Operationalising digital soil mapping – Lessons from Australia

Australia has advanced the science and application of Digital Soil Mapping (DSM). Over the past decade, DSM in Australia has evolved from being purely research focused to become ‘operational’, where it is embedded into many soil-agency land resource assessment programs around the country. This has r...

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Published inGeoderma Regional Vol. 23; p. e00335
Main Authors Kidd, Darren, Searle, Ross, Grundy, Mike, McBratney, Alex, Robinson, Nathan, O'Brien, Lauren, Zund, Peter, Arrouays, Dominique, Thomas, Mark, Padarian, José, Jones, Edward, Bennett, John McLean, Minasny, Budiman, Holmes, Karen, Malone, Brendan P., Liddicoat, Craig, Meier, Elizabeth A., Stockmann, Uta, Wilson, Peter, Wilford, John, Payne, Jim, Ringrose-Voase, Anthony, Slater, Brian, Odgers, Nathan, Gray, Jonathan, van Gool, Dennis, Andrews, Kaitlyn, Harms, Ben, Stower, Liz, Triantafilis, John
Format Journal Article
LanguageEnglish
Published Elsevier B.V 01.12.2020
Elsevier
Subjects
Australia
case studies
Digital soil assessment
Digital soil mapping
Environmental Sciences
evolution
infrastructure
Land resource assessment
land resources
Multiple soil classes
Operational
soil
uncertainty
Australia
Multiple soil classes
Land resource assessment
Digital soil mapping
Australia
Digital soil assessment
Operational
Digital soil mapping Digital soil assessment Australia Operational Land resource assessment Multiple soil classes
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Abstract Australia has advanced the science and application of Digital Soil Mapping (DSM). Over the past decade, DSM in Australia has evolved from being purely research focused to become ‘operational’, where it is embedded into many soil-agency land resource assessment programs around the country. This has resulted from a series of ‘drivers’, such as an increased need for better quality and more complete soil information, and ‘enablers’, such as existing soil information systems, covariate development, serendipitous project funding, collaborations, and Australian DSM ‘champions’. However, these accomplishments were not met without some barriers along the way, such as a need to demonstrate and prove the science to the soil science community, and rapidly enable the various soil agencies' capacity to implement DSM. The long history of soil mapping in Australia has influenced the evolution and culmination of the operational DSM procedures, products and infrastructure in widespread use today, which is highlighted by several recent and significant Australian operational DSM case-studies at various extents. A set of operational DSM ‘workflows’ and ‘lessons learnt’ have also emerged from Australian DSM applications, which may provide some useful information and templates for other countries hoping to fast-track their own operational DSM capacity. However, some persistent themes were identified, such as applicable scale, and communicating uncertainty and map quality to end-users, which will need further development to progress operational DSM. •Australia has a long history in the development of Digital Soil Mapping (DSM).•Australian DSM has become operational due to a history of drivers and enablers.•Operational protocols and lessons learnt have emerged from exemplar DSM products.•Operational DSM has been empowered by an Australian ‘Community of Practice’.
AbstractList Australia has advanced the science and application of Digital Soil Mapping (DSM). Over the past decade, DSM in Australia has evolved from being purely research focused to become ‘operational’, where it is embedded into many soil-agency land resource assessment programs around the country. This has resulted from a series of ‘drivers’, such as an increased need for better quality and more complete soil information, and ‘enablers’, such as existing soil information systems, covariate development, serendipitous project funding, collaborations, and Australian DSM ‘champions’. However, these accomplishments were not met without some barriers along the way, such as a need to demonstrate and prove the science to the soil science community, and rapidly enable the various soil agencies' capacity to implement DSM. The long history of soil mapping in Australia has influenced the evolution and culmination of the operational DSM procedures, products and infrastructure in widespread use today, which is highlighted by several recent and significant Australian operational DSM case-studies at various extents. A set of operational DSM ‘workflows’ and ‘lessons learnt’ have also emerged from Australian DSM applications, which may provide some useful information and templates for other countries hoping to fast-track their own operational DSM capacity. However, some persistent themes were identified, such as applicable scale, and communicating uncertainty and map quality to end-users, which will need further development to progress operational DSM.
Australia has advanced the science and application of Digital Soil Mapping (DSM). Over the past decade, DSM in Australia has evolved from being purely research focused to become ‘operational’, where it is embedded into many soil-agency land resource assessment programs around the country. This has resulted from a series of ‘drivers’, such as an increased need for better quality and more complete soil information, and ‘enablers’, such as existing soil information systems, covariate development, serendipitous project funding, collaborations, and Australian DSM ‘champions’. However, these accomplishments were not met without some barriers along the way, such as a need to demonstrate and prove the science to the soil science community, and rapidly enable the various soil agencies' capacity to implement DSM. The long history of soil mapping in Australia has influenced the evolution and culmination of the operational DSM procedures, products and infrastructure in widespread use today, which is highlighted by several recent and significant Australian operational DSM case-studies at various extents. A set of operational DSM ‘workflows’ and ‘lessons learnt’ have also emerged from Australian DSM applications, which may provide some useful information and templates for other countries hoping to fast-track their own operational DSM capacity. However, some persistent themes were identified, such as applicable scale, and communicating uncertainty and map quality to end-users, which will need further development to progress operational DSM. •Australia has a long history in the development of Digital Soil Mapping (DSM).•Australian DSM has become operational due to a history of drivers and enablers.•Operational protocols and lessons learnt have emerged from exemplar DSM products.•Operational DSM has been empowered by an Australian ‘Community of Practice’.
