Variability of soil physical and hydraulic properties along a toposequence in the coastal lowlands of Rio de Janeiro

João Henrique Gaia-Gomes,Geuzimar Terração Silva,Wilk Sampaio De Almeida,Carlos Roberto Pinheiro Junior,Marcos Gervasio Pereira

doi:10.4136/ambi-agua.2579

João Henrique Gaia-Gomes, Geuzimar Terração Silva + Show 3 more

Open Access

https://doi.org/10.4136/ambi-agua.2579

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Abstract

Soil physical and hydraulic properties are interdependent, and soil-use planning and management are complicated by the high variability of these attributes. The current study assessed the variability of physical and hydraulic properties of soils along a toposequence located in a forest fragment under spontaneous regeneration in the coastal lowlands of Rio de Janeiro. Four soil profiles were selected, and samples were collected from surface and subsurface horizons for determination of moisture content, bulk density, macroporosity, microporosity, hydraulic conductivity, texture, and soil resistance to penetration (measured using benchtop and field penetrometers). Exploratory and principal component analyses were performed, and descriptive parameters and Pearson’s correlation coefficients were calculated. In A horizons of profiles 3 (Planossolo) and 4 (Gleissolo), clay contents ranged from 59.0 to 577.0 g kg-1, moisture contents from 1.5 to 16.4%, and microporosity from 10.4 to 46.2%, respectively. Field- and laboratory-measured penetration resistances showed a stronger association with profile 1 (Argissolo); however, values were not sufficiently high to limit root development. The variability in soil physical and hydraulic properties in short slopes is high, mainly in terms of hydraulic conductivity, moisture, microporosity, and clay content. The greater variability of soil physical and hydraulic properties in lowland is attributed to clay and silt fractions, microporosity, and moisture content. The increment in clay content with depth increases bulk density and resistance to root penetration.

Highlights

Our understanding of water flows in natural and anthropized ecosystems depends on the precise characterization of soil hydrological processes (Alagna et al, 2016; Pavão et al, 2019). Because this type of characterization requires a thorough knowledge of soil physical and hydraulic properties, it is essential to determine the variability of these attributes in the environment
The high variability in soil physical and hydraulic attributes can be explained by differences in clay content, microporosity, and silt content in A horizons and clay content, microporosity, and moisture content in B horizons
An increase in clay content with depth leads to an increase in density and penetration resistance

Summary

Introduction

Our understanding of water flows in natural and anthropized ecosystems depends on the precise characterization of soil hydrological processes (Alagna et al, 2016; Pavão et al, 2019). It is of fundamental importance that studies involving the characterization of soils and their potential, as well as the environmental weaknesses in view of the different types of use that can occur in the different segments of landscapes that are special to a particular region. Studies of this nature contribute both to the understanding of fragile ecosystems, constantly occurring to environmental degradation, and to future work to characterize coastal plains (Coelho et al, 2010). When assessing the environmental vulnerability of the coastal plain of Caravelas (BA) as a subsidy to environmental planning, the authors Souza and Vale (2016) concluded that studies like these can be used to guide management policies for coastal areas and contribute to the new occupations and economic and social development are compatible with environmental preservation

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