Treated Wastewater Affects the Fertility and Geochemistry of Degraded Soil in the Brazilian Semi-Arid Region

Treated Wastewater Affects the Fertility and Geochemistry of Degraded Soil in the Brazilian Semi-Arid Region

Projections for the Brazilian semi-arid (BSA) region estimate a reduction in water bodies and an increase in degraded areas. Recovering degraded soils using treated wastewater (TWW) is a strategy to increase the resilience of the local population to these climatic adversities. This study aimed to ev...

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Main Authors: Victor Junior Lima Felix, Salomão de Sousa Medeiros, Rodrigo Santana Macedo, Cristiano dos Santos Sousa, Renato Francisco da Silva Souza, Vânia da Silva Fraga, Alexandre Pereira Bakker, Robson Vinício dos Santos, Bruno de Oliveira Dias, Milton César Costa Campos
Format: Article
Language:English
Published: MDPI AG 2025-03-01
Series:Agronomy
Subjects:
wastewater reuse
Caatinga dry forest
soil geochemistry
soil fertility
solodic soils
illitization
Online Access:https://www.mdpi.com/2073-4395/15/3/721
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Summary:Projections for the Brazilian semi-arid (BSA) region estimate a reduction in water bodies and an increase in degraded areas. Recovering degraded soils using treated wastewater (TWW) is a strategy to increase the resilience of the local population to these climatic adversities. This study aimed to evaluate the impact of deficit irrigation with treated effluent on the (geo)chemistry of degraded soil in the BSA. An experiment with the application of TWW was conducted on soil degraded within an agroforestry system. The treatments arranged in randomized block design were WS<sub>0.5</sub> (water supply at 0.5 L/plant/week), TE<sub>0.5</sub> (treated effluent at 0.5 L/plant/week), and TE<sub>1</sub> (treated effluent at 1 L/plant/week). Soil samples were collected (0–15 and 15–30 cm) at the initial condition, after two years of irrigation, and two years after the end of irrigation. Analyses of chemicals and geochemicals were carried out. All treatments increased soil fertility after two years in both layers, with TE<sub>1</sub> resulting in higher Ca<sup>2+</sup> (0–15 cm: 2.88; 15–30; 3.14; cmolc kg<sup>−1</sup>), Mg<sup>2+</sup> (0–15 cm: 2.13; 15–30; 2.00; cmolc kg<sup>−1</sup>), and K<sup>+</sup> (0–15 cm: 0.11; 15–30; 0.12; cmolc kg<sup>−1</sup>), generating a residual effect two years post-irrigation suspension and no risk of salinization. However, TE<sub>1</sub> and mainly TE<sub>0.5</sub> showed an increase in sodium content, making the soil solodic (6–11%). The application of TWW changed the CaO, MgO, and K<sub>2</sub>O contents of silt fraction, contributing to the availability of Ca, Mg, and K in soils. Future studies should monitor sodium levels and confirm K-bearing phyllosilicate (illitization) after irrigation with TWW. The application of TWW for a short period (two years) and in small volumes (0.5 L/plant/week) affects (geo)chemistry of degraded soil from the BSA.
ISSN:2073-4395

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