Csiro land and water (clw)

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PUBLICATIONS – Rob Fitzpatrick
Journal Papers

  1. Fitzpatrick, RW, Shand P, Merry R.H., Mosley LM (2019) Acid sulfate soil evolution models and pedogenic pathways during cyclic wetting and drying conditions: A synthesis using the Ramsar Banrock Wetland Complex. Geoderma. (Submitted)

  2. Gardner, WK, Fitzpatrick RW and Hindhaugh CA. (2018) Restoration of discharge areas: Successes and failures on scalds comprising acid sulfate soils with iron clogged layers. Pant and Soil https://doi.org/10.1007/s11104-018-3840-1

  3. Soriano-Disla José M., Janik Leslie J., Forrester Sean T., Grocke Sonia, Fitzpatrick Robert W, McLaughlin, Michael J. (2019) The use of mid-infrared diffuse reflectance spectroscopy for acid sulfate soil analysis. Science and Total Environment. 646, 1489-1502. https://doi.org/10.1016/j.scitotenv.2018.07.383

  4. Kölbl, Angelika, Marschner Petra., Mosley Luke, Fitzpatrick, Rob, and Kögel-Knabner, Ingrid. (2018). Alteration of organic matter during remediation of acid sulfate soils. Geoderma. 332, 121-134. http://dx.doi.org/10.1016/j.geoderma.2018.06.024

  5. Fitzpatrick Rob (2018). Dr Keith Norrish (1924-2017) Clay Minerals, Vol. 52, No. 5, 537–538. https://doi.org/10.1180/claymin.2017.052.4.10

  6. Tan Dang, Marschner P. Fitzpatrick RW, Mosley LM, (2018) Assessment of the binding of protons, Al and Fe to biochar at different pH values and soluble metal concentrations. Water. 55, 1489-1502. https://doi.org/10.3390/w10010055

  7. Bargrizan Sima, Smernik Ronald J; Fitzpatrick Rob W, Mosley, Luke M. (2018) The application of a spectrophotometric method to determine pH in acidic (pH<5) soils. Talanta. 186, 421-426. https://doi.org/10.1016/j.talanta.2018.04.074

  8. Fitzpatrick, Rob, (2018). Lee Parkin 1916–2013, Transactions of the Royal Society of South Australia, 142: 1, 102-103. http://dx.doi.org/10.1080/03721426.2018.1385570

  9. Fitzpatrick Rob (2017). In Memoriam: Keith Norrish 1924-2017. Clays and Clay Minerals, Vol. 65, No. 5, 185–186.

  10. Rabenhorst, Martin, Daniels L., and Fitzpatrick Robert (2017) Preface: 8th International Acid Sulfate Soil Conference. Geoderma. 308, 187-190. http://dx.doi.org/10.1016/j.geoderma.2017.09.022

  11. Fanning, Delvin, Rabenhorst, Martin and Fitzpatrick Robert (2017) Historical developments in the understanding of acid sulfate soils. Geoderma. 308, 191-206. http://dx.doi.org/10.1016/j.geoderma.2017.07.006

  12. Fitzpatrick, RW, Shand P and Mosley LM (2017). Acid sulfate soil evolution models and pedogenic pathways during drought and reflooding cycles in irrigated areas and adjacent natural wetlands. Geoderma. 308, 270-290. http://dx.doi.org/10.1016/j.geoderma.2017.08.016

  13. Fitzpatrick, RW, Mosley LM, Raven MD and Shand P (2017) Schwertmannite formation and properties in acidic drain environments following exposure and oxidation of acid sulfate soils in irrigation areas during extreme drought. Geoderma. 308, 235-251. http://dx.doi.org/10.1016/j.geoderma.2017.08.012

  14. Mosley, LM, Biswas T, Cook F., Marschner P, Palmer D, Shand P, Yuan C, and Fitzpatrick RW (2017) Prolonged recovery of acid sulfate soils with sulfuric materials following severe drought: causes and implications. Geoderma. 308, 312-320. http://dx.doi.org/10.1016/j.geoderma.2017.03.019

