Free Standard AU & NZ Shipping For All Book Orders Over $80!
Register      Login
Soil Research Soil Research Society
Soil, land care and environmental research
REVIEW (Open Access)

To B and not B2 – the Australian soil horizon system: history and review

Ben Harms https://orcid.org/0000-0003-2542-5278 A *
+ Author Affiliations
- Author Affiliations

A Department of Environment and Science, Brisbane, Qld, Australia.

* Correspondence to: ben.harms@des.qld.gov.au

Handling Editor: Brendan Malone

Soil Research 61(5) 421-455 https://doi.org/10.1071/SR22154
Submitted: 28 June 2022  Accepted: 3 January 2023   Published: 20 February 2023

© 2023 The Author(s) (or their employer(s)). Published by CSIRO Publishing. This is an open access article distributed under the Creative Commons Attribution-NonCommercial-NoDerivatives 4.0 International License (CC BY-NC-ND)

Abstract

Soil horizon designation plays a key role in the communication of information about soils – hence the need for uniformity, consistency and clarity in the way soil horizons are defined and designated. Since its establishment in the late 19th century, the A-B-C schema for soil horizons has evolved with the realisation that traditional concepts of soil genesis embedded in the original system do not fit the breadth of current knowledge regarding soil development. Along with a more objective approach, there has been progress toward harmonisation, with considerable agreement between the two major international systems: FAO and USDA. Both use an A-E-B-C-R schema for mineral soil horizons, coupled with the prescriptive use of alphabetic suffixes. This schema is now adopted almost universally – Australia alone has retained the once widespread system of numerically designated horizons, first codified in the USA in 1937. The A1-A2-A3-B1-B2-B3-C-D-R schema for mineral horizons can therefore be regarded as the ‘Australian system’. Australia is also unique in the way it designates organic soil horizons. This review summarises the history of soil horizon designation and critically appraises the Australian system. It identifies ambiguity and inconsistency in the definition and allocation of horizons, and demonstrates that soil horizon notation in Australia is convoluted and complex. Pedology in Australia would benefit by aligning with international approaches including a simpler set of objectively defined master horizons, rationalised intergrade horizons and the more rigorous application of alphabetic suffixes. This would improve both the communication of soil profile information and the utility of soil databases.

Keywords: pedogenesis, pedology, soil classification, soil description, soil horizon, soil profile, soil science history, soil survey, solum.


References

Ad-hoc-AG Boden (2005) ‘Bodenkundliche Kartieranleitung.’ 5th edn. (E. Schweizerbart: Hannover, Germany) [quoted in Fox et al. 2014]

Beckmann GG, Thompson CH (1960) ‘Soils and land use in the Kurrawa area, Darling Downs, Queensland.’ Soils and Land Use Series No. 37. (Division of Soils, CSIRO: Melbourne)

Birkeland PW (1984) ‘Soils and geomorphology.’ (Oxford University Press: New York)

Brewer R (1968) Clay illuviation as a factor in particle-size differentiation in soil profiles. In ‘Transactions of the 9th International congress of soil science, Adelaide. Vol. 4’. pp. 489–500. (The International Society of Soil Science and Angus and Robertson Ltd)

Bridges EM (1997) Origins, adoption and development of soil horizon designation. In ‘History of soil science: international perspectives’. Advances in GeoEcology 29. (Eds DH Yaalon, S Berkowicz) pp. 47–65. (Catena Verlag GMBH: Reiskirchen, Germany)

Butler BE (1967) Soil periodicity in relation to landform development in southeastern Australia. In ‘Landform studies from Australia and New Guinea’. (Eds. JN Jennings, JA Mabbutt) pp. 231–255. (Cambridge University Press: London)

Canada Soil Survey Committee (1978) ‘The Canada Soil Information System (Can SIS): manual for describing soils in the field.’ (Land Resource Research Institute: Ottawa, Ontario, Canada)

Clayden B, Hewitt AE (1988) A proposal for horizon notation of New Zealand soil profiles. NZ Soil Resources Report SR10 3rd Draft. Department of Scientific and Industrial Research, New Zealand.

