Freshwater dissolved oxygen dynamics: changes due to glyphosate, 2,4-D, and their mixture, both under clear and turbid-organic conditions

IF 2.2 3区生物学 Q1 MARINE & FRESHWATER BIOLOGY

Hydrobiologia Pub Date : 2024-06-10 DOI:10.1007/s10750-024-05594-3

V. L. Lozano, C. E. Miranda, A. L. Vinocur, C. A. Sabio y García, M. S. Vera, C. González, M. J. Wolansky, H. N. Pizarro

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Abstract

To evaluate the effect of glyphosate, 2,4-D, and their combination on daily dissolved oxygen saturation percentage (DO%) in freshwater, two separate outdoor mesocosm experiments were performed. The experiments were conducted under contrasting conditions: one in clear mesotrophic status lasting 23 days, and the other in organic turbid eutrophic conditions lasting 21 days. Single concentrations were applied as commercial formulations at two levels. Samples of phytoplankton (micro + nano, picoeukaryotes, picocyanobacteria), mixotrophic algae, and heterotrophic bacteria were analyzed at four sampling dates. Increases in DO levels were consistently observed in both clear and turbid systems treated with glyphosate, either alone or in combination with 2,4-D, suggesting that DO is a sensitive indicator. DO increased in all glyphosate treatments. DO increases reflected different changes in phytoplankton communities, increasing with micro + nano phytoplankton abundance in the clear experiment but with increased picocyanobacteria in the turbid. In contrast, 2,4-D reduced DO levels, but only in the turbid system, where micro + nano phytoplankton abundance decreased. The clear system showed greater resilience by restoring DO levels before the turbid one. Mainly additive effects of the herbicide mixture were observed on dissolved oxygen levels (DO%), but a distinct synergistic decrease was detected within turbid systems, underscoring the importance of considering turbidity as a contributing factor in the freshwater impacts of herbicides.

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淡水溶解氧动力学：草甘膦、2,4-D 及其混合物在清澈和浑浊有机物条件下的变化

为了评估草甘膦、2,4-D 及其组合对淡水中每日溶解氧饱和度百分比（DO%）的影响，我们分别进行了两次室外中观试验。实验在截然不同的条件下进行：一个是在清澈的中营养状态下持续 23 天，另一个是在有机浑浊的富营养化状态下持续 21 天。实验采用了两种浓度的单一浓度商业配方。在四个取样日期对浮游植物（微小+纳米、微小核藻、微小蓝藻）、混养藻类和异养细菌样本进行了分析。在单独使用草甘膦或与 2,4-D 混合使用草甘膦处理的清澈和浑浊系统中，都持续观察到溶解氧水平的增加，这表明溶解氧是一个敏感指标。在所有草甘膦处理中，溶解氧都有所增加。溶解氧的增加反映了浮游植物群落的不同变化，在清澈的实验中，随着微米级和纳米级浮游植物丰度的增加，溶解氧也随之增加；而在浑浊的实验中，随着微囊藻的增加，溶解氧也随之增加。相比之下，2,4-D 会降低溶解氧水平，但仅限于浑浊系统，因为在浑浊系统中微型和纳米浮游植物的丰度会降低。清澈系统比浑浊系统更能恢复溶解氧水平。除草剂混合物对溶解氧水平（DO%）的影响主要是叠加效应，但在浑浊系统中发现了明显的协同降低效应，这强调了将浑浊度视为除草剂对淡水影响的一个促成因素的重要性。

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来源期刊

Hydrobiologia 生物-海洋与淡水生物学

CiteScore

5.40

自引率

11.50%

发文量

288

审稿时长

4.9 months

期刊介绍： Hydrobiologia publishes original research, reviews and opinions regarding the biology of all aquatic environments, including the impact of human activities. We welcome molecular-, organism-, community- and ecosystem-level studies in contributions dealing with limnology and oceanography, including systematics and aquatic ecology. Hypothesis-driven experimental research is preferred, but also theoretical papers or articles with large descriptive content will be considered, provided they are made relevant to a broad hydrobiological audience. Applied aspects will be considered if firmly embedded in an ecological context.