  15. Kölbl, A, Marschner P., Fitzpatrick, RW, Mosley LM, and Kögel-Knabner, I. (2017). Linking organic matter composition in acid sulfate soils to acidification risk and recovery. Geoderma. 308, 350-362 http://dx.doi.org/10.1016/j.geoderma.2017.07.03

  16. Di Maggio Rosa Maria, Laurance J. Donnelly, Khudooma Saeed Al Naimi, Pier Matteo, Barone, Fabio Augusto Da Silva Salvador, Lorna Dawson, Roger Dixon, Rob Fitzpatrick, Olga Gradusova, Ekaterina Nesterina, Marina Peleneva, Olga Ushacova, Carlos Martin Molina Gallego, Duncan Pirrie, Alastair Ruffell, Jennifer McKinley, Gullermo Sagripanti, Diego Villalba, Bill Schneck, Ritsuko Sugita, Grant Wach, Ricardo Silva, and Shari Forbes, (2017) Global Developments in Forensic Geology. Episodes Journal of International Geoscience. 40 (2) 120-130. http://dx.doi.org/10.18814/epiiugs/2017/v40i2/017014

  17. Fitzpatrick, RW, Raven, M.D. and Self P.G. (2017). The role of pedology and mineralogy in providing evidence for 5 crime investigations involving a wide range of earth materials. Episodes Journal of International Geoscience. 40 (2) 148-156. http://dx.doi.org/10.18814/epiiugs/2017/v40i2/017017

  18. Smith A. Pamela, Mark D. Raven, Keryn Walshe, Robert W. Fitzpatrick, F. Donald Pate. (2017) Scientific evidence for the identification of an Aboriginal massacre at the Sturt Creek sites on the Kimberley frontier of north-western Australia. Forensic Science International. 279, 258-267. http://dx.doi.org/10.1016/j.forsciint.2017.08.018

  19. Shand, P, Grocke S, Creeper NL, Baker AK, Fitzpatrick, RW, Love AJ (2017). Impacts of climate change, climate variability and management on soil and water quality in wetlands of South Australia. Procedia Earth and Planetary Science. 17: 456-459. http://dx.doi.org/10.1016/j.proeps.2016.12.115

  20. Murray, Kathleen R, Fitzpatrick Robert W, Bottrill Ralph S, Kobus Hilton. (2017) Patterns produced when soil is transferred to bras by placing and dragging action: the application of digital photography and image processing to support visible observations. Forensic Science International. 276, 24-40. http://dx.doi.org/10.1016/j.forsciint.2017.03.026

  21. Murray, Kathleen R, Fitzpatrick Robert W, Bottrill Ralph S, Kobus Hilton. (2017) Soil transference patterns on clothing fabrics and plastic buttons: Image processing and laboratory dragging experiments. Forensic Science and Criminology. 2 (1) 1-12. http://dx.doi.org/10.15761/FSC.1000109

  22. Murray, Kathleen R, Fitzpatrick Robert W, Bottrill Ralph S, Kobus Hilton. (2017). An investigation of the pattern formed by soil transfer when clothing fabrics are placed on soil using visual examination and image processing analysis. Forensic Science and Criminology. 2 (1) 1-11. http://dx.doi.org/10.15761/FSC.1000110

  23. Michael, PS, Fitzpatrick RW and RJ Reid (2017) Effects of live wetland plant macrophytes on acidification, redox potential and sulphate content in acid sulphate soils. Soil Use and Management. 33(3), 471–481. http://dx.doi.org/10.1111/sum.12362

  24. Mosley, Luke M., Freeman Cook and Rob Fitzpatrick (2017) Remediation of soil salinity and sodicity in Lower Murray irrigation areas; comparison and modelling of different treatments. Soil Research. 55(5), 670–681 http://dx.doi.org/10.1071/SR16272

  25. Jayalath Nilmini, Fitzpatrick, Rob W, Mosley Luke, Marschner Petra. (2016) Type of organic carbon amendment influences pH changes in acid sulfate soils in flooded and dry conditions. J Soils Sediments. 16(2), 518-526

  26. Murray, Kathleen R, Fitzpatrick Robert W, Bottrill Ralph S, Berry Ron, Kobus Hilton. (2016) Soil transference patterns on bras: Image processing and laboratory dragging experiments. Forensic Science International. 258, 88-100. http://dx.doi.org/10.1016/j.forsciint.2015.10.009

