Application of effect-based methods (EBMs) in a river basin: a preliminary study in Central Italy

Introduction. Effect-based methods (EBMs), i.e. in vitro and in vivo bioassays, represent innovative tools for the effect detection of environmental chemical pollutants on living organisms. The aim of this study was to evaluate the water quality of a river ecosystem implementing two in vivo bioassays on target freshwater animal species: the crustacean Daphnia magna and the small fish Danio rerio, also known as zebrafish.Materials and methods. The methods applied in this study, i.e. the Daphnia sp. Acute Immobilisation assay and the Fish Embryo Acute Toxicity (FET) test, are commonly used in water quality research and their application in short-term ecotoxicity detection is suggested by recent European projects. Two sampling sites were chosen in the urban part of the Tiber River in Rome, while a third one was chosen as a reference site in the Farfa River, a tributary upstream of the city. The sites in the Tiber River are potentially affected by different pollution sources, including urban and industrial wastewater discharges, the pesticide release, livestock waste products, and waste dumps.Results and discussion. The results of the study showed wide differences between the two applied bioassays. The FET test was generally more sensitive in detecting even low effects in all the water samples, but the strongest statistically results were observed with the D. magna Acute Immobilisation test. The results of this research confirm the effectiveness of EBMs in investigating and monitoring water chemical pollution, and stress the need for performing further studies, e.g. chemical analyses and other bioassays, to improve the knowledge of the health status of the Tiber River basin.Conclusions. Further results will aim to support the local authorities in adopting measures to reduce and to eliminate the sources of chemical pollution in the study area

Ecotossicologia e Salute: Approcci metodologici Rapporti Istisan 20/6

’indagine ecotossicologica è riconosciuta a livello internazionale come strumento valido nella prevenzione di effetti avversi negli ecosistemi che possono manifestarsi anche nell’uomo attraverso un’esposizione diretta/indiretta a sostanze chimiche pericolose, inclusi i contaminanti “emergenti” e le miscele. Pertanto l’Istituto Superiore di Sanità ha organizzato due incontri specifici dal titolo “Ecotossicologia e Salute”. Il primo finalizzato alla costituzione di una piattaforma di esperti nazionali di settore e individuare nuovi approcci ecotossicologici (1° Meeting, 27 marzo 2018). Il secondo con lo scopo di elaborare linee guida per la salvaguardia dell’ambiente e della salute umana utili al legislatore, attraverso la costituzione di tre gruppi di esperti: sulla normativa, sui metodi ecotossicologici collegati alla salute umana e sui metodi eco-genotossicologici (2° Meeting, 25-26 marzo 2019). In questo rapporto sono riportati alcuni contributi di relatori che hanno concorso a creare il network nazionale

Microbial Characterization of Water and Biofilms in Drinking Water Distribution Systems at Sport Facilities

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Promoting zebrafish embryo tool to identify the effects of chemicals in the context of Water Framework Directive monitoring and assessment

The Water Framework Directive (WFD) addresses the European Union Member States to achieve a good status of all water bodies. The WFD measures have allowed to reduce and eliminate the discharges, releases, and emissions of several priority substances with the aim of limiting the risks for the ecosystems and public health. Additionally, a Watch List (WL) for the monitoring of emerging contaminants was adopted to assess the environmental risk of new chemicals potentially toxic for water bodies. However, the amount of toxicants widespread in the environment is incredibly high and only a tiny fraction of substances is regularly monitored as established by the European legislation. Furthermore, the WFD does not involve a monitoring plan for chemical mixtures. Chemical analysis of water samples is essential for the monitoring programmes. However, it does not give full answers about the adverse effects of contaminants present in water bodies. In this context, the effect-based methods (i.e. bioassays and biomarkers) are essential tools to implement the monitoring strategies and reach the ambitious goals included in the WFD. Zebrafish early stages, i.e. embryos and early larvae, represent a very successful vertebrate model to assess the toxic effects on aquatic organisms and to subsequently perform a valid ecosystem monitoring. Indeed, this animal model raises many advantages and allows the definition of many toxicant modes of action (MoA). In this review, we report a large number of literature studies that performed experimental analysis using zebrafish embryos and early larvae to investigate the effects of the compounds included into the WFD and the related WL. We show how the zebrafish embryo model is able to detect and identify different toxicity mechanisms and specific effects with a great level of accuracy. Our goal is to promote the use of this effect-based method in the water monitoring strategies and to improve its use for regulatory purposes

