South-East Regional Water Balance Phase 1

Project Partners: CSIRO and Flinders University

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Status:

Project Overview

A lack of understanding of the regional water balance is still a fundamental knowledge gap limiting the water allocation planning process for the Lower Limestone Coast Prescribed Wells Area (LLC PWA). A regional scale three-dimensional numerical groundwater flow model of the Lower South East region of

South Australia, and in particular of the LLC PWA, is required to:

  • Help quantify regional water balance components as well as inter-relationships between regional recharge, flows between the unconfined Tertiary Limestone Aquifer (TLA) and the Tertiary Confined Sands Aquifer (TCSA), groundwater storage, and groundwater discharge.
  • Address questions relating to specific components of the regional water balance that arise through the water allocation planning process.
  • Contribute to a consistent framework for the future development of local-scale numerical groundwater flow models which may be designed to address local-scale issues and thereby further support water resources planning in the Lower South East region.
  • Guide future technical work in the Lower South East region by refining the understanding of critical processes influencing water movement and availability, and by identifying locations where such processes are most significant.

Phase 1 of the South East Regional Water Balance project is the first component of a longer-term research program to develop a regional water balance model for the LLC PWA. It has involved:              

  1. Development of a regional water balance framework;
  2. A preliminary assessment of the spatial variability and indicative fluxes of groundwater discharge to the marine environment;
  3. Assessment of the role of geological faults on regional groundwater flow and inter-aquifer leakage.

Progress Update and Key Findings

  1. The framework was developed for a regional groundwater model that will support water resources management for the Lower Limestone Coast PWA. This model will cover the entire Gambier Basin and part of the western Murray Basin, including part of western Victoria as it is designed to be governed by natural flow boundaries. The framework includes the model design, boundary conditions and strategies for implementing difficult parts of the conceptual model, including the man-made drainage system and coastal boundary. The framework also includes the datasets required to support the model development. In many cases this was the first time such information has been collated for the whole regional flow system.
  2. An improved stratigraphic model was developed covering the whole model domain. 
  3. A comprehensive study of recharge and an analysis of all available recharge data was carried out for the whole model domain. Recharge was estimated using three different methods for the entire region, providing valuable insight into spatial and temporal patterns of recharge and evapotranspiration. In particular, valuable insight was gained into the ability of forest plantations to access groundwater at different depths depending on soil type. An outline for the recharge component of the regional groundwater model was developed.
  4. A method was developed to build a profile of historical land use back to the mid-late 1800s for calibration of historical recharge models, using a combination of satellite imagery and historical Agricultural Census data.
  5. Radon, temperature and salinity were identified as the best environmental tracers to locate and quantify submarine groundwater discharge along the LLCPWA Coast.
  6. Preliminary horizontal groundwater flow rates were estimated across regional faults using environmental tracers.

Project Impacts

The key outcome of this project was that the basis to build the regional groundwater model for the South East region of South Australia was established.

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