  27. Jayalath N, Mosley LM, Fitzpatrick, RW, Marschner P. (2016) Addition of organic matter influences pH changes in reduced and oxidized acid sulfate soils. Geoderma. 262, 125-132. http://dx.doi.org/10.1016/j.geoderma.2015.08.012

  28. Michael, PS, Fitzpatrick RW and RJ Reid (2016) The importance of soil carbon and nitrogen for amelioration of acid sulphate soils. Soil Use and Management. 32, 97–105. http://dx.doi:org/10.1111/sum.12239

  29. Jayalath N, Mosley LM, Fitzpatrick, RW, Marschner P. (2016) Addition of clayey soils with high net negative acidity to sulfuric sandy soil can minimize pH changes during wet and dry periods. Geoderma. 269: 153-159 http://dx.doi.org/10.1016/j.geoderma.2016.01.040

  30. Tan Dang, Mosley LM, Fitzpatrick RW, Marschner P. (2016) Addition of organic material to sulfuric soil can reduce leaching of protons, iron and aluminium. Geoderma. 271: 63-70 http://dx.doi.org/10.1016/j.geoderma.2016.02.012

  31. Yuan Chaolei, Rob Fitzpatrick, Luke M. Mosley, Petra Marschner (2016) Organic matter addition can prevent acidification during oxidation of sandy hypersulfidic and hyposulfidic material: effect of application form, rate and C/N ratio". Geoderma. 276: 26-32. http://dx.doi.org/10.1016/j.geoderma.2016.04.025

  32. Thomas Mark, Richardson Carole, Durbridge Regina, Fitzpatrick Rob and Seaman Russell (2016) Mobilising citizen scientists to monitor rapidly changing acid sulfate soils. Transactions of the Royal Society of S. Aust. 140:2, 186-202 http://dx.doi.org/10.1080/03721426.2016.1203141

  33. Tan Dang, Mosley LM, Fitzpatrick RW, Marschner P. (2016) Organic materials retain high proportion of protons, iron and aluminium from acid sulfate soil drainage water with little subsequent release. Environmental Science and Pollution Research. 23: 23582-23592. http://dx.doi.org/10.1007/s11356-016-7597-x

  34. Grealish Gerard, Robert W. Fitzpatrick, Samira Omar Asem (2015). Assisting non-soil experts to identify soil types for land management, to support restoration of arid rangeland native vegetation in Kuwait. Arid Land Research and Management. 29:3, 288-305. http://dx.doi.org/10.1080/15324982.2014.973620

  35. Creeper Nathan L, Paul Shand, Warren Hicks, Rob W Fitzpatrick (2015). Porewater geochemistry of Inland Acid Sulfate Soils with sulfuric horizons following post-drought reflooding with freshwater. Journal of Environmental Quality. 44:3, 989-1000.

  36. Fitzpatrick RW (2015) Making soil talk: The value of soil in solving criminal investigations. Interaction, Vol. 43: 2, 15-17. http://search.informit.com.au/documentSummary;dn=260902993973047;res=IELAPA

  37. Yuan Chaolei, Luke M. Mosley, Rob Fitzpatrick, Petra Marschner (2015) Amount of organic matter required to induce sulfate reduction in sulfuric material after re-flooding is affected by soil nitrate concentration. Journal of Environmental Management 151:437-442. http://dx.doi.org/10.1016/j.jenvman.2015.01.016

  38. Grealish GJ, Fitzpatrick RW, Hutson JL (2015) Soil survey data rescued by means of user friendly soil identification keys and toposequence models to deliver soil information for improved land management. GeoResJ 6, 81-91. http://dx.doi.org/10.1016/j.grj.2015.02.006

  39. Michael PS, Fitzpatrick RW, R Reid (2015) The role of organic matter in ameliorating acid sulfate soils with sulfuric horizons. Geoderma. 255-256, 42-49. http://dx.doi.org/10.1016/j.geoderma.2015.04.023

  40. Yuan Chaolei, Luke M. Mosley, Rob Fitzpatrick, Petra Marschner (2015) Sulfate reduction in sulfuric material after reflooding: effectiveness of organic carbon addition and pH increase depends on soil properties. Journal of Hazardous Materials. 298, 138-145. http://dx.doi.org/10.1016/j.jhazmat.2015.05.013

  41. Creeper Nathan L, Paul Shand, Warren S. Hicks, Rob W Fitzpatrick (2015). Geochemical processes following freshwater reflooding of acidified inland acid sulfate soils: An in situ mesocosm experiment. Chemical Geology 411, 200-214. http://dx.doi.org/10.1016/j.chemgeo.2015.07.009.