Clayden B, Hewitt AE (1994) ‘Horizon notation for New Zealand soils.’ (Manaaki Whenua Press: Lincoln, New Zealand)

Coventry RJ, Holt JA, Sinclair DF (1988) Nutrient cycling by mound building termites in low fertility soils of semi-arid tropical Australia. Australian Journal of Soil Research 26, 375–390.
Nutrient cycling by mound building termites in low fertility soils of semi-arid tropical Australia.Crossref | GoogleScholarGoogle Scholar |

Crenweige GW, Crout JD, Griffin EL, Golden ML, Baker JK (1981) ‘Soil survey of Brazonia County, Texas.’ (United States Department of Agriculture, Soil Conservation Service in cooperation with the Brazonia County Commissioners Court and Texas Agricultural Experiment Station)

Darwin CR (1881) ‘Vegetable mould and earthworms.’ (John Murray: London). http://darwin-online.org.uk/converted/pdf/1881_Worms_F1357.pdf [Accessed 20 June 2022]

Duchaufour P (1998) ‘Handbook of pedology – soils, vegetation, environment.’ (Balkema: Rotterdam)

Eggleton RA (Ed.) (2001) ‘The regolith glossary – surficial geology, soils and landscapes.’ (Cooperative Research Centre for Landscape Evolution and Mineral Exploration)

FAO-Unesco (1974) ‘Soil map of the world. Vol. 1 Legend.’ (Unesco: Paris) Available at https://www.fao.org/3/as360e/as360e.pdf

FAO (1968) ‘Guidelines for soil description.’ (Soil survey and fertility branch, Land and water development division, Food and Agriculture Organization of the United Nations: Rome, Italy)

FAO (1977) ‘Guidelines for soil profile description.’ 2nd edn. (Soil resources development and conservation service, Land and water development division, Food and Agriculture Organization of the United Nations: Rome, Italy)

FAO (2006) ‘Guidelines for soil description.’ 4th edn. (Food and Agriculture Organization of the United Nations: Rome, Italy)

Fey MV (2010) ‘Soils of South Africa.’ (Cambridge University Press: Cape Town, South Africa)

Fitzpatrick EA (1967) Soil nomenclature and classification. Geoderma 1, 91–105.
Soil nomenclature and classification.Crossref | GoogleScholarGoogle Scholar |

Fox CA, Tarnocai C, Broll G, Joschko M, Kroetsch D, Kenney E (2014) Enhanced A horizon framework and field form for detailed field scale monitoring of dynamic soil properties. Canadian Journal of Soil Science 94, 189–208.
Enhanced A horizon framework and field form for detailed field scale monitoring of dynamic soil properties.Crossref | GoogleScholarGoogle Scholar |

Gerasimova MI (2001) ‘Russian soil classification system’. (English translation, Ed. RW Arnold). (VV Dokuchaev Soil Science Institute, Russian Academy of Agricultural Sciences: Moscow)

Glinka KD (1914) Die Typen der Bodenbildung, ihre Klassification und geographische Verbreitung (in German). (Gebrueder Borntraeger: Berlin)

Glinka KD (1927) ‘The great soil groups of the world and their development.’ (English translation by CF Marbut) (Edwards Brothers: Ann Arbor, MI, USA)

Goryachkin SV, Konyushkov DE, Krasilnikov PV (Eds) (2013) Diversity of soils of cold ultra-continental climate. In ‘Guidebook for the ‘Mammoth’ ultra-continental WRB field workshop, 17–23 August 2013. Yakutsk, Sakha, Russia’. (Institute of Geography, Russian Academy of Sciences: Moscow-Yakutsk). Available at https://www3.ls.tum.de/fileadmin/w00bds/boku/downloads/wrb/Guide_Sakha_final.pdf

Guthrie RL, Witty JE (1982) New designations for soil horizons and layers and the new soil survey manual. Soil Science Society of America Journal 46, 443–444.
New designations for soil horizons and layers and the new soil survey manual.Crossref | GoogleScholarGoogle Scholar |

Hartemink AE, Zhang Y, Bockheim JG, Curi N, Silva SHG, Grauer-Gray J, Lowe DJ, Krasilnikov P (2019) Soil horizon variation: a review. Advances in Agronomy 160, 125–185.
Soil horizon variation: a review.Crossref | GoogleScholarGoogle Scholar |

Hodgson JM (Ed.) (1974) ‘Soil survey field handbook: describing and sampling soil profiles.’ Technical Monograph No. 5. (Soil Survey of England and Wales, Rothamsted Experimental Station: Harpenden, Herts, UK)

Holt JA, Coventry RJ, Sinclair DF (1980) Some aspects of the biology and pedological significance of mound-building termites in a red and yellow earth landscape near charters towers, north Queensland. Australian Journal of Soil Research 18, 97–109.
Some aspects of the biology and pedological significance of mound-building termites in a red and yellow earth landscape near charters towers, north Queensland.Crossref | GoogleScholarGoogle Scholar |

International Society of Soil Science (1967) Proposal for a uniform system of soil horizon designations. Bulletin of the International Society of Soil Science 31, 4–7.

