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An Introductory Perspective
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Philippe Lagacherie, Institut National de la Recherche Agronomique, Laboratoire sur les Interactions Sol-Agrosystème-Hydrosystème, UMR LISAH AgroM-INRA-IRD, Montpellier, FRANCE
Alex McBratney, Faculty of Agriculture, Food & Natural Resources, University of Sydney, NSW, Australia
Marc Voltz, Institut National de la Recherche Agronomique, Laboratoire sur les Interactions Sol-Agrosystème-Hydrosystème, UMR LISAH AgroM-INRA-IRD, Montpellier, FRANCE
Included in series
Developments in Soil Science,
Description
The book compiles the main ideas and methodologies that have been proposed and tested within these last fifteen years in the field of
Digital Soil Mapping (DSM). Begining with current experiences of soil information system developments in various regions of the world,
this volume presents states of the art of different topics covered by DSM: Conception and handling of soil databases, sampling methods,
new soil spatial covariates, Quantitative spatial modelling, Quality assessment and representation of DSM outputs.
This book provides
a solid support to students, researchers and engineers interested in modernising soil survey approaches with numerical techniques. It
is also of great interest for potential soil data users.
Audience
Soil scientists, physical geographers, ecologists, environmental scientists and planners.
Contents
A. Introduction
1. Spatial soil information systems and spatial soil inference systems: perspectives for digital soil mapping
P. Lagacherie & A.B. McBratney
B. Digital soil mapping: current state and perspectives
2. A review of digital soil mapping in Australia
Elisabeth
Bui
3. The state of the art of Brazilian soil mapping and prospects for digital soil mapping
Lou Mendonca et al.
4. The Soil Geographical
Database of Eurasia at scale 1:1 000 000: history and perspective in digital soil mapping Joel Daroussin, Dominique King, Christine
Le Bas, Borut Vrscaj & Luca Montanarella
5. Developing a Digital Soil Map for Finland. Harri Lilja & Raimo Nevalainen
C. Conception
and handling of soil databases
6. Adapting soil mapping practices to the proposed EU INSPIRE directive.
Jean Dusart
7. Storage,
maintenance and extraction of digital soil data
Craig Feuerherdt, Nathan Robinson & Steve Williams
8. Towards a soil information system
for uncertain data.
Gerard Heuvelink & James Brown
9. The development of a quantitative procedure for soilscape delineation using digital
elevation data for Europe.
Endre Dobos & Luca Montanarella
10. Ontology-based multi-source data integration for digital soil mapping
.Bart Krol, David Rossiter & Wouther Siderius
D. Sampling methods for creating digital soil maps
11. Optimization of sample configurations
for digital mapping of soil properties with
universal kriging
Gerard B.M. Heuvelink, D.J. Brus & J.J. de Gruijter
12. Latin hypercube
sampling as a tool for digital soil mapping
Budiman Minasny & Alex. B. McBratney
13. Methodology for using secondary information in
sampling optimisation for making fine-resolution maps of soil organic carbon
Achim Dobermann & Gregorio C. Simbahan
14. Designing spatial
coverage samples using the k-means clustering algorithm
D.J Brus, J.J. de Gruijter & J.W. Van Groenigen
15. Adequate prior sampling
is everything: lessons from the Ord River basin, Australia.
Elisabeth Bui, David Simon, Noel Schoknecht & Alan Payne
E. New environmental
covariates for digital soil mapping
16. The use of airborne gamma-ray imagery for mapping soils and understanding landscape processes
John Wilford & Brian Minty
17. Visible-NIR hyperspectal imagery for discriminating soil types in the la Peyne watershed, France
J.S.