  42. Tan Dang, Mosley LM, Fitzpatrick RW, Marschner P. (2015) Organic materials differ in ability to remove protons, iron and aluminium from acid sulfate soil drainage water. Water, Air, and Soil Pollution. 226:357 1-13 http://dx.doi.org/10.1007/s11270-015-2595-z

  43. Mosley, L.M., Shand, P., Self, P., Fitzpatrick, R., (2014), The geochemistry during management of lake acidification caused by the rewetting of sulfuric (pH<4) acid sulfate soils, Applied Geochemistry. 41, 49–61. http://dx.doi.org/10.1016/j.apgeochem.2013.11.010

  44. Mosley Luke M., Zammit Benjamin, Jolley Ann-Marie, Barnett Liz, and Fitzpatrick RW (2014) Monitoring and assessment of surface water acidification following rewetting of oxidised acid sulfate soils. Environmental Monitoring and Assessment. 186, 1-18 http://dx.doi.org/10.1007/s10661-013-3350-9

  45. Fitzpatrick RW (2014) Coonawarra – the trauma of defining the terroir. Australian & New Zealand Grapegrower and Winemaker. 601, 33-40

  46. Grealish GJ and Fitzpatrick RW (2014) Assisting non-soil specialists to identify soil types for land management: an approach using a soil identification key and toposequence models. Soil Use and Management. 30, 251-262 http://dx.doi.org/10.1111/sum.12108

  47. Mosley, Luke M., David Palmer, Emily Leyden, Freeman Cook, Benjamin Zammit, Paul Shand, Andrew Baker, and Rob W. Fitzpatrick (2014) Acidification of floodplains due to river level decline during drought. Journal of Contaminant Hydrology. 161, 10-23. http://dx.doi.org/10.1016/j.jconhyd.2014.03.003

  48. Mosley Luke M., Rob W. Fitzpatrick, David Palmer, Emily Leyden and Paul Shand (2014) Changes in acidity and metal geochemistry in soils, groundwater, drain and river water in the Lower Murray River after a severe drought. Science of the Total Environment. 485-486: 281-291. http://dx.doi.org/10.1016/j.scitotenv.2014.03.063

  49. Grealish GJ, Fitzpatrick RW and P Shand (2014). Regional distribution trends and properties of acid sulfate soils during severe drought in wetlands along the lower River Murray, South Australia: Supporting hazard assessment. Geoderma Regional. 2–3, 60–71. http://dx.doi.org/10.1016/j.geodrs.2014.10.003

  50. Creeper N, Fitzpatrick, RW, and P Shand (2013). The occurrence of inland acid sulphate soils in the floodplain wetlands of the Murray-Darling Basin, Australia, identified using a simplified incubation method. Soil Use and Management 29, 130-139. http://dx.doi.org/10.1111/sum.12019

  51. Grealish GJ and Fitzpatrick RW (2013) Acid sulphate soil characterisation in Negara Brunei Darussalam: a case study to inform management decisions. Soil Use and Management 29, 432–444. http://dx.doi.org/10.1111/sum.12051

  52. Souter N,J, Williams CR., Jennings JT., Fitzpatrick RW. (2013) Submission on the Draft Murray-Darling Basin Plan. Transactions of the Royal Society of S. Aust. 137 (1), 135-137

  53. Creeper N, Fitzpatrick, RW and P Shand (2012). A simplified incubation method incorporating the use of chip-trays as incubation vessels to identify sulfidic materials in Acid Sulfate Soils. Soil Use and Management 28, 401-408. http://dx.doi.org/10.1111/j.1475-2743.2012.00422.x