Isbell RF (1957) ‘The soils of the Inglewood-Talwood-Tara-Glenmorgan region, Queensland.’ Bureau of Investigation Technical Bulletin No. 5. (Department of Public Lands: Brisbane, Queensland)

Isbell RF (1996) ‘The Australian soil classification.’ (CSIRO Publishing: Melbourne)

Isbell RF, National Committee on Soil and Terrain (2021) ‘The Australian soil classification.’ 3rd edn. (CSIRO Publishing: Melbourne). Available at https://www.publish.csiro.au/book/8016 [Accessed 08 November 2022]

Isbell RF, Smith GM (1976) ‘Some properties of red, yellow and grey massive earths in north Queensland.’ Division of Soils, Technical Paper No. 30. (CSIRO: Melbourne)

Isbell RF, McDonald WS, Ashton LJ (1997) ‘Concepts and rationale of the Australian soil classification.’ Australian Collaborative Land Evaluation Program. (CSIRO Land and Water: Canberra)

IUSS Working Group WRB (2022) ‘World reference base for soil resources. International soil classification system for naming soils and creating legends for soil maps.’ 4th edn. (International Union of Soil Sciences: Vienna, Austria)

Johnson DL (2002) Darwin would be proud: bioturbation, dynamic denudation, and the power of theory in science. Geoarchaeology 17, 7–40.
Darwin would be proud: bioturbation, dynamic denudation, and the power of theory in science.Crossref | GoogleScholarGoogle Scholar |

Johnson DL, Watson-Stegner D (1987) Evolution model of pedogenesis. Soil Science 143, 349–366.

Johnson DL, Domier JEJ, Johnson DN (2005) Animating the biodynamics of soil thickness using process vector analysis: a dynamic denudation approach to soil formation. Geomorphology 67, 23–46.
Animating the biodynamics of soil thickness using process vector analysis: a dynamic denudation approach to soil formation.Crossref | GoogleScholarGoogle Scholar |

Juilleret J, Dondeyne S, Vancampenhout K, Deckers J, Hissler C (2016) Mind the gap: a classification system for integrating the subsolum into soil surveys. Geoderma 264, 332–339.
Mind the gap: a classification system for integrating the subsolum into soil surveys.Crossref | GoogleScholarGoogle Scholar |

Juilleret J, de Azevedo AC, Santos RA, dos Santos JCB, Pedron FdA, Dondeyne S (2018) Where are we with whole regolith pedology? A comparative study from Brazil. South African Journal of Plant and Soil 35, 251–261.
Where are we with whole regolith pedology? A comparative study from Brazil.Crossref | GoogleScholarGoogle Scholar |

Kellogg CE (1937) ‘Soil survey manual.’ (United States Department of Agriculture, Miscellaneous publication 274: Washington DC)

Khitrov NB, Gerasimova MI (2022) Diagnostic properties and soil forming materials in the classification system of Russian soils: version of 2021. Eurasian Soil Science 55, 1–10.
Diagnostic properties and soil forming materials in the classification system of Russian soils: version of 2021.Crossref | GoogleScholarGoogle Scholar |

Kubiëna WL (1953) ‘The soils of Europe – illustrated diagnosis and systematics.’ (Thomas Murby and Company: London)

Kunkel GR, Ulrich HP, Wiancko AT, Waggoner ME, James JS, Bushnell TM, Boatman WJ, Buckhannan WH, Finley RR (1932) ‘Soil survey of Jennings County, Indiana.’ Series 1932, No 40, Issued 1940. (USDA Bureau of Plant Industry in cooperation with the Purdue University Agricultural Experiment Station)

Layton MH, Kerr JA, Knobel EW, Higbee HW, O’Hara RW (1928) Soil survey of Crawford County, Kansas. Series 1928. Report No. 3 (USDA Bureau of Chemistry and Soils in cooperation with the Kansas Agricultural Experiment Station)

le Roux PAL, du Plessis MJ, Turner DP, van der Waals J, Booyens HB (2013) ‘South African Soil Surveyors Organisation Field Book for classification of South African soil.’ (Reach Publishers: Wandsbeck, South Africa)

Leeper GW (1956) The classification of soils. Journal of Soil Science 7, 59–64.
The classification of soils.Crossref | GoogleScholarGoogle Scholar |

Leeper GW (1964) ‘Introduction to soil science.’ 4th edn. (reprinted 1967). (Melbourne University Press)

Lobry de Bruyn LA, Conacher AJ (1990) The role of termites and ants in soil modification – a review. Australian Journal of Soil Research 28, 55–93.
The role of termites and ants in soil modification – a review.Crossref | GoogleScholarGoogle Scholar |

Malcolm DT, Pointon SM, Manders JA, Hall IR (2007) Moreton Bay Regional council acid sulfate soils – Bribie Island area. Department of Natural Resources and Water, Queensland.

