Supplementary data for the article: Grbović, G.; Malev, O.; Dolenc, D.; Klobučar, R. S.; Cvetković, Z.; Cvetković, B.; Jovančicévić, B.; Trebše, P. Synthesis, Characterisation and Aquatic Ecotoxicity of the UV Filter Hexyl 2-(4-Diethylamino-2-Hydroxybenzoyl)Benzoate (DHHB) and Its Chlorinated by-Products. Environmental Chemistry 2016, 13 (1), 119–126. https://doi.org/10.1071/EN15013

Supplementary material for: [https://doi.org/10.1071/EN15013]Related to published version: [http://cherry.chem.bg.ac.rs/handle/123456789/2020

Procjena toksičnosti akrilamida pomoću standardiziranih biotestova

Acrylamide is a monomer widely used as an intermediate in the production of organic chemicals, e.g. polyacrylamides (PAMs). Since PAMs are low cost chemicals with applications in various industries and waste- and drinking water treatment, a certain amount of non-polymerised acrylamide is expected to end up in waterways. PAMs are non-toxic but acrylamide induces neurotoxic effects in humans and genotoxic, reproductive, and carcinogenic effects in laboratory animals. In order to evaluate the effect of acrylamide on freshwater organisms, bioassays were conducted on four species: algae Desmodesmus subspicatus and Pseudokirchneriella subcapitata, duckweed Lemna minor and water flea Daphnia magna according to ISO (International Organization for Standardisation) standardised methods. This approach ensures the evaluation of acrylamide toxicity on organisms with different levels of organisation and the comparability of results, and it examines the value of using a battery of low-cost standardised bioassays in the monitoring of pollution and contamination of aquatic ecosystems. These results showed that EC50 values were lower for Desmodesmus subspicatus and Pseudokirchneriella subcapitata than for Daphnia magna and Lemna minor, which suggests an increased sensitivity of algae to acrylamide. According to the toxic unit approach, the values estimated by the Lemna minor and Daphnia magna bioassays, classify acrylamide as slightly toxic (TU=0-1; Class 1). The results obtained from algal bioassays (Desmodesmus subspicatus and Pseudokirchneriella subcapitata) revealed the toxic effect of acrylamide (TU=1-10; Class 2) on these organisms.Akrilamid je monomer koji se koristi kao intermedijer u proizvodnji organskih kemikalija, npr. poliakrilamida (PAM-a). PAM se primjenjuje u različitim industrijama te u obradi otpadnih voda i tretmanu vode za piće, a prihvatljiv je i zbog niske cijene. Široka upotreba PAM-a u spomenute svrhe predstavlja rizik od toga da određena količina nepolimeriziranog akrilamida dospije u vodene ekosustave. PAM je netoksičan, ali akrilamid ima neurotoksične učinke u ljudi te je također dokazana njegova genotoksičnost, kancerogenost i štetan utjecaj na reprodukcijski sustav u laboratorijskih životinja. U cilju procjene toksičnosti akrilamida provedeni su biotestovi na četirima vrstama slatkovodnih organizama: na zelenim algama Desmodesmus subspicatus i Pseudokirchneriella subcapitata, vodenoj leći Lemna minor i vodenbuhi Daphnia magna. Biotestovi su provedeni prema standardiziranim ISO metodama, što osigurava procjenu toksičnosti akrilamida na organizme različitog stupnja organizacije, usporedivost rezultata i procjenu pogodnosti korištenja niza standardiziranih biotestova prihvatljive cijene za praćenje zagađenja i onečišćenja vodnih ekosustava. Rezultati su pokazali da su EC50 vrijednosti niže nakon izlaganja zelenih algi Desmodesmus subspicatus i Pseudokirchneriella subcapitata akrilamidu u odnosu na vrijednosti dobivene za vodenu leću Lemna minor i vodenbuhu Daphnia magna, što pokazuje veću osjetljivost algi. S obzirom na klasifikacijski sustav za izražavanje stupnja toksičnosti, a na temelju vrijednosti utvrđenih za vodenu leću Lemna minor i vodenbuhu Daphnia magna, akrilamid se može klasificirati kao slabo toksičan (TU=0-1; razred 1). Rezultati dobiveni testovima na algama (Desmodesmus subspicatus i Pseudokirchneriella subspicata) dokazuju toksičan učinak akrilamida na tim organizmima (TU=1-10; razred 2)

