Preliminary soil and groundwater assessment of the Mantinea Development area, East Kimberley, Western Australia

In 2008, the Ord Stage 2 or ‘Ord East Kimberley Expansion Project’ was initiated by the Western Australian Government. The goal of the project was to advance development in the East Kimberley and to bring to market the Weaber Plain (Goomig Farmlands) and Knox Plain. In addition to the existing Ord River Irrigation Area (ORIA) Stage 1 (14 000ha), current Goomig and proposed Knox Plain areas (14 300ha), an estimated 50 000ha of land has potential for irrigation in the region. One of the areas proposed for future development is the Mantinea Development area. It is located on the south bank of the Ord River, 30km from Kununurra. It is north-west of the existing ORIA, which is located on the Ivanhoe and Packsaddle plains, and south-west of the most recent Stage 2 Goomig Farmlands, released in 2012. For the Mantinea Development, the state government is seeking a proponent from the private sector to manage the development process and operate the new farmlands created. The potential development area covers about 9500ha, 430ha of which has been set aside in the Mantinea conservation excision. To support the development process, DAFWA has reviewed relevant soil and water data and undertaken a preliminary assessment of that information. The Mantinea Flat – Carlton Plain area was identified as potentially suitable for irrigated agriculture by the Department of Agriculture and CSIRO as early as 1944, following soil surveys of about 12 000ha in the area. Preliminary soil survey results show that the soils of the proposed development area comprise a mixture of modern alluvial sediments, from fine cracking clays (1500ha, 17%) to sands and loams (6600ha, 73%), and stony soils (800ha, 10%). From this limited data, 4796ha (53%) of the proposed development area has a potentially high capability for irrigated agriculture, 2876ha (32%) is potentially capable but requires further investigation, and 1395ha (15%) of the area has a low capability. Areas assessed as having low capability for irrigated agriculture predominantly have salinity risk, poor drainage, shallow basement or unsuitable soil types

Identifying groundwater - dependent wetlands of the Broome Sandstone aquifer in the La Grange groundwater area

This report identifies wetlands that are likely to be dependent on the Broome Sandstone aquifer within the La Grange groundwater allocation area. The Broome Sandstone aquifer is the dominant groundwater resource in the area. With potential agricultural growth of this area, it is necessary to understand, monitor and manage the aquifer and its dependent wetlands. This report describes how we created a watertable surface that was used to identify wetlands and to determine which of the previously mapped wetlands are likely to be sourced from the Broome Sandstone aquifer. A watertable surface was created from 148 points taken from bore data. The accuracy of this watertable surface was validated with drilling data. The results of the drilling show a strong correlation with the modelled surface, which in turn was able to identify 43 groundwater-dependent wetlands (some of which were previously unmapped) and validate 85 previously mapped wetlands as also being groundwater-dependent

Groundwater chemistry of the Weaber Plain: preliminary results

In 2008, the Ord Irrigation Expansion Project was approved by the Western Australian Government to develop irrigated agriculture on the Weaber Plain. Construction of the M2 supply channel connecting the ORIA and the Weaber Plain, and the final period of irrigation design, environmental management and related approval processes, commenced later in 2009. This process followed a protracted period of public and private industry planning and environmental assessment (Kinhill 2000). This report summarises an analysis of groundwater salinity trends on the Ivanhoe and Weaber plains and the preliminary results of an intensive water-quality sampling program carried out in 2010 as part of Phase 1 of the project. The purpose of this report is to provide interim results to inform groundwater management plans required as part of the approval process for the development of the Weaber Plain

Weaber Plain aquifer test results

As a part of the environmental planning and approvals process, the state government was required to prepare Groundwater Management and Hydrodynamic Plans. These plans are to address potential issues of salinity and water quality that could result from the development of irrigated agriculture on the Weaber Plain. The Weaber Plain groundwater modelling report (KBR 2010a) identified several options to manage watertables and salinity Production bores 10WP35PB and 10WP36PB were drilled in the palaeochannel on sites selected from the interpretation of airborne geophysics

Cockatoo Sands in the Victoria Highway and Carlton Hill areas, East Kimberley: hydrogeology, aquifer properties and groundwater chemistry

Cockatoo Sands are recognised as potentially suitable for irrigated agriculture because they are generally well drained and not subject to waterlogging or inundation. These characteristics allow them to be cultivated and prepared for planting various crops during the wet and dry seasons of northern Australia. Expanding agricultural production onto the Cockatoo Sands around Kununurra will increase opportunities for agriculture by increasing the overall scale of agriculture, allowing year-round agricultural enterprise, new crops and new market opportunities. DAFWA has assessed the soil characteristics and agriculturally suitable areas of Cockatoo Sands in the Victoria Highway and Carlton Hill areas near Kununurra. Potential development areas (PDAs) comprising 6538 hectares (ha) at Victoria Highway and 2571ha at Carlton Hill were identified. DAFWA has also assessed the baseline surface water characteristics of run-off from catchments that contain the PDAs. This report describes the methodology, data and analyses used to derive the baseline hydrogeological conditions and physicochemical groundwater conditions that underlie the Victoria Highway and Carlton Hill PDAs