ArticleNumber e00335
Author Stockmann, Uta
Robinson, Nathan
McBratney, Alex
Ringrose-Voase, Anthony
Payne, Jim
Andrews, Kaitlyn
Jones, Edward
Odgers, Nathan
Grundy, Mike
Triantafilis, John
Zund, Peter
Holmes, Karen
Slater, Brian
Padarian, José
Harms, Ben
Minasny, Budiman
Malone, Brendan P.
Meier, Elizabeth A.
Wilford, John
Thomas, Mark
Kidd, Darren
Bennett, John McLean
Stower, Liz
Wilson, Peter
Gray, Jonathan
O'Brien, Lauren
van Gool, Dennis
Arrouays, Dominique
Liddicoat, Craig
Searle, Ross
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  organization: Natural and Cultural Heritage, Department of Primary Industries Parks Water and Environment Tasmania, Prospect, Tasmania, Australia
– sequence: 2
  givenname: Ross
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  organization: CSIRO Agriculture and Food, St Lucia, QLD, Australia
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  organization: School of Life and Environmental Sciences, Sydney Institute of Agriculture, The University of Sydney, 1 Central Avenue, Eveleigh, NSW, Australia
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  organization: School of Life and Environmental Sciences, Sydney Institute of Agriculture, The University of Sydney, 1 Central Avenue, Eveleigh, NSW, Australia
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  organization: School of Life and Environmental Sciences, Sydney Institute of Agriculture, The University of Sydney, 1 Central Avenue, Eveleigh, NSW, Australia
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  organization: Centre for Sustainable Agricultural Systems, University of Southern Queensland, West St, Toowoomba, QLD, Australia
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  organization: Department of Primary Industries and Regional Development, Perth, WA, Australia
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  givenname: Brendan P.
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  organization: CSIRO Agriculture and Food, Black Mountain Science and Innovation Park, Clunies Ross Street, Canberra, Australia
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  surname: Liddicoat
  fullname: Liddicoat, Craig
  organization: Department for Environment and Water, Adelaide, SA, Australia
– sequence: 17
  givenname: Elizabeth A.
  surname: Meier
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  organization: CSIRO Agriculture and Food, St Lucia, QLD, Australia
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  surname: Stockmann
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  organization: CSIRO Agriculture and Food, Black Mountain Science and Innovation Park, Clunies Ross Street, Canberra, Australia
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  surname: Wilson
  fullname: Wilson, Peter
  organization: CSIRO Agriculture and Food, Black Mountain Science and Innovation Park, Clunies Ross Street, Canberra, Australia
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  givenname: John
  surname: Wilford
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  organization: Geoscience Australia, Canberra, ACT. Australia
– sequence: 21
  givenname: Jim
  surname: Payne
  fullname: Payne, Jim
  organization: Department of Environment and Science, Landscape Sciences, Brisbane, QLD, Australia
– sequence: 22
  givenname: Anthony
  surname: Ringrose-Voase
  fullname: Ringrose-Voase, Anthony
  organization: CSIRO Agriculture and Food, Black Mountain Science and Innovation Park, Clunies Ross Street, Canberra, Australia
– sequence: 23
  givenname: Brian
  surname: Slater
  fullname: Slater, Brian
  organization: School of Environment and Natural Resources, The Ohio State University, Columbus, OH, USA
– sequence: 24
  givenname: Nathan
  surname: Odgers
  fullname: Odgers, Nathan
  organization: Manaaki Whenua – Landcare Research, Lincoln, New Zealand
– sequence: 25
  givenname: Jonathan
  surname: Gray
  fullname: Gray, Jonathan
  organization: NSW Department of Planning, Industry and Environment, Parramatta, NSW, Australia
– sequence: 26
  givenname: Dennis
  surname: van Gool
  fullname: van Gool, Dennis
  organization: Department of Primary Industries and Regional Development, Perth, WA, Australia
– sequence: 27
  givenname: Kaitlyn
  surname: Andrews
  fullname: Andrews, Kaitlyn
  organization: Department of Natural Resources, Mines and Energy, Resource Assessment and Information, Brisbane, QLD, Australia
– sequence: 28
  givenname: Ben
  surname: Harms
  fullname: Harms, Ben
  organization: Department of Environment and Science, Landscape Sciences, Brisbane, QLD, Australia
– sequence: 29
  givenname: Liz
  surname: Stower
  fullname: Stower, Liz
  organization: CSIRO Agriculture and Food, St Lucia, QLD, Australia
– sequence: 30
  givenname: John
  surname: Triantafilis
  fullname: Triantafilis, John
  organization: School of Biological, Earth and Environmental Sciences, UNSW Sydney, Kensington, NSW, Australia
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Keywords Multiple soil classes
Land resource assessment
Digital soil mapping
Australia
Digital soil assessment
Operational
Digital soil mapping Digital soil assessment Australia Operational Land resource assessment Multiple soil classes
Language English
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Snippet Australia has advanced the science and application of Digital Soil Mapping (DSM). Over the past decade, DSM in Australia has evolved from being purely research...
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SubjectTerms Australia
case studies
Digital soil assessment
Digital soil mapping
Environmental Sciences
evolution
infrastructure
Land resource assessment
land resources
Multiple soil classes
Operational
soil
uncertainty
Title Operationalising digital soil mapping – Lessons from Australia
URI https://dx.doi.org/10.1016/j.geodrs.2020.e00335
https://www.proquest.com/docview/2524340900
https://hal.inrae.fr/hal-03134251
Volume 23
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