Mesocosm Experiments at a Tunnelling Construction Site for Assessing Re-Use of Spoil Material as a By-Product

Mechanized excavation of tunnels with Earth Pressure Balance-Tunnel Boring Machines requires the use of foaming agents. The latter contain the anionic surfactant sodium lauryl ether sulphate (SLES) as the main compound. The re-use as a by-product of excavated soil containing foaming agents (spoil material) can pose a risk for soil and particularly for aquatic ecosystems if they are close to the spoil material final destination site. This work reports the chemical results (SLES residual concentrations) and ecotoxicological effects (battery of five tests) of 28 day-mesocosm studies performed at a tunnelling construction site. The soil mesocosms were set up with two different lithologies, which contained four different foaming agent products at the highest amounts used for excavation. The decrease in SLES concentrations and the ecotoxicological tests were performed in soil and its water extract (elutriate) at different times (0, 7, 14, 28 d). Elutriates were prepared in order to simulate a possible SLES leaching from soil to water. The results showed a decrease in SLES over time and different ecotoxicological responses depending not only on the initial amount of each product, but also on the soil lithology and organism tested (aquatic or terrestrial). This study showed how only site-specific ecotoxicological evaluations can ensure a safe management of the spoil material, making possible the re-use of soil and avoiding production of waste

Mesocosm Experiments at a Tunnelling Construction Site for Assessing Re-Use of Spoil Material as a By-Product

Mechanized excavation of tunnels with Earth Pressure Balance-Tunnel Boring Machines requires the use of foaming agents. The latter contain the anionic surfactant sodium lauryl ether sulphate (SLES) as the main compound. The re-use as a by-product of excavated soil containing foaming agents (spoil material) can pose a risk for soil and particularly for aquatic ecosystems if they are close to the spoil material final destination site. This work reports the chemical results (SLES residual concentrations) and ecotoxicological effects (battery of five tests) of 28 day-mesocosm studies performed at a tunnelling construction site. The soil mesocosms were set up with two different lithologies, which contained four different foaming agent products at the highest amounts used for excavation. The decrease in SLES concentrations and the ecotoxicological tests were performed in soil and its water extract (elutriate) at different times (0, 7, 14, 28 d). Elutriates were prepared in order to simulate a possible SLES leaching from soil to water. The results showed a decrease in SLES over time and different ecotoxicological responses depending not only on the initial amount of each product, but also on the soil lithology and organism tested (aquatic or terrestrial). This study showed how only site-specific ecotoxicological evaluations can ensure a safe management of the spoil material, making possible the re-use of soil and avoiding production of waste

Tigriopus fulvus: The interlaboratory comparison of the acute toxicity test

The paper reports the results of an interlaboratory comparison involving 11 laboratories, with the objectives of apply and validate a new standardized ecotoxicological method on marine crustacean Tigriopus fulvus. Copper was chosen as reference toxicant as indicated in the official method. The results of two independent tests performed by all the participants, demonstrated that the new method is simple, fast and easy to learn. This is confirmed even by the values of z-score index calculated for each laboratory and the relative coefficient of variation (CV) which are 6.32% after 24. h, 6.56 after 48. h and 35.3% after 96. h, mentioned in the ISO standards for the precision of interlaboratory assays. Therefore its use could be recommended in environmental studies and monitoring