Ús de fongs per a la degradació de filtres solars

Els compostos que trobem en cremes solars o d'altres productes i que s'utilitzen per reduir l'efecte de les radiacions ultraviolades en el nostre cos s'alliberen cada vegada més al medi ambient, sense que els procediments habituals per eliminar compostos no desitjats, com les depuradores, estiguin encara preparats per eliminar-los. Aquesta investigació, duta a terme al Departament d'Enginyeria Química de la UAB en un projecte en col·laboració amb l'IDAEA-CSIC, ha utilitzat fongs ligninolítics per eliminar aquests productes. La investigació conclou que aquests fongs són prometedors per a l'eliminació d'aquests nous contaminats però que encara som lluny de la seva implementació definitiva.Los compuestos que podemos encontrar en cremas solares o de otros productos y que se utilizan para reducir el efecto de las radiaciones ultravioletas en nuestro cuerpo se liberan cada vez más al medio ambiente, sin que los procedimientos habituales para eliminar compuestos no deseados, como las depuradoras, estén aún preparados para eliminarlos. Esta investigación, llevada a cabo en el Departamento de Ingeniería Química de la UAB en un proyecto en colaboración con el IDAEA-CSIC, ha utilizado hongos ligninolíticos para eliminar estos productos. La investigación concluye que estos hongos son prometedores para la eliminación de estos nuevos contaminantes pero que todavía estamos lejos de su implementación definitiva.The compounds found in sunscreens and other products used to reduce the effect of ultraviolet radiations in our body are released into the environment, without the usual procedures to remove unwanted compounds such as treatment facilities, are prepared to remove them. This research, carried out at the Department of Chemical Engineering at UAB in collaboration with the IDAEA-CSIC, has used ligninolytic fungi to remove these products. This research concludes that these fungi are promising for the elimination of these new pollutants but we are still far from its implementation

Hydrolysis and methanogenesis in UASB-AnMBR treating municipal wastewater under psychrophilic conditions: Importance of reactor configuration and inoculum

Three upflow anaerobic sludge blanket (UASB) pilot scale reactors with different configurations and inocula: flocculent biomass (F-UASB), flocculent biomass and membrane solids separation (F-AnMBR) and granular biomass and membrane solids separation (G-AnMBR) were operated to compare start-up, solids hydrolysis and effluent quality. The parallel operation of UASBs with these different configurations at low temperatures (9.7 ± 2.4°C) and the low COD content (sCOD 54.1 ± 10.3 mg/L and pCOD 84.1 ± 48.5 mg/L), was novel and not previously reported. A quick start-up was observed for the three reactors and could be attributed to the previous acclimation of the seed sludge to the settled wastewater and to low temperatures. The results obtained for the first 45 days of operation showed that solids management was critical to reach a high effluent quality. Overall, the F-AnMBR showed higher rates of hydrolysis per solid removed (38%) among the three different UASB configurations tested. Flocculent biomass promoted slightly higher hydrolysis than granular biomass. The effluent quality obtained in the F-AnMBR was 38.0 ± 5.9 mg pCOD/L, 0.4 ± 0.9 mg sCOD/L, 9.9 ± 1.3 mg BOD5/L and <1 mg TSS/L. The microbial diversity of the biomass was also assessed. Bacteroidales and Clostridiales were the major bacterial fermenter orders detected and a relative high abundance of syntrophic bacteria was also detected. Additionally, an elevated abundance of sulfate reducing bacteria (SRB) was also identified and was attributed to the low COD/SO42– ratio of the wastewater (0.5). Also, the coexistence of acetoclastic and hydrogenotrophic methanogenesis was suggested. Overall this study demonstrates the suitability of UASB reactors coupled with membrane can achieve a high effluent quality when treating municipal wastewater under psychrophilic temperatures with F-AnMBR promoting slightly higher hydrolysis rate

Study of the effect of the bacterial and fungal communities present in real wastewatereffluents on the performance of fungal treatments

