Anderson VG (1945) Some effects of atmospheric evaporation and transpiration on the composition of natural water in Australia (continued). 4. Underground waters in riverless areas. Journal and Proceedings of the Australian Chemical Institute 12, 83–98.
Cloutier V, Lefebvre R, Therrien R and Savard MM (2008) Multivariate statistical analysis of geochemical data as indicative of the hydrogeochemical evolution of groundwater in a sedimentary rock aquifer system. Journal of Hydrology 353, 294–313.
Crosbie R, Pickett T, Mpelasoka F, Hodgson G, Charles S and Barron O (2013) An assessment of the climate change impacts on groundwater recharge at a continental scale using a probabilistic approach with an ensemble of GCMs. Climatic Change 117, 41–53.
Crosbie RS, Jolly ID, Leaney FW and Petheram C (2010) Can the dataset of field based recharge estimates in Australia be used to predict recharge in data-poor areas? Hydrology and Earth System Sciences 14(10), 2023–2038.
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.
Daughney CJ and Reeves RR (2006) Analysis of temporal trends in New Zealand’s groundwater quality based on data from the National Groundwater Monitoring Programme. Journal of Hydrology (New Zealand) 45 (1), 41–62.
Daughney CJ, Raiber M, Moreau-Fournier M, Morgenstern U and van der Raaij R (2011) Use of hierarchical cluster analysis to assess the representativeness of a baseline groundwater quality monitoring network: Comparison of New Zealand’s national and regional groundwater monitoring programs. Hydrogeology Journal, online first, DOI: 10.1007/s10040-011-0786-2.
Freeze RA and Cherry JA (1979) Groundwater. Prentice-Hall, New Jersey, USA.
Guggenmos MR, Daughney CJ, Jackson BM and Morgenstern U (2011) Regional-scale identification of groundwater–surface water interaction using hydrochemistry and multivariate statistical methods, Wairarapa Valley, New Zealand. Hydrology and Earth System Sciences 15(11), 3383–3398.
Güler C, Thyne D, McCray JE, Turner AK (2002) Evaluation of graphical and multivariate statistical methods for classification of water chemistry data. Hydrogeology Journal 10(4), 455–474.
Helsel DR and Hirsch RM (2002) Statistical methods in water resources. Techniques of Water-Resources Investigations of the United States Geological Survey. Book 4, Hydrologic Analysis and Interpretation.
King AC, Raiber M and Cox ME (2014) Multivariate statistical analyses of hydrochemical data to assess aquifer-aquitard connectivity during drought and flood: Cressbrook Creek, southeast Queensland, Australia. Hydrogeology Journal 22, 481–500.
Leaney F, Crosbie R, O’Grady A, Jolly I, Gow L, Davies P, Wilford J and Kilgour P (2011) Recharge and discharge estimation in data poor areas: scientific reference guide. CSIRO: Water for a Healthy Country National Research Flagship.
Mann HB (1945) Nonparametric tests against trend. Econometrica 13(3), 245–259.
McJannet D, Raiber M, Gilfedder M, Cui T., Marvanek S and Rassam, D (2015). Current water accounts and water quality for the Clarence-Moreton bioregion. Product 1.5 from the Clarence-Moreton Bioregional Assessment. Department of the Environment, Bureau of Meteorology, CSIRO and Geoscience Australia, Australia. Viewed 5 August 2015, http://data.bioregionalassessments/product/CLM/CLM/1.5.
Menció A and Mas-Pla J (2008) Assessment by multivariate analysis of groundwater-surface water interactions in urbanized Mediterranean streams. Journal of Hydrology 352, 355–366.
Metgasco (2007) Casino gas project – hydrogeological assessment, M09388A01.500, Metgasco Ltd, North Sydney.
O’Shea B and Jankowski J (2006) Detecting subtle hydrochemical anomalies with multivariate statistics: an example from ‘homogeneuos’ groundwaters in the Great Artesian Basin, Australia. Hydrological Processes 20, 4317–4333.
Raiber M, White, PA, Daughney, CJ, Tschritter C, Davidson P and Bainbridge SE (2012) Three-dimensional geological modelling and multivariate statistical analysis of water chemistry data to analyse and visualise aquifer structure and groundwater composition in the Wairau Plain, Marlborough District, New Zealand. Journal of Hydrology 436–437, 13–34.
Raiber M, Murray J, Bruce C, Rassam D, Ebner B, Henderson B, O’Grady T, Gilfedder M, Cui T, Crosbie, R and Hartcher M (2016) Conceptual modelling for the Clarence-Moreton bioregion. Product 2.3 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/2.3.
Rassam D, Raiber M, McJannet D, Janardhanan S, Murray J, Gilfedder M, Cui T, Matveev V, Doody T, Hodgen M and Ahmad ME (2014) Context statement for the Clarence-Moreton bioregion. Product 1.1 from the Clarence-Moreton Bioregional Assessment. Department of the Environment, Bureau of Meteorology, CSIRO and Geoscience Australia, Australia. Viewed 4 August 2015, http://data.bioregionalassessments.gov.au/product/CLM/CLM/1.1.
Sen PK (1968) Estimates of the regression coefficient based on Kendall’s tau. Journal of the American Statistical Association 73 (363), 628–631.
Stetzenbach KJ, Farnham IM, Hodge VF and Johannesson KH (1999) Using multivariate statistical analysis of groundwater major and trace element concentrations to evaluate groundwater flow in a regional aquifer. Hydrological Processes 13, 2655–2673.
Theil H (1950) A rank-invariant method of linear and polynomial regression analysis. I, II, III. Proceedings of the Koninklijke Nederlandse Akademie van Wetenschappen 53, 386–392.
Thyne G, Güler C and Poeter E (2004) Sequential analysis of hydrochemical data for watershed characterization. Ground Water 42 (5), 711–723.
Van Voast WA (2003) Geochemical signature of formation waters associated with coalbed methane. AAPG Bulletin 87 (4), 667–676.
Wohling DL, Leaney FW and Crosbie RS (2012) Deep drainage estimates using multiple linear regression with percent clay content and rainfall. Hydrology and Earth Systems Science 16(2), 563–572.
Wood WW (1999) Use and misuse of the chloride-mass balance method in estimating ground water recharge. Ground Water 37(1), 2–3.
Product Finalisation date
- 2.1.1 Geography
- 2.1.2 Geology
- 18.104.22.168 Methods
- 22.214.171.124 Observed data
- 126.96.36.199 Statistical analysis and interpolation
- 188.8.131.52.1 Three-dimensional geological model workflow
- 184.108.40.206.2 Definition of the stratigraphic column
- 220.127.116.11.3 Selection of input datasets
- 18.104.22.168.4 Representation of structural elements in the three-dimensional geological model
- 22.214.171.124.5 Characterisation of binding horizons of shallow aquifers (alluvium and basalt)
- 126.96.36.199.6 Characterisation of the bedrock stratigraphic units in the Clarence-Moreton bioregion
- 188.8.131.52.7 Isopach maps, depth to formation top and depth to base of formation
- 184.108.40.206 Gaps
- 2.1.3 Hydrogeology and groundwater quality
- 220.127.116.11 Methods
- 18.104.22.168 Observed data
- 22.214.171.124 Statistical analysis and interpolation
- 126.96.36.199 Gaps
- 2.1.4 Surface water hydrology and water quality
- 2.1.5 Surface water – groundwater interactions
- 188.8.131.52 Observed data
- 184.108.40.206 Statistical analysis and interpolation
- 220.127.116.11 Gaps
- 2.1.6 Water management for coal resource developments
- Contributors to the Technical Programme
- About this technical product