Marbut CF (1922) Soil classification. Soil Science Society of America Journal B3, 24–32.
Soil classification.Crossref | GoogleScholarGoogle Scholar |

McDonald RC (1977) Soil horizon nomenclature. Agricultural chemistry branch technical memorandum 1/77. Department of Primary Industries, Queensland.

McDonald RC, Isbell RF (1984) Soil profile. In ‘Australian soil and land survey field handbook’. (RC McDonald, RF Isbell, JG Speight, J Walker, MS Hopkins) pp. 83–126. (Inkata Press: Melbourne)

McDonald RC, Isbell RF (1990) Soil profile. In ‘Australian soil and land survey field handbook’. 2nd edn. (RC McDonald, RF Isbell, JG Speight, J Walker, MS Hopkins) pp. 103–152. (Inkata Press: Melbourne)

McDonald RC, Isbell RF (2009) Soil profile. In ‘Australian soil and land survey field handbook’. 3rd edn. (National Committee on Soil and Terrain) pp. 147–204. (CSIRO Publishing: Melbourne)

McDonald RC, Isbell RF, Speight JG, Walker J, Hopkins MS (1984) ‘Australian soil and land survey field handbook.’ (Inkata Press: Melbourne)

McDonald RC, Isbell RF, Speight JG, Walker J, Hopkins MS (1990) ‘Australian soil and land survey field handbook.’ 2nd edn. (Inkata Press: Melbourne)

McKenzie NJ, Jacquier DW, Isbell RF, Brown KL (2004) ‘Australian soils and landscapes: an illustrated compendium.’ (CSIRO Publishing: Melbourne)

Miller JJ, Brierley JA (2011) Solonetzic soils of Canada: genesis, distribution, and classification. Canadian Journal of Soil Science 91, 889–902.
Solonetzic soils of Canada: genesis, distribution, and classification.Crossref | GoogleScholarGoogle Scholar |

Monger C, Anjos L, Zhang G, Goryachkin SV, Harms B, Schad P, Fox C, Yeon-Kyu S (2014) Toward a global system of soil horizon nomenclature. In ‘Oral presentation 047-3. Soils embrace life and universe, 20th World congress of soil science, Jeju, South Korea, 8–13 June 2014’. (International Union of Soil Sciences)

Muir A (1961) The podzol and podzolic soils. Advances in Agronomy 13, 1–56.
The podzol and podzolic soils.Crossref | GoogleScholarGoogle Scholar |

Mücher HJ, Coventry RJ (1993) Soil and landscape processes evident in a hydromorphic grey earth (Plinthusalf) in semiarid tropical Australia. Developments in Soil Science 22, 221–231.
Soil and landscape processes evident in a hydromorphic grey earth (Plinthusalf) in semiarid tropical Australia.Crossref | GoogleScholarGoogle Scholar |

Mückenhausen E (1997) Developments in soil science in Germany in the 19th century. In ‘History of soil science: international perspectives’. Advances in GeoEcology 29. (Eds DH Yaalon, S Berkowicz) pp. 261–275. (Catena Verlag GMBH: Reiskirchen, Germany)

National Committee on Soil and Terrain (2009) ‘Australian soil and land survey field handbook.’ 3rd edn (CSIRO Publishing: Melbourne). http://www.publish.csiro.au/book/5230/

Northcote KH (1965) ‘A factual key for the recognition of Australian soils.’ 2nd edn. Divisional Report 2/65. (CSIRO Division of Soils: Adelaide)

Northcote KH (1971) ‘A factual key for the recognition of Australian soils.’ 3rd edn. (Rellim Technical Publications: Glenside, SA)

Northcote KH (1979) ‘A factual key for the recognition of Australian soils.’ 4th edn. (Rellim Technical Publications: Glenside, SA)

Northcote KH, Beckmann GG, Bettenay E, Churchward HM, et al. (1960–68) Atlas of Australian soils. Sheets 1 to 10. With explanatory data. (CSIRO Australia and Melbourne University Press: Melbourne)

