Valorization of Agro-Industrial Wastes as Organic Amendments to Reduce Herbicide Leaching into Soil.

IF 4.4 Q1 TOXICOLOGY

Journal of Xenobiotics Pub Date : 2025-06-30 DOI:10.3390/jox15040100

Gabriel Pérez-Lucas, Andrea Martínez-Zapata, Simón Navarro

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引用次数: 0

Abstract

High levels of pesticide use are associated with intensive crop production. Pesticides are increasingly prevalent in surface and groundwater, which is a major environmental concern. Various methods have been proposed to improve the retention and/or degradation of pesticides in soils. These methods are mainly based on soil adaptation with organic wastes to mitigate soil and water pollution. In addition, there has recently been increased interest in assessing the influence of organic waste additions on pesticide movement in soils with low contents of organic matter. Agriculture and related industries generate large amounts of waste each year. Because of their components, they have the great ability to produce high-value products for environmental restoration. This study reports on the influence of four different agro-industrial wastes (orange peel, beer bagasse, grape pomace, and gazpacho waste) used as organic amendments on the leaching of metobromuron and chlorbromuron (phenylurea herbicides) on a silty clay loam soil (gypsic-calcaric regosol) with low organic matter contents from a semiarid area (southeastern Spain). The adsorption, leaching, and dissipation processes of these herbicides were evaluated on a laboratory scale in amended and unamended soils. In addition, the main leaching indices (GUS, LIX, LEACH, M LEACH, LIN, GLI, HI, and ELI) commonly used to assess groundwater protection against pesticide pollution were evaluated. The sorption coefficients (K_OC) increased in the amended soils. Metobromuron was found in leachates in all cases, although a marked reduction was observed in amended soils, while chlorbromuron was mainly retained in soils, especially in the top layer. The disappearance time (DT₅₀) for metobromuron and chlorbromuron in soil ranged from 11 to 56 d and 18 to 95 d, respectively. All indices except GLI categorize metobromuron as mobile or very mobile in unamended soil. For chlorbromuron, GUS, LIX, LEACH, MLEACH, and Hornsby classify this compound as a medium-to-high leache, while GLI and ELI classify it as having low mobility. In amended soils, most indices classify metobromuron as transitioning to mobile, while most indices catalog chlorbromuron as immobile/transition.

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农业工业废弃物作为有机改良剂的增值作用以减少除草剂的土壤淋滤。

农药的大量使用与集约化作物生产有关。农药在地表水和地下水中越来越普遍，这是一个主要的环境问题。已经提出了各种方法来改善农药在土壤中的保留和/或降解。这些方法主要是基于有机废物对土壤的适应，以减轻土壤和水污染。此外，最近人们对评估有机废物添加对低有机质土壤中农药运动的影响越来越感兴趣。农业及相关产业每年产生大量废弃物。由于它们的成分，它们有很大的能力生产高价值的产品，用于环境修复。本研究报告了四种不同的农业工业废物（橙皮、啤酒甘蔗渣、葡萄渣和西班牙浓汤废物）作为有机改进剂对metobromuron和chlorbromuron（苯脲类除草剂）在半干旱地区（西班牙东南部）低有机质含量的粉质粘土壤土（石膏-钙质regosol）上浸出的影响。在实验室尺度上评价了这些除草剂在改良和未改良土壤中的吸附、淋溶和消散过程。此外，还对常用的地下水农药污染防护评价指标GUS、LIX、LEACH、M LEACH、LIN、GLI、HI和ELI进行了评价。土壤的吸附系数（KOC）增加。在所有情况下，渗滤液中都发现了溴甲烷，但在改良土壤中发现溴甲烷明显减少，而氯溴甲烷主要保留在土壤中，特别是在表层。土壤中臭溴隆和氯溴隆的消失时间（DT50）分别为11 ~ 56 d和18 ~ 95 d。除GLI指数外，所有指数均将未改良土壤中的土腐殖层划分为可动或极可动。对于氯溴酮，GUS， LIX， LEACH， MLEACH和Hornsby将该化合物归类为中高滤出物，而GLI和ELI将其归类为低迁移率。在改良土壤中，大多数指标将褐变菌分类为过渡到活动状态，而大多数指标将褐变菌分类为不活动/过渡状态。

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来源期刊

Journal of Xenobiotics TOXICOLOGY-

CiteScore

5.30

自引率

1.70%

发文量

审稿时长

10 weeks

期刊介绍： The Journal of Xenobiotics publishes original studies concerning the beneficial (pharmacology) and detrimental effects (toxicology) of xenobiotics in all organisms. A xenobiotic (“stranger to life”) is defined as a chemical that is not usually found at significant concentrations or expected to reside for long periods in organisms. In addition to man-made chemicals, natural products could also be of interest if they have potent biological properties, special medicinal properties or that a given organism is at risk of exposure in the environment. Topics dealing with abiotic- and biotic-based transformations in various media (xenobiochemistry) and environmental toxicology are also of interest. Areas of interests include the identification of key physical and chemical properties of molecules that predict biological effects and persistence in the environment; the molecular mode of action of xenobiotics; biochemical and physiological interactions leading to change in organism health; pathophysiological interactions of natural and synthetic chemicals; development of biochemical indicators including new “-omics” approaches to identify biomarkers of exposure or effects for xenobiotics.