Supplementary data for the article: Grbović, G.; Malev, O.; Dolenc, D.; Klobučar, R. S.; Cvetković, Z.; Cvetković, B.; Jovančicévić, B.; Trebše, P. Synthesis, Characterisation and Aquatic Ecotoxicity of the UV Filter Hexyl 2-(4-Diethylamino-2-Hydroxybenzoyl)Benzoate (DHHB) and Its Chlorinated by-Products. Environmental Chemistry 2016, 13 (1), 119–126. https://doi.org/10.1071/EN15013

Supplementary material for: [https://doi.org/10.1071/EN15013]Related to published version: [http://cherry.chem.bg.ac.rs/handle/123456789/2020

Effects of Magnesium, Chromium, Iron and Zinc from Food Supplements on Selected Aquatic Organisms

The aim of this study was to determine the effect of uncontrolled environmental disposal of food supplements contain- ing magnesium (Mg), chromium (Cr), iron (Fe) and zinc (Zn) on selected aquatic organisms including freshwater algae Scenedesmus subspicatus and Raphidocelis subcapitata, water flea Daphnia magna and duckweed Lemna minor. Thirty different food supplements containing Mg, Cr, Fe and Zn were analyzed. Results were expressed as effective con- centration 50 (EC 50 ), i.e. growth inhibiting Mg, Cr, Fe and Zn (mg/L) concentration immobilizing 50% of treated organ- isms. Particular metal EC 50 differed significantly (p<0.001) among study organisms, as follows (in ascending order): Scenedesmus subspicatus EC 50 Fe (median 46.9 mg/L)<Zn (59.8 mg/L)<Mg (73.0 mg/L)<Cr (88.1 mg/L) (KW-H(3;120) =36.856; p<0.001); Raphidocelis subcapitata EC 50 Fe (median 44.9 mg/L)<Zn (52.6 mg/L)<Mg (62.2 mg/L)<Cr (76.8 mg/L) (KW-H(3;120)=44.0936; p<0.001); Daphnia magna EC 50 Zn (median 59.4 mg/L)<Cr (79.2 mg/L)<Fe (80.8 mg/L) Mg (82.0 mg/L) (KW-H(3;120)=39.2637; p<0.001); and Lemna minor EC 50 Zn (median 131.0 mg/L)<Fe (186.8 mg/L)<Mg (192.5 mg/L)<Cr (240.4 mg/L) (KW-H(3;120)=58.6567; p<0.001). Uncontrolled environmental disposal of food supplements containing Mg, Cr, Fe and Zn exerts adverse effects on aquatic organisms. Therefore, legal provisions should regulate both the utilization and disposal of food supplements into the environment

Ružička days : International conference 16th Ružička Days “Today Science – Tomorrow Industry” : Proceedings

Proceedings contains articles presented at Conference divided into sections: open lecture (1), chemical analysis and synthesis (3), chemical and biochemical engineering (8), food technology and biotechnology (8), medical chemistry and pharmacy (3), environmental protection (11) and meeting of young chemists (2)

Detecting Styrene With Spectral Fluorescence Signature Analysis

The large global production of plastics and their presence everywhere in society and the environment have created a need for assessing chemical hazards and risks associated with plastic products. Plastics from polystyrene can release potentially toxic products (including styrene), particularly when heated. In this study we used a Fluo-Imager Analyser with software for spectral fluorescence signature (SFS) analysis. The objective of this study was to evaluate and compare the amount of styrene released into food and beverages by using SFS on a Fluo-Imager Analyser. Our results showed that concentrations of released styrene were in the range of 1.45-9.95 mu g/L for hot water and 0.10-2.78 mu g/L for room temperature water. The results indicate that this fluorescence diagnostic method is an effective tool for analysis of styrene released into food and beverages from polystyrene containers and cups, and could be useful in further investigations of styrene toxicity

Detecting Styrene With Spectral Fluorescence Signature Analysis

The large global production of plastics and their presence everywhere in society and the environment have created a need for assessing chemical hazards and risks associated with plastic products. Plastics from polystyrene can release potentially toxic products (including styrene), particularly when heated. In this study we used a Fluo-Imager Analyser with software for spectral fluorescence signature (SFS) analysis. The objective of this study was to evaluate and compare the amount of styrene released into food and beverages by using SFS on a Fluo-Imager Analyser. Our results showed that concentrations of released styrene were in the range of 1.45-9.95 mu g/L for hot water and 0.10-2.78 mu g/L for room temperature water. The results indicate that this fluorescence diagnostic method is an effective tool for analysis of styrene released into food and beverages from polystyrene containers and cups, and could be useful in further investigations of styrene toxicity

Green Techniques for Detecting Microplastics in Marine with Emphasis on FTIR and NIR Spectroscopy—Short Review

