References

Abrams D, Haitjema H, Feinstein D and Hunt R (2015) Field test of a hybrid finite-difference and analytic element regional model groundwater. Ground Water 54(1), 66–73. DOI: 10.1111/gwat.12319 (online early view).

Barnett B, Townley L, Post V, Evans R, Hunt R, Peeters L, Richardson S, Werner A, Knapton A and Boronkay A (2012) Australian groundwater modelling guidelines. Waterlines Report No. 82. National Water Commission, Canberra. Viewed 26 March 2016, http://nwc.gov.au/__data/assets/pdf_file/0016/22840/Waterlines-82-Australian-groundwater-modelling-guidelines.pdf.

Beaumont MA, Zhang W and Balding DJ (2002) Approximate Bayesian computation in population genetics. Genetics 162, 2025–2035.

Crosbie R, Peeters L and Carey H (2016) Groundwater modelling. Submethodology M07 from the Bioregional Assessment Technical Programme. Department of the Environment and Energy, Bureau of Meteorology, CSIRO and Geoscience Australia, Australia.​ http://data.bioregionalassessments.gov.au/submethodology/M07.

Cui T, Peeters L, Rassam D, Raiber M, Crosbie R, Gilfedder M, Pickett T, Hartcher M, Marvanek S and Bruce C (2016) Groundwater numerical modelling for the Clarence-Moreton bioregion. Product 2.6.2 from the Clarence-Moreton Bioregional Assessment. Department of the Environment and Energy, Bureau of Meteorology, CSIRO and Geoscience Australia, Australia.​​ http://data.bioregionalassessments.gov.au/product/CLM/CLM/2.6.2.

Frery E, Rohead-O’Brien H, Wilkes PG, McVicar TR, Van Niel TG, Li LT, Barron OV, Rachakonda PK, Zhang YQ, Dawes WR, Marvanek SP, Buettikofer H and Gresham MP (2018) Observations analysis, statistical analysis and interpolation for the Gloucester subregion. Product 2.1-2.2 for the Gloucester subregion from the Northern Sydney Basin Bioregional Assessment. Department of the Environment and Energy, Bureau of Meteorology, CSIRO and Geoscience Australia, Australia. http://data.bioregionalassessments.gov.au/product/NSB/GLO/2.1-2.2.

Herckenrath D, Doherty J and Panday S (2015) Incorporating the effect of gas in modelling the impact of CBM extraction on regional groundwater systems. Journal of Hydrology 523, 587–601.

Herron NF, Crosbie RS, Viney NR, Peeters LJM and Zhang YQ (2018) Water balance assessment for the Gloucester subregion. Product 2.5 for the Gloucester subregion from the Northern Sydney Basin Bioregional Assessment. Department of the Environment and Energy, Bureau of Meteorology, CSIRO and Geoscience Australia, Australia. http://data.bioregionalassessments.gov.au/product/NSB/GLO/2.5.

Hunt RJ (2006) Ground water modeling applications using the analytic element method. Ground Water 44, 5–14.

McVicar T, Langhi L, Barron OV, Rachakonda PK, Zhang YQ, Dawes WR, Macfarlane C, Holland KL, Wilkes PG, Raisbeck-Brown N, Marvanek SP, Li LT and Van Niel TG (2014) Context statement for the Gloucester subregion. Product 1.1 from the Northern Sydney Basin Bioregional Assessment. Department of the Environment, Bureau of Meteorology, CSIRO and Geoscience Australia, Australia. Viewed 24 June 2015, http://data.bioregionalassessments.gov.au/product/NSB/GLO/1.1.

Panday S, Langevin CD, Niswonger RG, Ibaraki M and Hughes JD (2015) MODFLOW-USG version 1.3.00: an unstructured grid version of MODFLOW for simulating groundwater flow and tightly coupled processes using a control volume finite-difference formulation. U.S. Geological Survey Software Release, 01 December 2015. Viewed 18 April 2016, http://dx.doi.org/10.5066/F7R20ZFJ.

Parsons Brinckerhoff (2015) Updated conceptual hydrogeological model of the Gloucester Basin Technical report by Parsons Brinckerhoff Australia Pty Limited for AGL Upstream Investments Pty Ltd. Parsons Brinckerhoff Australia Pty Limited, Sydney. Viewed 31 March 2016, https://www.agl.com.au/-/media/AGL/About-AGL/Documents/How-We-Source-Energy/Gloucester-Document-Repository/Water-Reports/20151117_Updated-Conceptual-Hydrogeological-Model-of-the-Gloucester-Basin.pdf.

Peeters L, Pagendam D, Gao L, Hosack G, Jiang W and Henderson B (2016) Propagating uncertainty through models. Submethodology M09 from the Bioregional Assessment Technical Programme. Department of the Environment and Energy, Bureau of Meteorology, CSIRO and Geoscience Australia, Australia. http://data.bioregionalassessments.gov.au/submethodology/M09.

Rassam D, Walker G and Knight J (2004) Applicability of the Unit Response Equation to assess salinity impacts of irrigation development in the Mallee Region. CSIRO Land and Water Technical Report No. 35.04.

Reilly TE, Franke OL and Bennet GD (1987) The principle of superposition and its application in groundwater hydraulics. In: Techniques of water-resources investigations of the U.S. Geological Survey, Book 3: Applications of hydraulics, Section B: Ground-water techniques, Chapter B6. http://pubs.usgs.gov/twri/twri3-b6/html/pdf.html.

Tomkins KM (2014) Uncertainty in streamflow rating curves: methods, controls and consequences. Hydrological Processes 28, 464–481.

Viney N (2016) Surface water modelling. Submethodology M06 from the Bioregional Assessment Technical Programme. Department of the Environment and Energy, Bureau of Meteorology, CSIRO and Geoscience Australia, Australia. http://data.bioregionalassessments.gov.au/submethodology/M06.

Vrugt JA and Sadegh M (2013) Toward diagnostic model calibration and evaluation: approximate Bayesian computation. Water Resources Research 49, 4335–4345.

Last updated:
5 November 2018
Thumbnail of the Gloucester subregion

Product Finalisation date

2018
PRODUCT CONTENTS