NRCS USDA Soil surveys online portal (2022) Soil surveys by state. Available at https://www.nrcs.usda.gov/wps/portal/nrcs/soilsurvey/soils/survey/state/ [Accessed 26 November 2022]

Nye PH (1954) Some soil-forming processes in the humid tropics. 1. A field study of a catena in the West African forest. Journal of Soil Science 5, 7–21.
Some soil-forming processes in the humid tropics. 1. A field study of a catena in the West African forest.Crossref | GoogleScholarGoogle Scholar |

Paton TR (1971) A reconnaissance survey of soils in the Boonah-Beaudesert district, Queensland. Soils and Land Use Series No. 52. Division of Soils, CSIRO, Australia.

Paton TR, Humphreys GS (2007) A critical evaluation of the zonalistic foundations of soil science in the United States. Part II: The pragmatism of Charles Kellogg. Geoderma 139, 268–276.
A critical evaluation of the zonalistic foundations of soil science in the United States. Part II: The pragmatism of Charles Kellogg.Crossref | GoogleScholarGoogle Scholar |

Paton TR, Humphreys GS, Mitchell PB (1995) ‘Soils: a new global view.’ (University College London Press: London)

Prescott JA (1931) The soils of Australia in relation to vegetation and climate. Council for Scientific and Industrial Research, Bulletin Number 52, Australia.

Prescott JA (1977) The Russian free economic society: foundation years. Agricultural History 51, 503–512.

Ruhe RV (1975) ‘Geomorphology: geomorphic processes and surficial geology.’ (Houghton Mifflin: Boston, Massachusetts)

Schaetzl RJ, Anderson S (2005) ‘Soils – genesis and geomorphology.’ (Cambridge University Press: New York)

Schoeneberger PJ, Wysocki DA, Benham EC, Soil Survey Staff (2012) ‘Field book for describing and sampling soils, Version 3.0.’ (Natural Resources Conservation Service, National Soil Survey Center: Lincoln, NE, USA)

Shaw CF (1925) The development of soil profiles in southeastern Australia. Soil Science Society of America Journal B6, 59–62.
The development of soil profiles in southeastern Australia.Crossref | GoogleScholarGoogle Scholar |

Shaw CF (1927) Report of committee on soil terminology. American Soil Survey Association Bulletin 8, 66–98.

Sibirtsev NM (1901a) Genetic classification of soils. Memoirs of the Instit. of Agric. and Forest. Novo-Alexandria, Government of Lublin, pt. 2. pp. 1–23. Translated and condensed by P. Fireman as ‘Russian soil investigations’, in Experimental Station Record, US Department of Agriculture, Office of Experiment Stations, 1901, Volume 12, 701–712.

Sibirtsev NM (1901b) Brief survey of the chief soils of Russia; Memoirs of the Instit. of Agric. and Forest. Novo-Alexandria, Government of Lublin, pt. 3. pp. 1–40. Translated and condensed by P. Fireman as ‘Russian soil investigations’, in Experimental Station Record, US Department of Agriculture, Office of Experiment Stations, 1901, Volume 12, 807–818.

Skene JKM (1951) ‘Soil survey of the Robinvale irrigation area. Parts of Parishes of Bumbang and Toltol County of Karkarooc, Victoria.’ Technical Bulletin No. 10. (Soils Section, Department of Agriculture: Victoria)

Soil Classification Working Group Canada (1998) ‘The Canadian system of soil classification.’ 3rd edn. Research Branch, Agriculture and Agri-Food, Canada. (NRC Research Press: Ottawa)

Soil Classification Working Group South Africa (1991) ‘Soil classification – a taxonomic system for South Africa.’ 2nd (revised) edn. Memoirs on the Agricultural Natural Resources of South Africa No. 15. Reprinted (with minor corrections) in 2006. (Department of Agricultural Development: Pretoria)

Soil Science Division Staff (2017) ‘Soil survey manual.’ 4th edn. (Eds C Ditzler, K Scheffe, HC Monger). United States Department of Agriculture, Handbook 18. (Government Printing Office: Washington, DC)

Soil Survey Division Staff (1993) ‘Soil survey manual.’ 3rd edn. United States Department of Agriculture, Handbook 18. (Government Printing Office: Washington, DC)

Soil Survey Staff, Natural Resources Conservation Service, USDA (2022) Official soil series descriptions online index. Available at https://soilseries.sc.egov.usda.gov/ [Accessed 26 November 2022]

