Mutual impacts and interactions of antibiotic resistance genes, microcystin synthetase genes, graphene oxide, and Microcystis aeruginosa in synthetic wastewater

Wu, Shichao; Ji, Xiyan; Li, Xin; Ye, Jing; Xu, Wenwu; Wang, Rui; Hou, Meifang

doi:10.1007/s11356-021-15627-2

Cited by 10 publications

(15 citation statements)

References 64 publications

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“…This screening revealed eight additional papers. Thus, a total of 39 papers are included in this review, most of which include multifactorial experiments, such as different contaminants, strains, or additional experimental treatments other than contaminants. − …”

Section: Literature Review Methodologymentioning

confidence: 99%

“…This review revealed numerous studies showing that various chemicals often induce hormesis in HAB-forming and toxin-producing cyanobacteria (blue-green algae), in particular, in different strains of Microcystis wesenbergii , and M . aeruginosa . ,,− ,,,− ,− , However, hormetic responses were also revealed in the neurotoxin-producing Anabaena flos-aquae and the bloom-forming haptophyte Prymnesium parvum , which produces the phycotoxin prymnesi . Such hormetic responses were further identified in Synechocystis sp., which may also contribute to bloom formation .…”

Section: Occurrence Of Hormesis In Harmful Algaementioning

confidence: 97%

“…Hormetic responses of HAB-forming and toxin-producing cyanobacteria are induced by many chemicals, such as arsenate, , environmental estrogens, chlorinated organophosphorus flame retardants (Cl-OPFRs), halogenated organic compounds, heavy metals, hydrogen peroxide (algaecide), and the principal compound of yellow dye luteolin and other allelopathic chemicals/algaecides. ,− They were also induced by various antibiotics, ,,− ,,− nanomaterials, polycyclic aromatic hydrocarbons, rare earths, , and several pesticides and disinfectants. ,,,− Hence, hormetic responses represent a universal phenomenon across chemically diverse contaminants. The studies providing such evidence commonly apply environmentally relevant concentrations, demonstrating that realistic concentrations widely enhance harmful algae and the production of microcystins.…”

Section: Occurrence Of Hormesis In Harmful Algaementioning

confidence: 99%

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Low Levels of Contaminants Stimulate Harmful Algal Organisms and Enrich Their Toxins

Agathokleous

Peñuelas

Azevedo

et al. 2022

Environ. Sci. Technol.

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A widespread increase in intense phytoplankton blooms has been noted in lakes worldwide since the 1980s, with the summertime peak intensity amplifying in most lakes. Such blooms cause annual economic losses of multibillion USD and present a major challenge, affecting 11 out of the 17 United Nations Sustainable Development Goals. Here, we evaluate recent scientific evidence for hormetic effects of emerging contaminants and regulated pollutants on Microcystis sp., the most notorious cyanobacteria forming harmful algal blooms and releasing phycotoxins in eutrophic freshwater systems. This new evidence leads to the conclusion that pollution is linked to algal bloom intensification. Concentrations of contaminants that are considerably smaller than the threshold for toxicity enhance the formation of harmful colonies, increase the production of phycotoxins and their release into the environment, and lower the efficacy of algaecides to control algal blooms. The low-dose enhancement of microcystins is attributed to the up-regulation of a protein controlling microcystin release (McyH) and various microcystin synthetases in tandem with the global nitrogen regulator Ycf28, nonribosomal peptide synthetases, and several ATP-binding cassette transport proteins. Given that colony formation and phycotoxin production and release are enhanced by contaminant concentrations smaller than the toxicological threshold and are widely occurring in the environment, the effect of contaminants on harmful algal blooms is more prevalent than previously thought. Climate change and nutrient enrichment, known mechanisms underpinning algal blooms, are thus joined by low-level pollutants as another causal mechanism.

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Section: Literature Review Methodologymentioning

confidence: 99%

Section: Occurrence Of Hormesis In Harmful Algaementioning

confidence: 97%

Section: Occurrence Of Hormesis In Harmful Algaementioning

confidence: 99%

See 1 more Smart Citation

Low Levels of Contaminants Stimulate Harmful Algal Organisms and Enrich Their Toxins

Agathokleous

Peñuelas

Azevedo

et al. 2022

Environ. Sci. Technol.