Madeira Netto, J.-M. Robbez-Masson & E. Martins
18. Land-cover classification from Landsat imagery for mapping dynamic wet and saline
soils
S. Kienast-Brown & J.L. Boettinger
19.. Producing dynamic cartographic sketches of soilscapes by contextual image processing
in order to improve efficiency of pedological survey
J.-M. Robbez-Masson
20. Conceptual and digital soil-landscape mapping using Regolith-Catenary
Units
Robin N. Thwaites
21. Soil prediction with spatially decomposed environmental factors
M.L. Mendonca-Santos, A.B. McBratney &
B. Minasny
F. Quantitative modelling for digital soil mapping
22. Integrating pedological knowledge into digital soil mapping
C. Walter, P. Lagacherie & S. Follain
23. Decomposing digital soil information by spatial scale
R.M. Lark
24 Digital soil mapping
with improved environmental predictors and models of pedogenesis.
Neil MacKenzie & J. Gallant
F.i : Examples of predicting soil classes
25. A comparison of data-mining techniques in predictive soil mapping.
Thorsten Behrens, Helga Foerster & Thomes Scholten
26. Digital
soil mapping: an England & Wales perspective.
Thomas Mayr & Robert Palmer
27. Pedogenic Understanding Raster Classification Methodology
for Mapping Soils, Powder River Basin, Wyoming, USA Nephi Cole & Janis Boettinger
28. Incorporating Classification Trees into a Pedogenic
Understanding Raster Classification Methodology, Green River Basin, Wyoming, USA Amy Saunders & Janis Boettinger
29. Rule-based land-unit
mapping of the Tiwi Islands, Northern Territory, Australia. Ian Hollingsworth, Elisabeth Bui, Inakwu Odeh, John Ludwig & P. McLeod
30.
A test of an artificial neural network allocation procedure using the Czech Soil Survey of Agricultural Land data.
Lubos Boruvka &
Vit Penizek
31. Comparison of approaches for automated soil identification.
Christoph Albrecht, Bernd Huwe & Reinhold Jahn
F.ii :
Examples of predicting soil attributes
32. Digital mapping of soil attributes for regional and catchment modelling, using covariates,
and statistical and geostatistical techniques
Inakwu O.A. Odeh, Mark Crawford & Alex. B. McBratney
33. Comparing discriminant analysis
with binomial logistic regression, regression kriging and multi-indicator kriging for mapping salinity risk in northwest New South Wales,
Australia
James A. Taylor & Inakwu O.A. Odeh
34. Fitting soil property spatial distribution models in the Mojave Desert for digital
soil mapping D. Howell, Y. Kim, C. Haydu-Houdeshell, P. Clemmer, R. Almaraz & M. Ballmer
35. The spatial distribution and variation
of available P in agricultural topsoil in England & Wales in 1971, 1981, 1991 and 2001
Samantha Baxter, Margaret Oliver & John R. Archer
36. The population of a 500-m resolution soil organic matter spatial information system for Hungary
E. Dobos, E. Micheli & L. Montanarella
37. Regional organic carbon storage maps of the western Brazilian Amazon based on prior soil maps and geostatistical interpolation
M. Bernoux, D. Arrouays, C. E. P. Cerri & C. C. Cerri
38. Improving the spatial prediction of soils at local and regional levels
through a better understanding of soil-landscape relationships: soil hydromorphy in the Armorican Massif of Western France
V. Chaplot & C. Walter
G Quality assessment and representation of digital soil maps
39. Quality assessment of digital soil maps: producers
and users perspectives.
Peter Finke
40. Using soil covariates to evaluate and represent the fuzziness of soil map boundaries
M.H. Greve & M.B. Greve
41 The display of digital soil data, 1976-2004.
Peter Burrough
42 Are Current Scientific Visualization and Virtual
Reality Techniques Capable to Represent Real Soil-Landscapes?
Sabine Grunwald, Vinay Ramasundaram, Nicholas B. Comerford & Christine
M. Bliss
| Bibliographic details |
Hardbound, 658 pages, publication date: DEC-2006
ISBN-13: 978-0-444-52958-9
ISBN-10: 0-444-52958-6
Imprint: ELSEVIER
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Last update: 5 Sep 2009
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