Cristián Raziel Delgado-González scite author profile

Potable and good-quality drinking water availability is a serious global concern, since several pollution sources significantly contribute to low water quality. Amongst these pollution sources, several are releasing an array of hazardous agents into various environmental and water matrices. Unfortunately, there are not very many ecologically friendly systems available to treat the contaminated environment exclusively. Consequently, heavy metal water contamination leads to many diseases in humans, such as cardiopulmonary diseases and cytotoxicity, among others. To solve this problem, there are a plethora of emerging technologies that play an important role in defining treatment strategies. Phytoremediation, the usage of plants to remove contaminants, is a technology that has been widely used to remediate pollution in soils, with particular reference to toxic elements. Thus, hydroponic systems coupled with bioremediation for the removal of water contaminants have shown great relevance. In this review, we addressed several studies that support the development of phytoremediation systems in water. We cover the importance of applied science and environmental engineering to generate sustainable strategies to improve water quality. In this context, the phytoremediation capabilities of different plant species and possible obstacles that phytoremediation systems may encounter are discussed with suitable examples by comparing different mechanistic processes. According to the presented data, there are a wide range of plant species with water phytoremediation potential that need to be studied from a multidisciplinary perspective to make water phytoremediation a viable method.

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Microorganism rhizosphere interactions and their impact on the bioremediation of saline soils: a review

Delgado-González

Madariaga-Navarrete

Rodríguez-Laguna

et al. 2022

Int. J. Environ. Sci. Technol.

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Caracterización fisicoquímica de suelos salinos agrícolas, en la localidad de Chicavasco, estado de Hidalgo, México

et al. 2022

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Los suelos agrícolas salinos tienen altas concentraciones de sales solubles (cloruro de sodio), que afectan el crecimiento de cultivos, al disminuir la asimilación de nutrientes y la actividad microbiana. Las plantas pueden ser tolerantes a la salinidad del suelo, pero dependen de algunas propiedades como textura, conductividad eléctrica, pH, entre otros. Este trabajo evaluó un suelo agrícola erosionado por salinidad, mediante parámetros físicos y químicos, para proponer un proceso biológico de recuperación. Los resultados mostraron alto contenido de sodio (2750 ppm), pH de 8.2, conductividad eléctrica de 8.5 dS/m y 19.89 de sodio intercambiable (ESP).Por esta razón, se puede clasificar como un suelo salino-sódico, además los altos valores de pH y conductividad eléctrica infieren baja disponibilidad de algunos micronutrientes, dificultando la absorción de estos a los cultivos. Las características fisicoquímicas del suelo refieren un suelo con baja fertilidad y poca probabilidad para el desarrollo vegetal.

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