekin River Dam, is one of the largest storages in Queensland. The storage operates in conjunction with the other smaller storages and weirs of the Burdekin Haughton Water Supply Scheme. The scheme primarily provides water to irrigators within the lower Burdekin region.

Lake Eungella, Bowen River Weir, and Gattonvale offstream storage make up the water stores for the Bowen Broken Water Supply Scheme. The scheme primarily provides water for urban water supply to towns, including Collinsvale and Glenden, and for industrial use, including mining and the Collinsvale Power Station. Some water is also diverted to irrigation farms downstream of Bowen River Weir.

Water stored in the Paluma Dam can be diverted outside of the region to the headwaters of Crystal Creek to supplement Townsville's urban water supply if required.

 

Rivers

Seasonal flow characteristics of rivers within the Burdekin region reflect the region's annual rainfall pattern. Most of the rainfall occurs during the wet season between November and March. Consequently, most of the streamflow within the region occurs between December and April (Figure C6). The location of four gauging stations used to represent the general seasonal flow patterns of the Burdekin region in Figure C6 are shown in Figure C7.

Upstream of Lake Dalrymple (e.g., Cape and Suttor rivers), flows in the streams are very low or cease to flow during the dry season between April and October. The flows below Lake Dalrymple (Burdekin River) and Lake Eungella (Bowen River) are regulated by releases from the dams for water supply during the dry season. Consequently, flows in these lower river reaches are generally perennial. The gauging stations used to represent the general seasonal flow patterns of these rivers is shown in Figure C7. The stations are located at Bowen River at Myuna (Station 120205A), Burdekin River at Sellheim (Station 120002C), Cape River at Taemas (Station 120302B), and Suttor River at St Anns (Station 120303A).

 

Figure C6 Mean monthly flows along the Bowen, Burdekin, Cape and Suttor rivers and mean monthly rainfall for the Burdekin region

Figure C6 Mean monthly flows along the Bowen, Burdekin, Cape and Suttor rivers and mean monthly rainfall for the Burdekin region

 

Figure C7  Key flow gauging stations along the main rivers within the Burdekin region

Figure C7  Key flow gauging stations along the main rivers within the Burdekin region

 

Groundwater

Groundwater resources in the region are currently regulated in three subartesian areas (Figure C8):

  • Greater Western (in the western section of the Cape–Campaspe and the Suttor–Belyando subcatchment)
  • Highlands (Suttor–Belyando area); and
  • Burdekin, also known as the Burdekin groundwater management area (GMA), which comprises 13 subareas associated with the Burdekin Haughton Water Supply Scheme.

The Water Resource (Great Artesian Basin) Plan 2006 and the Great Artesian Basin Resource Operations Plan 2006 also apply to the western sections of the Cape–Campaspe and the Suttor–Belyando subcatchments. These components, however, do not feature as part of this account as the Great Artesian Basin falls under its own management arrangement and is specifically excluded from the Burdekin region.

 

Figure C8 Groundwater management areas in the Burdekin region

Figure C8 Groundwater management areas in the Burdekin region
 

The groundwater system within the Burdekin River delta is generally considered to be unconfined due to the presence of sandy to loamy soils and the discontinuous extent of underlying clay layers. Recharge to the aquifer occurs via a range of mechanisms, including rainfall infiltration, channel seepage, percolation through artificial recharge facilities, overbank flood flows, and irrigation return flows.

Groundwater is extracted from the Burdekin Haughton Water Supply Scheme (Zone A), Burdekin GMA and the Lower Burdekin region and is used primarily for agriculture (predominantly sugarcane production), domestic water supply, town water supply, and industrial purposes.

Lower Burdekin Water manages the groundwater system in the Lower Burdekin region. The Burdekin River is used to replenish the coastal aquifer via artificial pits. Groundwater replenishment in the region is used to manage seawater intrusion and improve the quality of water supplied for agriculture, domestic, and industrial purposes. This coastal aquifer replenishment scheme is considered to be one of the largest in Australia.

Please refer to Lower Burdekin Water website for more information.

 

Other water resources and systems

Burdekin River Irrigation Area

The Burdekin River Irrigation Area comprises an open channel network that is used to distribute water for irrigated agriculture. The irrigation area is located around the lower reaches of the Burdekin and Haughton rivers (Figure C9).

 

Figure C9 Irrigation area in the Burdekin region

Figure C9 Irrigation area in the Burdekin region

 

Irrigation water is diverted from the Burdekin River via pumping stations located in the Clare Weir area. The pump stations divert water into three main distribution channels on each side of the Burdekin River. On one side of the river, water is diverted to the Haughton and Barratta main channels, which provide water to customers between the Burdekin and Haughton rivers; on the other side of the river, water is diverted into the Elliot main channel, which provides water to the Leichhardt Downs area.

 

Water supply schemes

There are two water supply schemes in the Burdekin region (Figure C10):

  • Burdekin Haughton
  • Bowen Broken.

 

Figure C10 Water supply schemes in the Burdekin region

Figure C10 Water supply schemes in the Burdekin region

 

These schemes are managed and operated by SunWater and provide surface water to irrigators within the Burdekin River Irrigation Area (Figure C9), for town water supply (e.g., Collinsvale and Glenden) and for industrial use (including mining).

Both schemes comprise a series of storages and weirs (see Figure C5 in 'Surface water'), and pipelines that are used to divert and distribute surface water to users. Refer to the SunWater website for more information on the water supply schemes within the Burdekin region.