The use of the ligninolytic fungi Trametes versicolor for the degradation of micropollutants has been widely studied. However, few studies have addressed the treatment of real wastewater containing pharmaceutically active compounds (PhAC) under non-sterile conditions. The main drawback of performing such treatments is the difficulty for the inoculated fungus to successfully compete with the other microorganisms growing in the bioreactor. In the present study, several fungal treatments were performed under non-sterile conditions in continuous operational mode with two types of real wastewater effluent, namely, a reverse osmosis concentrate (ROC) from a wastewater treatment plant and a veterinary hospital wastewater (VHW). In all cases, the setup consisted of two parallel reactors: one inoculated with T. versicolor and one non-inoculated, which was used as the control. The main objective of this work was to correlate the operational conditions and traditional monitoring parameters, such as laccase activity, with PhAC removal and the composition of the microbial communities developed inside the bioreactors. For that purpose a variety of biochemical and molecular biology analyses were performed: phospholipid fatty acids analysis (PLFA), quantitative PCR (qPCR) and denaturing gradient gel electrophoresis (DGGE) followed by sequencing. The results show that many indigenous fungi (and not only bacteria, which were the focus of the majority of previously published research) can successfully compete with the inoculated fungi (i.e., Trichoderma asperellum overtook T. versicolor in the ROC treatment). We also showed that the wastewater origin and the operational conditions had a stronger impact on the diversity of microbial communities developed in the bioreactors than the inoculation or not with T. versicolor

Continuous fungal treatment of non-sterile veterinary hospital effluent: pharmaceuticals removal and microbial community assessment

Source point treatment of effluents with a high load of pharmaceutical active compounds (PhACs), such as hospital wastewater, is a matter of discussion among the scientific community. Fungal treatments have been reported to be successful in degrading this type of pollutants and, therefore, the white-rot fungus Trametes versicolor was applied for the removal of PhACs from veterinary hospital wastewater. Sixty-six percent removal was achieved in a non-sterile batch bioreactor inoculated with T. versicolor pellets. On the other hand, the study of microbial communities by means of DGGE and phylogenetic analyses led us to identify some microbial interactions and helped us moving to a continuous process. PhAC removal efficiency achieved in the fungal treatment operated in non-sterile continuous mode was 44 % after adjusting the C/N ratio with respect to the previously calculated one for sterile treatments. Fungal and bacterial communities in the continuous bioreactors were monitored as well.Authors want to acknowledge the UAB veterinary hospital staff for their kind permission and help for the samplings. This work has been funded by the Spanish Ministry of Economy and Competitiveness and FEDER (projects CTM2013-48545-C2 and AIB2010PT-00169) and supported by the Generalitat de Catalunya (Consolidated Research Groups 2014-SGR-476 and 2014-SGR-291). The Department of Chemical Engineering of the Universitat Autonoma de Barcelona (UAB) is a member of the Xarxa de Referencia en Biotecnologia de la Generalitat de Catalunya. M. Badia-Fabregat and D. Lucas acknowledge the predoctoral grants from UAB and from the Spanish Ministry of Education, Culture and Sports (AP-2010-4926), respectively. The authors also thank the Portuguese Foundation for Science and Technology (FCT) Strategic Project PEst-OE/EQB/LA0023/2013, Project FCOMP-01-0124-FEDER-027462 co-funded by Operational Competitiveness Programme, FEDER, and Project "BioEnv-Biotechnology and Bioengineering for a sustainable world," REF. NORTE-07-0124-FEDER-000048, co-funded by Programa Operacional Regional do Norte (ON.2 - O Novo Norte), QREN, FEDER

Study of relevant factors in the treatment of effluents by fungi for the degradation of emerging contaminants