The application of AEM to mapping the aquifer and groundwater characteristics of the La Grange groundwater area, WA

This report describes the interpretation of a large airborne electromagnetic data survey that was designed to aid characterisation of groundwater systems in the La Grange groundwater allocation area which lies south of Broome, Western Australia. Characterisation of these systems is critical to developing policy around water use in the region, especially for the development of agriculture. This report is the second of two reports and it is designed to refine surfaces which are used as inputs to groundwater models. The volume defined by these surfaces viz. the seawater intrusion in the west, the top of the Jarlemai siltstone and the top of the Broome sandstone describes the portion of the Broome sandstone aquifer that is able to store water that can be used for human purposes, agriculture and mining. With the identification of palaeochannels in the La Grange groundwater allocation area and an improved analysis of geological structure from AEM results, most objectives of the survey have been realised. Palaeochannels were identified in the north of the La Grange groundwater allocation area, around La Grange Bay, and also in the south. Also in the south, faults were identified. It is hypothesised that these faults permit groundwater movement between the Broome sandstone, which is the important aquifer in the La Grange groundwater allocation area, and the Wallal sandstone which is the important aquifer south of the allocation area. Objectives relating to delineation of freshwater zones, and of water quality were not addressed. Although the top of the seawater intrusion was mapped, as was the top of the Broome sandstone near the coast, because freshwater and the sandstone matrix have similar electrical resistivities, it is difficult to map freshwater specifically

Weaber Plain hydrogeology: preliminary results

In 2008, the Ord Irrigation Expansion Project was approved by the Western Australian Government to develop irrigated agriculture on the Weaber Plain. Construction of the M2 supply channel connecting the ORIA and Weaber Plain, and the final period of irrigation design, environmental management and related approval processes commenced later in 2009. This process followed a protracted period of public and private industry planning and environmental assessment (Kinhill 2000). As a part of the environmental planning and approvals process, the WA Government was required to prepare a groundwater management plan and a hydrodynamic plan. These plans were to address potential issues of salinity and water quality that may result from developing the proposed farmlands

Groundwater investigations to support irrigated agriculture at La Grange, Western Australia: 2013–18 results

The Broome Sandstone aquifer is the main aquifer and groundwater resource in the La Grange area, near Broome in the West Kimberley, Western Australia. Land use is dominated by cattle grazing on pastoral stations, dispersed mining and tourism. Irrigated agriculture has developed at a small scale, with about 470 hectares under cultivation in 2014. Groundwater abstraction is licensed under the La Grange groundwater allocation plan (Department of Water 2010) and managed by the Department of Water and Environmental Regulation. The La Grange groundwater allocation area is split into the La Grange North subarea and La Grange South subarea, with groundwater allocation limits of 35 gigalitres per year (GL/y) and 15GL/y, respectively. The volume of water licensed, committed and requested as of October 2016 was 13.15GL/y. The Department of Agriculture and Food, Western Australia (DAFWA), now part of DPIRD, conducted the four-year La Grange project to help determine the level of irrigated agriculture the aquifer can sustain. This report describes the methods, data analyses and outcomes of a project designed to give a better understanding of the hydrogeological processes of the Broome Sandstone aquifer at La Grange, the interactions between all of its users, and its environmental and cultural assets. As part of the project, DPIRD coordinated development of a bore monitoring network and developed a water balance model to run irrigation scenarios

Reviews

The following publications have been reviewed by the mentioned authors;Design Assignments for GCSE and Standard Grade by Jeff Nocholls, reviewed by Bob BoothDesign and Communication for Foundation Courses by Peter Gowers, reviewed by Peter ToftThe Celtic Art Source Book by Courtney Davis, reviewed by Rosemary BoothThe World of Plastics by the British Plastics Federation, reviewed by George RaperIllumination: A Source Book for Modern Calligraphers by Christopher Jarman, reviewed by John LancasterCraft, Design and Technology. Materials: Investigation and Choice. A database for pupil use by David Barles, Simon Powell, Sheila Nelmes and Adrienne Jones, reviewed by David BarlexDesign in Context by Penny Sparke, reviewed by John H. CarswellDesignwise 2 by N. McLean, reviewed by H. G. DentonAirbrushing the Human Form by Andy Charlesworth, reviewed by S. W. GarnerDouglas Scott by Johnathan Glancey, reviewed by K. J. McAule