Knowledge-based digital soil mapping for predicting soil properties in two representative watersheds

Menezes, Michele Duarte de; Silva, Sérgio Henrique Godinho; Mello, Carlos Rogério de; Owens, Phillip R.; Curi, Nilton

doi:10.1590/1678-992x-2016-0097

Cited by 13 publications

(2 citation statements)

References 33 publications

(41 reference statements)

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“…In recent years, there was a considerable advance in DSM due to new approaches, among them, powerful predictive algorithms (Beguin et al, 2017;Sindayihebura et al, 2017); models combining machine-learning and geostatistical tools (Poggio and Gimona, 2017a,b); expert knowledge-based methods (Menezes et al, 2014(Menezes et al, , 2018; and high-resolution soil maps (Nussbaum et al, 2017). However, the limiting factor is often the number of soil data used for model calibration (Samuel-Rosa et al, 2015;Somarathna et al, 2017).…”

Section: Introductionmentioning

confidence: 99%

Mapping soil properties in a poorly-accessible area

Costa¹,

Pinheiro²,

Anjos³

et al. 2020

Revista Brasileira De Ciência Do Solo

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Soil maps are important to evaluate soil functions and support decision-making process, particularly for soil properties such as pH, carbon content (C), and cation exchange capacity (CEC), but the spatial resolution and soil depth should meet the needs of users. On another hand, the efficiency of statistical models to create soil maps, with an acceptable level of accuracy, often require a large number of samples with an appropriate distribution across the area of interest. However, accessibility for sampling can be a trouble in remote areas, such as the Itatiaia National Park (INP). The hypothesis of this work is that it is possible to obtain a viable result in soil mapping of areas with limited access by using DSM tools. The general objective of this paper was to create 2-and 3-D maps of the soil properties pH, carbon content, and CEC, with the correspondent spatial uncertainty, in the INP plateau. The sampling strategy was designed using conditioned Latin Hypercube Sample (cLHS), and different methods were tested to produce the soil properties maps. For calibration of the models: linear (MLR, multiple linear regression) and nonlinear (GAM, Generalised Additive Models). The results showed differences in predictive performance for all statistical methods and covariate selection approaches. The GAM, with covariates selection based on soil formation factors, was the best method for the limited number of soil samples. The greatest uncertainty was associated with areas with the lowest accessibility and, consequently, with low sampling density and/or noises in covariates. Even though the 2-and 3-D maps of soil properties, each associated with explicit uncertainty, can contribute to the INP decision makers/ managers by providing information not available before.

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Section: Introductionmentioning

confidence: 99%

Mapping soil properties in a poorly-accessible area

Costa¹,

Pinheiro²,

Anjos³

et al. 2020

Revista Brasileira De Ciência Do Solo

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“…This depends on detailed soil maps which can support decision-making that would avoid processes that lead to soil degradation, such as soil erosion (Kassai;Sisák, 2018). Pedological knowledge, however, is still limited in many tropical developing countries, such as Brazil (Mancini et al, 2019;Menezes et al, 2018;Silva et al, 2014). In the state of Minas Gerais, Brazil, the soil map (UFV, CETEC, UFLA, FEAM, 2010) was elaborated on a 1:650,000 scale, in which the spatial variability of the phenomenon cannot be represented in a detailed way.…”

Section: Introductionmentioning

confidence: 99%

Mapping land use capability in tropical conditions adapting criteria to different levels of agricultural management

Taveira¹,

Menezes

Teixeira

et al. 2018

Ciênc. agrotec.

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Land use capability is one of the most widespread technical-interpretative classification systems, however, regional adaptations may be necessary because different attributes may affect it. For these adaptations, the Minas Gerais soil map was used as the starting point for this study. The criteria to define the land use capability were adapted to management levels with small (level A) and medium (level B) application of capital and modern technology (level C). The aim of the present study was to map land use capability for Minas Gerais state, Brazil, following the criteria adapted to different levels of management and measure the accuracy of the resulting maps. The system of land use capability is widely used by INCRA in evaluations of rural properties. Erosion criterion was replaced by erodibility. The information was handled in a geographic information system. For validation, soil profiles from regional pedological surveys were sampled, classified, and its land use capability was compared to the land use capability shown on the map according to the different management levels. In spite of the small scale of the soil map, the maps of land use capability exhibited adequate accuracy: 73% (management level A), 71% (B), and 50% (C). Therefore, it can be applied in initial phases of regional planning studies, in which the level of details required is reduced (for example, in ecological-economic zoning). More detailed analyses still depend on detailed field surveys, as advocated by the system of land use capability.

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