Els contaminants emergents són un ampli grup de compostos orgànics detectats en diversos compartiments ambientals. Tot i que la seva concentració normalment està compresa entre els ng/L fins a pocs µg/L (força inferior que els contaminants orgànics convencionals), poden representar una amenaça per a la salut humana i el medi ambient. D’entre tots els contaminants emergents, els principis actius dels fàrmacs (PhACs) i els compostos disruptors endocrins (EDCs) generen una especial preocupació. Per altra banda, està àmpliament acceptat que la seva principal font d’entrada al medi ambient són els efluents de les plantes depuradores, on els tractaments convencionals de llots actius no són capaços de degradar-ne la majoria. Per tant, s’han de buscar tractaments alternatius. Una d’aquestes alternatives podria ser l’ús de fongs ligninolítics, aprofitant el seu sistema enzimàtic que els hi confereix l’habilitat de degradar un rang molt ampli de contaminants. Aquesta tesi avalua diferents aspectes relacionats amb la degradació de contaminants emergents per part de fongs. El fong de podridura blanca Trametes versicolor, àmpliament estudiat, és el que s’ha triat per a dur a terme els experiments d’aquesta tesi. Primer de tot s’ha estudiat la degradació individual de determinats contaminants. Tenint en compte que la degradació dels EDCs ha estat menys estudiada que la dels PhACs, es van seleccionar sis EDCs pertanyents als grups dels filtres UV (benzofenona-3 (BP3), benzofenona-1 (BP1) i 3-(4-metilbenzilidè) càmfor (4-MBC)) i dels benzotriazols (1H-benzotriazol (BTZ) i toliltriazol, una mescla de 4-metilbenzotriazol (4-MBTZ) i 5-metilbenzotriazol (5-MBTZ)). S’ha fet, doncs, un seguiment de la seva degradació per part de T. versicolor, la toxicitat aguda i les activitats estrogènica i de tipus dioxina, s’han identificat els metabòlits generats pel fong i s’han suggerit els primers passos de la via de degradació. A més a més, el destí de determinats contaminants (la BP3 i l’analgèsic i antiinflamatori diclofenac) durant la seva degradació per part del fong ha estat avaluada a través de compostos marcats amb l’isòtop estable 13C. La combinació d’anàlisis de la composició isotòpica del C del CO2 i de la biomassa total i el sondeig d’isòtops estables en aminoàcids (aa-SIP) han permès la discriminació entre simple transformació, mineralització oxidativa o incorporació del carboni a la biomassa. Pel que fa als dos compostos estudiats, els dos s’han mineralitzat però s’ha vist que només la BP3 s’utilitza com a font de carboni i és incorporada a la biomassa del fong. Per una altra banda, es van tractar dos efluents reals (l’aigua residual d’un hospital veterinari i el concentrat d’osmosi inversa d’una planta pilot de tractament d’aigües residuals urbanes) en un bioreactor de fongs fluïditzat per polsos d’aire i operat sota diferents condicions operacionals (estèril/no estèril i discontinu/continu) en vistes a una possible implementació futura. Amb aquesta intenció, aquesta tesi apunta a la importància de l’addició externa de nutrients i al control de l’aeració, els quals haurien de ser optimitzats per a obtenir una eliminació eficient de contaminants per part del fong inoculat. En aquesta tesi també es remarca la importància dels processos de conjugació i desconjugació. Per una banda, són una una restricció en l’avaluació de la degradació en efluents reals a causa de la seva absència en els mètodes analítics i, per l’altra, els conjugats representen uns metabòlits intermedis importants durant la degradació per part del fong dels contaminants seleccionats . També es van realitzar anàlisis de biologia molecular (anàlisi dels àcids grassos dels fosfolípids (PLFA), PCR quantitativa (qPCR) i gel d’electroforesis en gradient desnaturalitzant (DGGE)) amb l’objectiu de trobar alguna correlació entre l’operació dels bioreactors i el comportament del fong inoculat i els altres microorganismes que es desenvolupen en els bioreactors no estèrils. Els resultats suggereixen que els paràmetres de seguiment clàssics (com poden ser l’activitat lacasa) podrien no ser uns bons indicadors de la supervivència i predominança del fong inoculat.Emerging contaminants are a wide group of organic compounds detected in many environmental compartments. Even though their environmental concentration is usually in the range of ng L-1 to low µg L-1 (much lower than conventional organic pollutants), they still represent a threat to human health and the environment. Among emerging contaminants, pharmaceutically active compounds (PhACs) and endocrine disrupting compounds (EDCs) are of special concern. It is widely accepted that the main source to the environment are the effluents of wastewater treatment plants (WWTPs), where conventional activated sludge treatments are not able to degrade most of them. Therefore, alternative treatments should be found. One of those alternatives might be the use of ligninolytic fungi by taking advantage of their enzymatic system, that conferes them the ability to degrade a broad range of contaminants. The present thesis assesses different factors related to the fungal degradation of emerging contaminants. The widely studied white-rot fungus Trametes versicolor has been chosen to carry out all the experiments of this thesis. First of all, individual degradation of selected contaminants was studied. Taking into account that EDCs degradation has been less studied than PhACs, six EDCs belonging to the groups of UV filters (benzophenone-3 (BP3), benzophenone-1 (BP1) and 3-(4-methylbenzylidene) camphor (4-MBC)) and benzotriazoles (1H-benzotriazole (BTZ) and tolyltriazole, a mixture of 4-methylbenzotriazole (4-MBTZ) and 5-methylbenzotriazole (5-MBTZ)) were selected. Their degradation by T. versicolor, acute toxicity, estrogenic and dioxin-like activities were monitored, the fungal metabolites were identified and the first steps of the degradation pathway were suggested. Moreover, the fate during fungal degradation of certain contaminants (BP3 and the analgesic and anti-inflammatory diclofenac) was assessed by means of compounds labelled with the stable isotope 13C. Combination of analyses of carbon isotopic composition of CO2, bulk biomass and amino acids-stable isotope probing (aa-SIP) allowed the distinction between simple transformation, oxidative mineralization or carbon incorporation into the biomass. Regarding the two studied compounds, both of them were mineralized, but only BP3 was found to be used as carbon source and incorporated in the fungal biomass. On the other hand, two real effluents (veterinary hospital wastewater and a reverse osmosis concentrate from a pilot plant treating urban wastewater) were treated in fungal air-pulsed fluidized bioreactors under different operational conditions (sterile/non-sterile and batch/continuous) in view of a possible future implementation. With respect to that, the present thesis points out the importance of an external addition of nutrients and the control of aeration, which should be further optimized for an efficient removal of contaminants by the inoculated fungus. The importance of conjugation and deconjugation processes is also highlighted in this thesis. They are a restriction in the assessment of emerging contaminants degradation in real effluents due to the absence of conjugates in the analytical methods and, at the same time, conjugates are important intermediate metabolites in the fungal degradation of the selected contaminants. Molecular biology analyses (phospholipid fatty acids analysis (PLFA), real-time PCR (qPCR) and denaturing gradient gel electrophoresis (DGGE)) were performed as well with the aim of finding some correlation between the operation of the bioreactors and the performance of the inoculated fungus and the other microorganisms that could develop in the non-sterile bioreactors. Results suggest that the classical parameters monitored (i.e. laccase activity) might not be good indicators of inoculated fungus survival and predominance

