Digital mapping of soil classes in Southeast Brazil: environmental covariate selection, accuracy, and uncertainty

DSM has been used to meet the demand for soil information over large areas in more detailed resolution consuming less time. Soil-forming factors proxies (environmental covariates) are crucial to increase accuracy and provide new insights about the soil-landscape. DSM of the southern region of Minas...

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Published inJournal of South American earth sciences Vol. 132; p. 104640
Main Authors Carvalho Monteiro, Maria Eduarda, Avalos, Fábio Pomar, Procópio Pelegrino, Marcelo Henrique, Brito Vilela, Raísa, Weimar Acerbi Júnior, Fausto, Bueno, Inácio Thomaz, Li, Nan, Godinho Silva, Sérgio Henrique, Giasson, Elvio, Curi, Nilton, Duarte de Menezes, Michele
Format Journal Article
LanguageEnglish
Published Elsevier Ltd 01.12.2023
Subjects
Gamma-ray spectrometry
Geophysics
Paleoclimate
Pedometrics
RR
PV
LS
RY
NV
LV
NX
MDA
OF
Red-Yellow Latosol
MESS
DSM
OOB
CH
GM
Geophysics
Gamma-ray spectrometry
Pedometrics
DEM
PA
NB
CX
LA
CY
LB
Paleoclimate
PVA
RL
SRTM
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Summary:DSM has been used to meet the demand for soil information over large areas in more detailed resolution consuming less time. Soil-forming factors proxies (environmental covariates) are crucial to increase accuracy and provide new insights about the soil-landscape. DSM of the southern region of Minas Gerais state (52,982 km2) was generated. Soil profiles that comprise the legacy of decades of pedological surveys were gathered and associated with new (paleoclimatic, organic carbon, and airborne gamma-ray spectrometry) or less explored (digital terrain and climatic variables) environmental covariates under tropical conditions. An iterative routine of soil modeling, accuracy, uncertainty (entropy and MESS) assessment, and discussions concerning soil legacy was performed to equate pattern recognition with knowledge discovery from the random forest algorithm. The soil map was generated with 89% accuracy. The probability maps of the occurrence of the soil classes allowed soil-landscape insights. Less than 0.5% of the areas showed negative MESS, indicating an adequate representation of the soil samples concerning the environmental covariates. The most important environmental covariates were geophysical airborne gamma-ray spectrometry (K and eTh), distance from drainage channels, and paleoclimate (precipitation estimated from 22,000 years ago) consistent with the polygenetic soils. •Knowledge-discover routine reveals relevant environmental covariates and mapped soil.•A novel soil map for a large region was accurately generated from random forest.•Soil profiles represent well the set of environmental covariates proposed.•Geophysics, relief, and paleoclimate were the most important environmental covariates.•Paleoclimate was most important than the current climate in mapping soils.
ISSN:0895-9811
1873-0647
DOI:10.1016/j.jsames.2023.104640