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“…A further survey of the literature for the purpose of this study revealed ample evidence suggestive of hormesis for numerous aquatic organisms and various pollutants and emerging contaminants in dozens of publications, of which only a few selected examples are cited here (older examples can also be traced in the therein references). These examples include a plethora of species, such as of algae (microphytes) [38][39][40][41][42][43][44][45][46][47][48][49] , aquatic flowering plants [50] , organism-attached biofilms [51] , crustaceans [52][53][54][55][56][57] , cyanobacteria [49,[58][59][60][61] , fishes [62][63][64][65][66][67][68][69] , macrophytes [70][71][72][73][74][75] , marine polychaete [76] , mollusks (e.g., clams and mussels) [77,78] , periphyton [79] , phytoplankton [80] , sea anemones [81,82] , and snails [83] . Responses suggestive of hormesis were found for molecular (molecules...…”

mentioning

confidence: 99%

“…Responses suggestive of hormesis were found for molecular (molecules involved in oxidative stress), cellular (e.g., growth and density), and whole-organism (e.g., growth and body mass) endpoints, as well as endpoints suggesting potential sub-NOAEL effects on organismic interactions, such as via altered feeding activity [83] . Such responses were induced by chemicals such as antibiotics/antifungals [38,39,42,45,50,51,67,70,71,75] , steroid hormones [41,83] , and other human drugs [63,69] , bisphenol A and its substitutes [66] , chemical leached from disposed light sticks [55] , electroplating processemitted particulate matter [40] , effluents from textile-dyeing wastewater treatment plants [46] , fullerene crystals (nC 60 ) [57] , metals and ionic liquids [62,77,81,82] , micro/nanoplastics and their leachates [43,44,47,53,60,64,80,84] , engineered nanomaterials [58,59,61,65] , pesticides [48,49,52,56,[72][73][74]79,84] , phthalic acid esters ...…”

mentioning

confidence: 99%

Contaminants of emerging concern and aquatic organisms: the need to consider hormetic responses in effect evaluations

Agathokleous¹,

Barceló²,

Fatta‐Kassinos³

et al. 2021

WECN

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Contaminants of emerging concern are widespread in the world’s waters, raising concerns regarding their effects on living organisms. To evaluate the effects of and predict risks associated with such chemicals, dose-response studies are needed, while the nature of the dose-response relationship is critical for the outcomes of such evaluations. Here, we summarize the literature reporting hormetic responses of aquatic organisms to contaminants of emerging concern. Hormesis is a biphasic dose response encompassing stimulatory responses to low doses and inhibitory responses to high doses. We demonstrate that it occurs widely in numerous aquatic organisms exposed to a wide array of contaminants, including nano/microplastics, suggesting potential effects at doses/concentrations that are considerably lower than the traditional toxicological threshold, which cannot be identified or predicted unless hormesis is considered in the study design. To tackle the effects and associated risks of nano/microplastics and other contaminants on aquatic organisms, hormesis should therefore be taken into account early in the design of studies as well as in relevant risk assessments.

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New tools for effective production and long-term stabilization of microcystinase (MlrA) - A biotechnological perspective towards hepatotoxic microcystins remediation

Dexter,

Klimczak,

Łobodzińska

et al. 2024

Biocatalysis and Agricultural Biotechnology

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Mutual impacts and interactions of antibiotic resistance genes, microcystin synthetase genes, graphene oxide, and Microcystis aeruginosa in synthetic wastewater

Cited by 10 publications

References 64 publications

Low Levels of Contaminants Stimulate Harmful Algal Organisms and Enrich Their Toxins

Low Levels of Contaminants Stimulate Harmful Algal Organisms and Enrich Their Toxins

Contaminants of emerging concern and aquatic organisms: the need to consider hormetic responses in effect evaluations

New tools for effective production and long-term stabilization of microcystinase (MlrA) - A biotechnological perspective towards hepatotoxic microcystins remediation

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