Study of relevant factors in the treatment of effluents by fungi for the degradation of emerging contaminants

Premi Extraordinari de Doctorat concedit pels programes de doctorat de la UAB per curs acadèmic 2017-2018Els contaminants emergents són un ampli grup de compostos orgànics detectats en diversos compartiments ambientals. Tot i que la seva concentració normalment està compresa entre els ng/L fins a pocs µg/L (força inferior que els contaminants orgànics convencionals), poden representar una amenaça per a la salut humana i el medi ambient. D'entre tots els contaminants emergents, els principis actius dels fàrmacs (PhACs) i els compostos disruptors endocrins (EDCs) generen una especial preocupació. Per altra banda, està àmpliament acceptat que la seva principal font d'entrada al medi ambient són els efluents de les plantes depuradores, on els tractaments convencionals de llots actius no són capaços de degradar-ne la majoria. Per tant, s'han de buscar tractaments alternatius. Una d'aquestes alternatives podria ser l'ús de fongs ligninolítics, aprofitant el seu sistema enzimàtic que els hi confereix l'habilitat de degradar un rang molt ampli de contaminants. Aquesta tesi avalua diferents aspectes relacionats amb la degradació de contaminants emergents per part de fongs. El fong de podridura blanca Trametes versicolor, àmpliament estudiat, és el que s'ha triat per a dur a terme els experiments d'aquesta tesi. Primer de tot s'ha estudiat la degradació individual de determinats contaminants. Tenint en compte que la degradació dels EDCs ha estat menys estudiada que la dels PhACs, es van seleccionar sis EDCs pertanyents als grups dels filtres UV (benzofenona-3 (BP3), benzofenona-1 (BP1) i 3-(4-metilbenzilidè) càmfor (4-MBC)) i dels benzotriazols (1H-benzotriazol (BTZ) i toliltriazol, una mescla de 4-metilbenzotriazol (4-MBTZ) i 5-metilbenzotriazol (5-MBTZ)). S'ha fet, doncs, un seguiment de la seva degradació per part de T. versicolor, la toxicitat aguda i les activitats estrogènica i de tipus dioxina, s'han identificat els metabòlits generats pel fong i s'han suggerit els primers passos de la via de degradació. A més a més, el destí de determinats contaminants (la BP3 i l'analgèsic i antiinflamatori diclofenac) durant la seva degradació per part del fong ha estat avaluada a través de compostos marcats amb l'isòtop estable 13C. La combinació d'anàlisis de la composició isotòpica del C del CO2 i de la biomassa total i el sondeig d'isòtops estables en aminoàcids (aa-SIP) han permès la discriminació entre simple transformació, mineralització oxidativa o incorporació del carboni a la biomassa. Pel que fa als dos compostos estudiats, els dos s'han mineralitzat però s'ha vist que només la BP3 s'utilitza com a font de carboni i és incorporada a la biomassa del fong. Per una altra banda, es van tractar dos efluents reals (l'aigua residual d'un hospital veterinari i el concentrat d'osmosi inversa d'una planta pilot de tractament d'aigües residuals urbanes) en un bioreactor de fongs fluïditzat per polsos d'aire i operat sota diferents condicions operacionals (estèril/no estèril i discontinu/continu) en vistes a una possible implementació futura. Amb aquesta intenció, aquesta tesi apunta a la importància de l'addició externa de nutrients i al control de l'aeració, els quals haurien de ser optimitzats per a obtenir una eliminació eficient de contaminants per part del fong inoculat. En aquesta tesi també es remarca la importància dels processos de conjugació i desconjugació. Per una banda, són una una restricció en l'avaluació de la degradació en efluents reals a causa de la seva absència en els mètodes analítics i, per l'altra, els conjugats representen uns metabòlits intermedis importants durant la degradació per part del fong dels contaminants seleccionats . També es van realitzar anàlisis de biologia molecular (anàlisi dels àcids grassos dels fosfolípids (PLFA), PCR quantitativa (qPCR) i gel d'electroforesis en gradient desnaturalitzant (DGGE)) amb l'objectiu de trobar alguna correlació entre l'operació dels bioreactors i el comportament del fong inoculat i