  54. Fitzpatrick RW (2012) Forensic earth science: Getting the dirt on crime. e-Science Faculty of Sciences, The University of Adelaide. Issue 2, pp. 5-11 (Resources, pp 50-56). http://escience.realviewdigital.com/?iid=65461#folio=1

  55. Fitzpatrick RW and Raven MD (2012) How Pedology and mineralogy helped solve a double murder case: Using forensics to inspire future generations of soil scientists. Soil Horizons. 53 (5), 14-29. doi:10.2136/sh12-05-0016


  1. Fitzpatrick RW (2011) Getting the dirt: The value of soil in criminal investigations. Gazette, 73, No 1, pp. 22-23. A Royal Canadian Mounted Police Publication. http://www.rcmp-grc.gc.ca/gazette/index-eng.htm

  2. Thomas M, Fitzpatrick RW and Heinson GS (2011). Spatial and temporal trends in soil salinity for identifying perched and deep groundwater systems. Soil Use and Management 27, 264-279.

  3. Fitzpatrick RW (2011) Forensic Geology and Soil Science: Getting the Dirt on Crime. Bulletin of the Field Geology Club of South Australia (Inc).40 No. 5: pp. 1-3.

  4. Baker A.K and Fitzpatrick RW (2011). A web-based approach to improve collation and communication of complex soil-landscape data with examples relating to agricultural production, environmental degradation and mineral exploration. Soil Use and Management 27, 550-559. http://dx.doi.org/10.1111/j.1475-2743.2011.00370.x

  5. Simpson Stuart L, Rob W. Fitzpatrick, Paul Shand, Brad M. Angel, David A. Spadaro and Luke Mosley (2010). Climate-driven mobilisation of acid and metals from acid sulfate soils. Marine and Freshwater Research 61 (1), 2010, pp. 129 - 138

  6. Hicks WS, GM Bowman and Fitzpatrick RW. (2009) Effect of season and landscape position on the aluminium geochemistry of tropical acid sulfate soil leachate. Australian Journal of Soil Research 47: 137–153.

  7. Burton ED, Bush RT, Sullivan LA, Hocking RK, Mitchell DRG, Johnston SG, Fitzpatrick RW. Raven M, McClure, S, Jang LY (2009) Iron-monosulfide oxidation in natural sediments: Resolving microbially mediated S transformations using XANES, electron microscopy, and selective extractions. Environmental Science and Technology 43: 3128–3134.

  8. Thomas M, Fitzpatrick RW and Heinson GS (2009). Distribution and causes of intricate saline-sodic soil patterns in an upland South Australian hillslope. Australian Journal of Soil Research. 47, 328–339.

  9. Poch R.M., B P. Thomas, R.W. Fitzpatrick, Merry R.H. (2009) Micromorphological evidence for mineral weathering pathways in a coastal acid sulfate soil sequence with Mediterranean-type climate, South Australia. Australian Journal of Soil Research. 47: 403–422.

  10. Anda Markus, DJ Chittleborough and R.W Fitzpatrick (2009) Assessing parent material uniformity of a red and black soil complex in landscapes. Catena 47: 142–153.

  11. Morgan Kate E, Edward D. Burton, Perran Cook, Richard T. Bush, Mark Raven, Robert W. Fitzpatrick, Leigh A. Sullivan and Rosalie K. Hocking (2009). Fe and S K-edge XAS determination of iron-sulfur species present in a range of acid sulfate soils: Effects of particle size and concentration on quantitative XANES determinations. J. Physics: Conference Series. 190. doi:10.1088/1742-6596/190/1/012144.

  12. Thomas M, Fitzpatrick RW and Heinson GS (2009). An expert system to predict intricate saline-sodic subsoil patterns in upland South Australia. Australian Journal of Soil Research. 47: 602–612.

  13. Wells M.A., R.W. Fitzpatrick and R.J. Gilkes (2006) Thermal and Mineral properties of Al-, Cr-, Mn-, Ni- and Ti-substituted goethite. Clays and Clay Minerals. 54(2)176–194.

  14. Lamontagne, S., Hicks, W.S., Fitzpatrick, R.W. and Rogers, S. (2006). Sulfidic materials in dryland river wetlands. Marine and Freshwater Research 57: 775–788.