Soil Survey Staff (1951) ‘Soil survey manual.’ 2nd edn. United States Department of Agriculture, Handbook No. 18. (Government Printing Office: Washington, DC)

Soil Survey Staff (1962) ‘Identification and nomenclature of soil horizons.’ Supplement to Agriculture Handbook No. 18 – soil survey manual. (replacing pp. 173–188). (United States Department of Agriculture, Soil Conservation Service)

Soil Survey Staff (1975) ‘Soil taxonomy: a basic system of soil classification for making and interpreting soil surveys.’ USDA Agricultural Handbook No. 436. (Government Printer: Washington, DC)

Soil Survey Staff (1990) ‘Keys to soil taxonomy.’ 4th edn. SMSS Technical Monograph No. 6. (Virginia Polytechnic and State University: Blacksburg, Virginia)

Soil Survey Staff (2014) ‘Keys to soil taxonomy.’ 12th edn. (USDA-Natural Resources Conservation Service: Washington DC)

Speight JG, Isbell RF (2009) Substrate. In ‘Australian soil and land survey field handbook.’ 3rd edn. (National Committee on Soil and Terrain) pp. 205–224. (CSIRO Publishing: Melbourne)

Stace HCT, Hubble GD, Brewer R, Northcote KH, Sleeman JR, Mulcahy MJ, Hallsworth EG (1968) ‘A handbook of Australian soils.’ (Rellim Technical Publications: Glenside, SA)

Stephens CG (1956) ‘A manual of Australian soils.’ 2nd edn. (CSIRO: Melbourne)

Tandarich JP, Darmody RG, Follmer LR (1994) The pedo-weathering profile: a paradigm for whole-regolith pedology from the Glaciated Midcontinental United States of America. In ‘Whole regolith pedology’. SSSA Special Publication 34. (Eds DL Cremeens, RB Brown, JH Huddleston) pp. 97–117. (Soil Science Society of America: Madison, WI)

Tandarich JP, Darmody RG, Follmer LR, Johnson DL (2002) Historical development of soil and weathering profile concepts from Europe to the United States of America. Soil Science Society of America Journal 66, 335–346.
Historical development of soil and weathering profile concepts from Europe to the United States of America.Crossref | GoogleScholarGoogle Scholar |

Taylor JK (1970) ‘Development of soil survey and field pedology in Australia.’ (CSIRO: Melbourne)

Taylor JK, Penman F (1930) ‘A soil survey of the Woorinen Settlement, Swan Hill Irrigation District, Victoria.’ Council for Scientific and Industrial Research, Bulletin No. 45. (Government Printer: Melbourne)

Taylor JK, Penman F, Marshall TJ, Leeper GW (1933) ‘A soil survey of the Nyah, Tresco, Tresco West, Kangaroo Lake (Vic) and Goodnight (NSW) settlements.’ Council for Scientific and Industrial Research, Bulletin No. 73. (Government Printer: Melbourne)

Veatch JO (1925) Northern podsol soils in the United States. Soil Science Society of America Journal B6, 24–28.
Northern podsol soils in the United States.Crossref | GoogleScholarGoogle Scholar |

Ward C (2011) Soil map of Australia. CSIROpedia. Available at https://csiropedia.csiro.au/soil-map-of-australia/ [Accessed 20 March 2022]

Watson JP (1964) A soil catena on granite in southern Rhodesia. Journal of Soil Science 15, 238–250.
A soil catena on granite in southern Rhodesia.Crossref | GoogleScholarGoogle Scholar |

Wilkinson MT, Humphreys GS (2005) Exploring pedogenesis via nuclide-based soil production rates and OSL-based bioturbation rates. Australian Journal of Soil Research 43, 767–779.
Exploring pedogenesis via nuclide-based soil production rates and OSL-based bioturbation rates.Crossref | GoogleScholarGoogle Scholar |

Wilkinson MT, Richards PJ, Humphreys GS (2009) Breaking ground: pedological, geological, and ecological implications of soil bioturbation. Earth-Science Reviews 97, 257–272.
Breaking ground: pedological, geological, and ecological implications of soil bioturbation.Crossref | GoogleScholarGoogle Scholar |

Williams MAJ (1968) Termites and soil development near Brocks Creek, Northern Territory. Australian Journal Soil Research 31, 153–154.

Williams MAJ (2019) Termites and stone lines – traps for the unwary archaeologist. Quaternary Science Reviews 226, 106028
Termites and stone lines – traps for the unwary archaeologist.Crossref | GoogleScholarGoogle Scholar |