els altres microorganismes que es desenvolupen en els bioreactors no estèrils. Els resultats suggereixen que els paràmetres de seguiment clàssics (com poden ser l'activitat lacasa) podrien no ser uns bons indicadors de la supervivència i predominança del fong inoculat.Emerging contaminants are a wide group of organic compounds detected in many environmental compartments. Even though their environmental concentration is usually in the range of ng L-1 to low µg L-1 (much lower than conventional organic pollutants), they still represent a threat to human health and the environment. Among emerging contaminants, pharmaceutically active compounds (PhACs) and endocrine disrupting compounds (EDCs) are of special concern. It is widely accepted that the main source to the environment are the effluents of wastewater treatment plants (WWTPs), where conventional activated sludge treatments are not able to degrade most of them. Therefore, alternative treatments should be found. One of those alternatives might be the use of ligninolytic fungi by taking advantage of their enzymatic system, that conferes them the ability to degrade a broad range of contaminants. The present thesis assesses different factors related to the fungal degradation of emerging contaminants. The widely studied white-rot fungus Trametes versicolor has been chosen to carry out all the experiments of this thesis. First of all, individual degradation of selected contaminants was studied. Taking into account that EDCs degradation has been less studied than PhACs, six EDCs belonging to the groups of UV filters (benzophenone-3 (BP3), benzophenone-1 (BP1) and 3-(4-methylbenzylidene) camphor (4-MBC)) and benzotriazoles (1H-benzotriazole (BTZ) and tolyltriazole, a mixture of 4-methylbenzotriazole (4-MBTZ) and 5-methylbenzotriazole (5-MBTZ)) were selected. Their degradation by T. versicolor, acute toxicity, estrogenic and dioxin-like activities were monitored, the fungal metabolites were identified and the first steps of the degradation pathway were suggested. Moreover, the fate during fungal degradation of certain contaminants (BP3 and the analgesic and anti-inflammatory diclofenac) was assessed by means of compounds labelled with the stable isotope 13C. Combination of analyses of carbon isotopic composition of CO2, bulk biomass and amino acids-stable isotope probing (aa-SIP) allowed the distinction between simple transformation, oxidative mineralization or carbon incorporation into the biomass. Regarding the two studied compounds, both of them were mineralized, but only BP3 was found to be used as carbon source and incorporated in the fungal biomass. On the other hand, two real effluents (veterinary hospital wastewater and a reverse osmosis concentrate from a pilot plant treating urban wastewater) were treated in fungal air-pulsed fluidized bioreactors under different operational conditions (sterile/non-sterile and batch/continuous) in view of a possible future implementation. With respect to that, the present thesis points out the importance of an external addition of nutrients and the control of aeration, which should be further optimized for an efficient removal of contaminants by the inoculated fungus. The importance of conjugation and deconjugation processes is also highlighted in this thesis. They are a restriction in the assessment of emerging contaminants degradation in real effluents due to the absence of conjugates in the analytical methods and, at the same time, conjugates are important intermediate metabolites in the fungal degradation of the selected contaminants. Molecular biology analyses (phospholipid fatty acids analysis (PLFA), real-time PCR (qPCR) and denaturing gradient gel electrophoresis (DGGE)) were performed as well with the aim of finding some correlation between the operation of the bioreactors and the performance of the inoculated fungus and the other microorganisms that could develop in the non-sterile bioreactors. Results suggest that the classical parameters monitored (i.e. laccase activity) might not be good indicators of inoculated fungus survival and predominance

