Radiometric approaches with carbon-14-labeled molecules for determining herbicide fate in plant systems

IF 6.2 2区 环境科学与生态学 Q1 ENVIRONMENTAL SCIENCES
Gustavo Vinícios Munhoz-Garcia , Vanessa Takeshita , Camila de Werk Pinácio , Brian Cintra Cardoso , Bruno Dalla Vecchia , Daniel Nalin , Ana Laura Camachos de Oliveira , Leandro Fernando Felix , Valdemar Luiz Tornisielo
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Abstract

Weeds cause economic losses in cropping systems, leading to the use of 1.7 million tons of herbicides worldwide for weed control annually. Once in the environment, herbicides can reach non-target organisms, causing negative impacts on the ecosystem. Herbicide retention, transport, and degradation processes determine their environmental fate and are essential to assure the safety of these molecules. Radiometric strategies using carbon-14 herbicides (14C) are suitable approaches for determining herbicide absorption, translocation, degradation, retention, and transport in soil, plants, and water. In this work, we demonstrate how 14C-herbicides can be used from different perspectives. Our work focused on herbicide-plant-environment interactions when the herbicide is applied (a) through the leaf, (b) in the soil, and (c) in the water. We also quantified the mass balance in each experiment. 14C-mesotrione foliar absorption increased with oil and adjuvant addition (5–6 % to 25–46 %), and translocation increased only with adjuvant. More than 80 % of 14C-quinclorac and 14C-indaziflam remained in the soil and cover crops species absorbed less than 20 % of the total herbicides applied. In water systems, Salvinia spp. plants removed 10–18 % of atrazine from the water. Atrazine metabolism was not influenced by the presence of the plants. The radiometric strategies used were able to quantify the fate of the herbicide in different plant systems and the mass balance varied from 70 % to 130 %. Importantly, we highlight a critical and practical view of tracking herbicides in different matrices. This technique can aid scientists to explore other pesticides as environmental contaminants.

利用碳-14 标记分子的辐射测量法确定除草剂在植物系统中的归宿
杂草给种植系统造成经济损失,导致全球每年使用 170 万吨除草剂来控制杂草。除草剂一旦进入环境,就会接触到非目标生物,对生态系统造成负面影响。除草剂的滞留、迁移和降解过程决定了其在环境中的归宿,对于确保这些分子的安全性至关重要。使用碳-14 除草剂(14C)的辐射测量策略是确定除草剂在土壤、植物和水中的吸收、转移、降解、保留和迁移的合适方法。在这项工作中,我们从不同角度展示了如何使用 14C 除草剂。我们的工作重点是除草剂通过叶片、土壤和水施用时,除草剂-植物-环境之间的相互作用。我们还对每个实验中的质量平衡进行了量化。14C-甲霜灵的叶面吸收率随油和佐剂添加量的增加而增加(从 5-6% 增加到 25-46%),而转运只随佐剂添加量的增加而增加。超过 80% 的 14C-quinclorac 和 14C-indaziflam 残留在土壤中,而覆盖作物物种吸收的除草剂不到施用总量的 20%。在水系中,莎草属植物从水中清除了 10-18% 的阿特拉津。阿特拉津的新陈代谢不受植物存在的影响。所使用的辐射测量策略能够量化除草剂在不同植物系统中的去向,质量平衡从 70% 到 130% 不等。重要的是,我们强调了在不同基质中追踪除草剂的关键和实用观点。这项技术可以帮助科学家探索作为环境污染物的其他杀虫剂。
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来源期刊
CiteScore
12.10
自引率
5.90%
发文量
1234
审稿时长
88 days
期刊介绍: Ecotoxicology and Environmental Safety is a multi-disciplinary journal that focuses on understanding the exposure and effects of environmental contamination on organisms including human health. The scope of the journal covers three main themes. The topics within these themes, indicated below, include (but are not limited to) the following: Ecotoxicology、Environmental Chemistry、Environmental Safety etc.
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