The amount of microplastics (MPs) present in marine ecosystems are a growing concern, with potential impacts on human health because they are associated with an increase in the ecotoxicity of certain foods, such as fish. As a result, there has been a growing interest in developing effective methods for the analysis of MPs in marine waters. Traditional methods for MP analysis involve visual inspection and manual sorting, which can be time-consuming and subject to human error. However, novel methods have been developed that offer more efficient and accurate analyses. One such method is based on spectroscopy, such as Fourier transform infrared spectroscopy (FTIR). Another method involves the use of fluorescent dyes, which can selectively bind to microplastics and allow for their detection under UV light. Additionally, machine learning approaches have been developed to analyze large volumes of water samples for MP detection and classification. These methods involve the use of specialized algorithms that can identify and classify MPs based on their size, shape, and texture. Overall, these novel methods offer more efficient and accurate analyses of MPs in marine waters, which is essential for understanding the extent and impacts of MP pollution and for developing effective mitigation strategies. However, there is still a need for continued research and development to optimize these methods and improve their sensitivity and accuracy

Synthesis, characterisation and aquatic ecotoxicity of the UV filter hexyl 2-(4-diethylamino-2-hydroxybenzoyl)benzoate (DHHB) and its chlorinated by-products

Environmental context Various UV-filtering chemicals are added to sunscreens in order to protect humans from the harmful effects of the sun. As a consequence of disinfection processes in swimming pools, sunscreen components may be chlorinated and change their structure and properties, leading to derivatives with higher toxicity. The safety of sunscreen components as well as that of their transformation products during their use requires further study. Abstract In this work is presented a synthesis pathway for the UV filter hexyl 2-(4-diethylamino-2-hydroxybenzoyl)benzoate (DHHB) and its chlorinated by-products in order to investigate the transformation behaviour and toxicity changes of DHHB during chlorination disinfection treatment. Acute toxicity was measured using standardised tests with aquatic model organisms. The potency of DHHB was compared with other benzophenone-like UV filters tested in the same experimental set-up. The toxicity of chlorinated compounds tested with photobacteria was found to be in a similar range to that of the starting compound. Microalgae were more sensitive to DHHB than to its chlorinated by-products, whereas daphnids were affected more by DHHB's chlorinated products. The comparative toxicity data showed DHHB and even more its chlorinated by-products as more highly biologically potent to daphnids than other tested UV filters. The toxic potential of benzophenone-like UV filters should be interpreted together with data on their chemical properties, chlorination effects and affected organisms.Supplementary material: [http://cherry.chem.bg.ac.rs/handle/123456789/3632

Effects of magnesium, chromium, iron and zinc from food supplements on selected aquatic organisms [Učinci magnezija, kroma, željeza i cinka iz dodataka prehrani na odabrane vodene organizme]

The aim of this study was to determine the effect of uncontrolled environmental disposal of food supplements containing magnesium (Mg), chromium (Cr), iron (Fe) and zinc (Zn) on selected aquatic organisms including freshwater algae Scenedesmus subspicatus and Raphidocelis subcapitata, water flea Daphnia magna and duckweed Lemna minor. Thirty different food supplements containing Mg, Cr, Fe and Zn were analyzed. Results were expressed as effective concentration 50 (EC50), i.e. growth inhibiting Mg, Cr, Fe and Zn (mg/L) concentration immobilizing 50% of treated organisms. Particular metal EC50 differed significantly (p < 0.001) among study organisms, as follows (in ascending order): Scenedesmus subspicatus EC50 Fe (median 46.9 mg/L) < Zn (59.8 mg/L) < Mg (73.0 mg/L) < Cr (88.1 mg/L) (KW-H(3;120) = 36.856; p < 0.001); Raphidocelis subcapitata EC50 Fe (median 44.9 mg/L) < Zn (52.6 mg/L) < Mg (62.2 mg/L) < Cr (76.8 mg/L) (KW-H(3;120) = 44.0936; p < 0.001); Daphnia magna EC50 Zn (median 59.4 mg/L) < Cr (79.2 mg/L) < Fe (80.8 mg/L) Mg (82.0 mg/L) (KW-H(3;120) = 39.2637; p < 0.001); and Lemna minor EC50 Zn (median 131.0 mg/L) < Fe (186.8 mg/L) < Mg (192.5 mg/L) < Cr (240.4 mg/L) (KW-H(3;120) = 58.6567; p < 0.001). Uncontrolled environmental disposal of food supplements containing Mg, Cr, Fe and Zn exerts adverse effects on aquatic organisms. Therefore, legal provisions should regulate both the utilization and disposal of food supplements into the environment