  15. Wallace, LJ, McPhail, DC, Welch, S, Kirste, D, Beavis, S, Lamontagne, S and Fitzpatrick, RW (2006) Spatial heterogeneity of S and C stores in an inland acid sulfate soil. Geochimica Et Cosmochimica Acta, 70: (18), pp. 3.

  16. Paine, M., Anand, R., Aspandiar, M., Fitzpatrick, R.W., and Verrall, M. (2005). Quantitative heavy-mineral analysis of a Pliocene beach placer deposit in southeastern Australia using the autogeosem. Journal of Sedimentary Research, 75 (4): 742–759. http://dx.doi.org/10.2110/jsr.2005.060

  17. Gardner, W.K., J.D. Fawcett, R.W. Fitzpatrick, and R.M. Norton (2004). Chemical reduction causing land degradation: I Overview. Plant and Soil. 267: 51–59.

  18. Gardner, W. K., J.D. Fawcett, R.W. Fitzpatrick, R.M. Norton, and M. Trethowan. (2004) Chemical reduction causing land degradation: II Detailed observations at a discharge site in the Eastern Dundas Tablelands, Victoria, Australia. Plant and Soil, 267: 85–95.

  19. Fitzpatrick R.W., J.W Cox, B. Munday, and J. Bourne, (2003). Development of soil- landscape and vegetation indicators for managing waterlogged and saline catchments. Special Issue featuring papers on: “Application of Sustainability Indicators”. Australian Journal of Experimental Agriculture: 43 245–252. DOI:10.1071/EA01012

  20. Schwenke G.D., D.J. Reuter, R.W. Fitzpatrick, J. Walker and P. O'Callaghan (2003). Soil and catchment health indicators of sustainability: case studies from southern Australia and possibilities for the northern grains region of Australia. Australian Journal of Experimental Agriculture: Special Issue featuring papers on “Application of Sustainability Indicators” 43 (3) 205–222. DOI:10.1071/EA01012

  21. Brouwer J. and RW Fitzpatrick (2002). Interpretation of morphological features in a salt-affected duplex soil toposequence with an altered soil water regime in western Victoria. Australian Journal of Soil Research. 40: 903–926. http://dx.doi.org/10.1071/SR02008

  22. Brouwer J. and R.W. Fitzpatrick (2002) Restricting layers, flow paths and correlation between duration of soil saturation and soil morphological features along a hillslope with an altered soil water regime in western Victoria. Australian Journal of Soil Research. 40: 927–946. http://dx.doi.org/10.1071/SR02009

  23. Cass Alfred, Robert Fitzpatrick, David Maschmedt, Karin Thomson, Andrew Dowley and Susan Van Goor. (2002). Soils of the Australian Rootstock Trials. The Australian and New Zealand Grapegrower & Winemaker (Annual Technical issue). 461A. p.40–49.

  24. Wells, M.A., R.J. Gilkes, and R.W. Fitzpatrick (2001). Properties and acid dissolution of metal-substituted hematites. Clays and Clay Minerals. 49. 60–72. http://dx.doi.org/10.1346/CCMN.2001.0490105

  25. Fitzpatrick R.W., R. H. Merry and J.W. Cox. (2000). What are saline soils? What happens when they are drained? Journal of the Australian Association of Natural Resource Management (AANRM). Special Issue (June 2000), 26–30.

  26. Wells, M.A., R.W. Fitzpatrick, R.J. Gilkes, and J. Dobson, (1999). Magnetic properties of metal-substituted hematites. Geophys. J. Int., 138, 571–580. http://dx.doi:10.1046/j.1365-246X.1999.00840.x

  27. Salama R.B., CJ. Otto and R.W. Fitzpatrick (1999). Contributions of groundwater conditions to soil and water salinisation. Hyrogeology Journal. 7: 46–64. http://dx.doi:10.1046/j.1365-246X.1999.00840.x

  28. Mao Renzhao and R.W. Fitzpatrick (1999). Preliminary study on magnetic susceptibility of saline soil. Eco-Agriculture Research (In Chinese), 7: 19–21.

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