New insights into arsenic and cadmium distribution and origin in paddy soils using electrical resistivity tomography

New insights into arsenic and cadmium distribution and origin in paddy soils using electrical resistivity tomography

In-situ geophysical techniques based on electrical resistivity tomography were performed to determine the spatial and temporal distribution of heavy metals. This paper aimed to pursue a novel methodology consisting in combining electrical resistivity tomography measurements, soil chemical data, and...

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Bibliographic Details
Published in:Journal of applied geophysics Vol. 202; p. 104638
Main Authors: Chaali, Nesrine, Bravo, Daniel, Ouazaa, Sofiane, Jaramillo-Barrios, Camilo Ignacio, Beltrán-Medina, Jose Isidro, Serralde-Ordoñez, Diana Paola, Benavides-Erazo, Javier
Format: Journal Article
Language:English
Published: Elsevier B.V 01-07-2022
Subjects:
Electrical resistivity tomography
Paddy soil
Soil chemical parameters
Spatial distribution
Spearman correlation
Soil chemical parameters
Electrical resistivity tomography
Spearman correlation
Spatial distribution
Paddy soil
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Summary:In-situ geophysical techniques based on electrical resistivity tomography were performed to determine the spatial and temporal distribution of heavy metals. This paper aimed to pursue a novel methodology consisting in combining electrical resistivity tomography measurements, soil chemical data, and statistical analysis to predict As and Cd distribution in paddy soils. The resistivity surveys were performed at 2 m depth in nine locations of Tolima district in Colombia. Chemical concentrations of both As and Cd were introduced in a standardization procedure to estimate their electrical resistivity values. Soil and fertilizers information were acquired to determine As and Cd input in the studied area. The laboratory standardization showed a direct linear regression for Cd and an inverse one for As. A high positive Spearman correlation between electrical resistivity and As / Cd content was determined, with 0.98 and 0.99 values, respectively. Results showed that As-like compounds were distributed mainly in shallower soil layers (0.45 m) and were characterized by lower electrical resistivity values (181–2318 Ω.m). On the contrary, Cd-like compounds were observed in a deeper profile (0.80 m) with higher electrical resistivity values (559–4879 Ω.m). This work underlies the utility of the combined geophysical techniques, soil chemical parameters and statistical analysis to improve the understanding of As and Cd dynamics and origin in topsoil, supporting the need of an agricultural management of paddy soils. [Display omitted] •ERT allowed estimating As and Cd-like compounds spatial distribution in topsoil.•High positive Spearman correlation between ρA and As and Cd content.•ERT may help in decision making about heavy metals remedy in agricultural soils.
ISSN:0926-9851
1879-1859
DOI:10.1016/j.jappgeo.2022.104638