Transferability, accuracy, and uncertainty assessment of different knowledge-based approaches for soil types mapping

Soil legacy data are important sources of soil information, especially when dealing with limited resources. In countries with high geographical diversity and few financial resources, such as Brazil, they represent an economical alternative to obtaining soil spatial information in higher resolution....

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Published inCatena (Giessen) Vol. 182; p. 104134
Main Authors Machado, Diego Fernandes Terra, de Menezes, Michele Duarte, Silva, Sérgio Henrique Godinho, Curi, Nilton
Format Journal Article
LanguageEnglish
Published Elsevier B.V 01.11.2019
Subjects
Brazil
Digital soil mapping
entropy
Fuzzy logic
Knowledge-driven
Legacy data
Soil survey
soil surveys
soil types
spatial data
U.S. Soil Taxonomy
uncertainty
Brazil
Soil survey
SWI
Digital soil mapping
DEM
SAGA
SIE
UTM
Legacy data
GIS
MUP -30
HX
DT
Fuzzy logic
MUP -20
VDCN
RF
TI
Knowledge-driven
AX
MRRTF
MUe
UT
Online AccessGet full text
ISSN0341-8162
1872-6887
DOI10.1016/j.catena.2019.104134

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Abstract Soil legacy data are important sources of soil information, especially when dealing with limited resources. In countries with high geographical diversity and few financial resources, such as Brazil, they represent an economical alternative to obtaining soil spatial information in higher resolution. By retrieving the soil scientist's knowledge, it can be used as guidance for knowledge-based digital soil mapping approaches. In this sense, this work aimed to evaluate Rule-Based Reasoning and Case-Based Reasoning knowledge-based approaches to predict soil types up to the third categorical level (U.S Soil Taxonomy) in a non-sampled area, by retrieving and then extrapolating the information of a detailed soil legacy map, from a reference area. The study was carried out in Minas Gerais state, Southeastern Brazil. The methodology includes three main steps: i) knowledge acquisition; ii) soil inference; and iii) accuracy and uncertainty assessment. For the validation, 23 independent samples were chosen by means of the Regional Random method, and the accuracy was assessed by Kappa index, Overall Accuracy, Users', and Producers' Accuracy. The uncertainty was evaluated through entropy and exaggeration. A total of 24 inference models were obtained with the Case-Based Reasoning approach, in which the best model had an overall accuracy of 61% and a Kappa index of 0.52. The Rule-based reasoning approach performed better, with an overall accuracy of 82% and 0.75 for Kappa index. These approaches generated a higher accuracy soil map for an unmapped area that was 15 times larger than the reference area and at lower cost. •The terrain surface texture was useful to discriminate Oxisols from Inceptisols.•Hapludoxes and Acrudoxes are strongly related within similar morphometric features.•The greater uncertainty was located between morphological transitions.•To reduce the polygon area increased the uncertainty of predictions for CBR.•The extrapolation of soil type information was successfully achieved by using the RBR.
AbstractList Soil legacy data are important sources of soil information, especially when dealing with limited resources. In countries with high geographical diversity and few financial resources, such as Brazil, they represent an economical alternative to obtaining soil spatial information in higher resolution. By retrieving the soil scientist's knowledge, it can be used as guidance for knowledge-based digital soil mapping approaches. In this sense, this work aimed to evaluate Rule-Based Reasoning and Case-Based Reasoning knowledge-based approaches to predict soil types up to the third categorical level (U.S Soil Taxonomy) in a non-sampled area, by retrieving and then extrapolating the information of a detailed soil legacy map, from a reference area. The study was carried out in Minas Gerais state, Southeastern Brazil. The methodology includes three main steps: i) knowledge acquisition; ii) soil inference; and iii) accuracy and uncertainty assessment. For the validation, 23 independent samples were chosen by means of the Regional Random method, and the accuracy was assessed by Kappa index, Overall Accuracy, Users', and Producers' Accuracy. The uncertainty was evaluated through entropy and exaggeration. A total of 24 inference models were obtained with the Case-Based Reasoning approach, in which the best model had an overall accuracy of 61% and a Kappa index of 0.52. The Rule-based reasoning approach performed better, with an overall accuracy of 82% and 0.75 for Kappa index. These approaches generated a higher accuracy soil map for an unmapped area that was 15 times larger than the reference area and at lower cost.
Soil legacy data are important sources of soil information, especially when dealing with limited resources. In countries with high geographical diversity and few financial resources, such as Brazil, they represent an economical alternative to obtaining soil spatial information in higher resolution. By retrieving the soil scientist's knowledge, it can be used as guidance for knowledge-based digital soil mapping approaches. In this sense, this work aimed to evaluate Rule-Based Reasoning and Case-Based Reasoning knowledge-based approaches to predict soil types up to the third categorical level (U.S Soil Taxonomy) in a non-sampled area, by retrieving and then extrapolating the information of a detailed soil legacy map, from a reference area. The study was carried out in Minas Gerais state, Southeastern Brazil. The methodology includes three main steps: i) knowledge acquisition; ii) soil inference; and iii) accuracy and uncertainty assessment. For the validation, 23 independent samples were chosen by means of the Regional Random method, and the accuracy was assessed by Kappa index, Overall Accuracy, Users', and Producers' Accuracy. The uncertainty was evaluated through entropy and exaggeration. A total of 24 inference models were obtained with the Case-Based Reasoning approach, in which the best model had an overall accuracy of 61% and a Kappa index of 0.52. The Rule-based reasoning approach performed better, with an overall accuracy of 82% and 0.75 for Kappa index. These approaches generated a higher accuracy soil map for an unmapped area that was 15 times larger than the reference area and at lower cost. •The terrain surface texture was useful to discriminate Oxisols from Inceptisols.•Hapludoxes and Acrudoxes are strongly related within similar morphometric features.•The greater uncertainty was located between morphological transitions.•To reduce the polygon area increased the uncertainty of predictions for CBR.•The extrapolation of soil type information was successfully achieved by using the RBR.
ArticleNumber 104134
Author Silva, Sérgio Henrique Godinho
Machado, Diego Fernandes Terra
de Menezes, Michele Duarte
Curi, Nilton
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Keywords Soil survey
SWI
Digital soil mapping
DEM
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SIE
UTM
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GIS
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Fuzzy logic
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Snippet Soil legacy data are important sources of soil information, especially when dealing with limited resources. In countries with high geographical diversity and...
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SubjectTerms Brazil
Digital soil mapping
entropy
Fuzzy logic
Knowledge-driven
Legacy data
Soil survey
soil surveys
soil types
spatial data
U.S. Soil Taxonomy
uncertainty
Title Transferability, accuracy, and uncertainty assessment of different knowledge-based approaches for soil types mapping
URI https://dx.doi.org/10.1016/j.catena.2019.104134
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Volume 182
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