Toxicity of atrazine to Scenedesmus quadricauda under different nitrogen concentrations

Chia, Mathias Ahii; Dauda, Suleiman; Jibril, Talatu Zainab

doi:10.1007/s12665-016-5766-3

Cited by 7 publications

(2 citation statements)

References 42 publications

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“…The contaminants cocktail was designed from the main compounds identified and analysed in sediment elutriate (Table S1, supplementary materials) in order to assess the toxic effects of these contaminants without confounding chemical factors, nutrients and/or dissolved organic matter that are released during sediment resuspension (Pringault et al, 2016). Nutrients and organic matter are known to strongly mitigate the toxicity of pesticides and TME against microorganisms, mainly attributed to a decrease of contaminant bioavailability by adsorption on dissolved organic matter (Boyd et al, 2005;Coquillé et al, 2018;Lorenzo et al, 2002) and changes in the nutrient status, toxicity increasing under nutrient limitation (Chia et al, 2016;Miao and Wang, 2006). For offshore waters, spiking with pesticides and MTE resulted in an inhibition of phytoplankton biomass as well as a reduction of metabolic activities involved in the carbon cycle (PP and BCD).…”

Section: Impact Of Contamination On Diversity and Functionmentioning

confidence: 99%

Impacts of chemical contamination on bacterio-phytoplankton coupling

et al. 2020

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Phytoplankton and bacterioplankton are the key components of the organic matter cycle in aquatic ecosystems, and their interactions can impact the transfer of carbon and ecosystem functioning. The aim of this work was to assess the consequences of chemical contamination on the coupling between phytoplankton and bacterioplankton in two contrasting marine coastal ecosystems: lagoon waters and offshore waters. Bacterial carbon demand was sustained by primary carbon production in the offshore situation, suggesting a tight coupling between both compartments. In contrast, in lagoon waters, due to a higher nutrient and organic matter availability, bacteria could rely on allochthonous carbon sources to sustain their carbon requirements, decreasing so the coupling between both compartments.Exposure to chemical contaminants, pesticides and metal trace elements, resulted in a significant inhibition of the metabolic activities (primary production and bacterial carbon demand) involved in the carbon cycle, especially in offshore waters during spring and fall, inducing a significant decrease of the coupling between primary producers and heterotrophs. This coupling loss was even more evident upon sediment resuspension for both ecosystems due to the important release of nutrients and organic matter. Resulting enrichment alleviated the toxic effects of contaminants as indicated by the stimulation of phytoplankton biomass and carbon production, and modified the composition of the phytoplankton community, impacting so the interactions between phytoplankton and bacterioplankton.

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Section: Impact Of Contamination On Diversity and Functionmentioning

confidence: 99%

Impacts of chemical contamination on bacterio-phytoplankton coupling

et al. 2020

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“…Nevertheless, the concomitant release of nutrients and dissolved organic matter with toxic compounds (pesticides and trace metal elements) upon sediment resuspension can alleviate the potential toxicity of the toxic elements (Pringault et al, 2016), nutrients and organic matter are known to decrease the toxicity of trace metal elements (Anu et al, 2018;Huang et al, 2016) or pesticides for phytoplankton (Chia et al, 2016;Coquillé et al, 2018). The structure and diversity of phytoplankton (Lafabrie et al, 2013) and bacterioplankton (Pringault et al, 2016) can be strongly impacted by sediment resuspension in shallow waters with significant consequences on the primary production as well on the microbial biomass (Ding et al, 2017;McSweeney et al, 2017;Pringault et al, 2016).…”

Section: Impact Of the Sediment Elutriate On Water Compositionmentioning

confidence: 99%

Seasonal changes of chemical contamination in coastal waters during sediment resuspension

et al. 2019

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The potential of remobilization of pollutants is a major problem for anthropogenic ecosystems, because even when the anthropogenic source of pollution is identified and removed, pollutants stored in sediments can be released into the water column and impact pelagic communities during sediment resuspension provoked by dredging, storms or bottom trawling. The objectives of the present study were to assess the changes observed in the chemical composition of the water column following resuspension of a polluted marine sediment and the consequences for the chemical composition of adjacent marine waters according to season. For that purpose, an experimental sediment resuspension protocol was performed on four distinct occasions, spring, summer, fall and winter, and the changes in nutrients, organic contaminants and inorganic contaminants were measured after mixing sediment elutriate with lagoon waters and offshore waters sampled nearby. Significant seasonal variations in the chemical composition of the contaminated sediments were observed, with a strong accumulation of PAHs in fall, whereas minimum PAH concentrations were observed during winter. In all seasons, sediment resuspension provoked a significant enrichment in nutrients, dissolved organic carbon, and trace metal elements like Ni, Cu, and Zn in offshore waters and lagoon waters, with enrichment factors that were season and site dependent. The most pronounced changes were observed for offshore waters, especially in spring and winter, whereas the chemical composition of lagoon waters was weakly impacted by the compounds supplied by sediment resuspension.

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