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Soil magnetic signature for identification of areas with different sorption potentials of imazaquin

It is imperative that the increase in world agricultural production be carried out in a sustainable way, minimizing negative environmental effects caused, among other reasons, by herbicide use. This study aimed to assess the potential of using soil magnetic signature to identify areas with different...

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Published in:	Crop protection 2020-11, Vol.137, p.105295, Article 105295
Main Authors:	Peluco, Rafael Gonçalves, Marques Júnior, José, Siqueira, Diego Silva, Silva, Laércio Santos, Gomes, Romário Pimenta
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Language:	English
Subjects:	Geostatistics Herbicide Magnetic susceptibility Pedotransfer
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creator	Peluco, Rafael Gonçalves Marques Júnior, José Siqueira, Diego Silva Silva, Laércio Santos Gomes, Romário Pimenta
description	It is imperative that the increase in world agricultural production be carried out in a sustainable way, minimizing negative environmental effects caused, among other reasons, by herbicide use. This study aimed to assess the potential of using soil magnetic signature to identify areas with different sorption capacities of the herbicide imazaquin. A total of 374 soil samples were collected at a depth of 0.0–0.25 m from a grid with sampling density of 1 point every 2.4 ha in an area of 908 ha for determining the organic matter, pH, dithionite and oxalate iron contents, clay content, Freundlich sorption coefficient of the herbicide imazaquin, and magnetic susceptibility (MS). The results were submitted to descriptive statistics and Pearson correlation analysis. Regression models were constructed to estimate the Freundlich sorption coefficient of the herbicide imazaquin from MS. The spatial dependence was assessed by geostatistical analysis and spatial pattern maps and cross-variograms were constructed. MS allows an indirect quantification of imazaquin sorption. Soils with higher magnetic expression have higher sorption potential of imazaquin. Soil magnetic signature can assist in mapping and identifying areas with different potentials of herbicide application. •Soils with higher magnetic expression present higher herbicide adsorption potential.•The soil mineralogy controls the herbicide adsorption potential.•Adsorption of herbicide in soil presents spatial variability.•The spatial variability of herbicide in soil can be expressed by soil magnetism.•Pedotransfer function supports agricultural planning of herbicide application.
doi_str_mv	10.1016/j.cropro.2020.105295
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subjects	Geostatistics Herbicide Magnetic susceptibility Pedotransfer
title	Soil magnetic signature for identification of areas with different sorption potentials of imazaquin
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