Ús de fongs per a la degradació de filtres solars

Els compostos que trobem en cremes solars o d'altres productes i que s'utilitzen per reduir l'efecte de les radiacions ultraviolades en el nostre cos s'alliberen cada vegada més al medi ambient, sense que els procediments habituals per eliminar compostos no desitjats, com les depuradores, estiguin encara preparats per eliminar-los. Aquesta investigació, duta a terme al Departament d'Enginyeria Química de la UAB en un projecte en col·laboració amb l'IDAEA-CSIC, ha utilitzat fongs ligninolítics per eliminar aquests productes. La investigació conclou que aquests fongs són prometedors per a l'eliminació d'aquests nous contaminats però que encara som lluny de la seva implementació definitiva.Los compuestos que podemos encontrar en cremas solares o de otros productos y que se utilizan para reducir el efecto de las radiaciones ultravioletas en nuestro cuerpo se liberan cada vez más al medio ambiente, sin que los procedimientos habituales para eliminar compuestos no deseados, como las depuradoras, estén aún preparados para eliminarlos. Esta investigación, llevada a cabo en el Departamento de Ingeniería Química de la UAB en un proyecto en colaboración con el IDAEA-CSIC, ha utilizado hongos ligninolíticos para eliminar estos productos. La investigación concluye que estos hongos son prometedores para la eliminación de estos nuevos contaminantes pero que todavía estamos lejos de su implementación definitiva.The compounds found in sunscreens and other products used to reduce the effect of ultraviolet radiations in our body are released into the environment, without the usual procedures to remove unwanted compounds such as treatment facilities, are prepared to remove them. This research, carried out at the Department of Chemical Engineering at UAB in collaboration with the IDAEA-CSIC, has used ligninolytic fungi to remove these products. This research concludes that these fungi are promising for the elimination of these new pollutants but we are still far from its implementation

Fungal treatment for the removal of endocrine disrupting compounds from reverse osmosis concentrate. Identification and monitoring of transformation products of benzotriazoles

The removal of 27 endocrine-disrupting compounds and related compounds (suspect effect) from a reverse osmosis concentrate using an alternative decontamination method based on a fungal treatment involving Trametes versicolor was assessed. In addition to chemical analysis, the toxicity of the treated water during the treatment was monitored using a bioluminescence inhibition test and estrogenic and anti-estrogenic tests. The compounds 1H-benzotriazole (BTZ) and two tolyltriazoles (TTZs), 4-methyl-1H-benzotriazole (4-MBTZ) and 5-methyl-1H-benzotriazole (5-MBTZ), were present in the reverse osmosis concentrate at the highest concentrations (7.4 and 12.8 μg L−1, respectively) and were partially removed by the fungal treatment under sterile conditions (58% for BTZ and 92% for TTZs) and non-sterile conditions, although to lesser extents (32% for BTZ and 50% for TTZs). Individual biotransformation studies of BTZ and the TTZs by T. versicolor in a synthetic medium and further analysis via on-line turbulent flow chromatography coupled to an HRMS-Orbitrap allowed the tentative identification of the transformation products (TPs). Six TPs were postulated for BTZ, two TPs were postulated for 4-MBTZ, and four TPs were postulated for 5-MBTZ. Most of these TPs are suggested to have been generated by conjugation with some sugars and via the methylation of the triazole group. Only TP 148 A, postulated to be derived from the biotransformation of BTZ, was observed in the effluent of the bioreactor treating the reverse osmosis concentrate. © 2017 Elsevier LtdThis work has been supported by the Spanish Ministry of Economy, Industry and Competitiveness (project CTQ2010-21776-C02 and CTM2013-48545-C2), co-financed by the European Union through the European Regional Development Fund (ERDF) and supported by the Generalitat de Catalunya (Consolidated Research Groups: Catalan Institute for water Research 2014 SGR 291 and 2014 SGR 476). The Department of Chemical Engineering of the Universitat Aut?noma de Barcelona (UAB) is a member of the Xarxa de Refer?ncia en Biotecnologia de la Generalitat de Catalunya. M. Badia-Fabregat acknowledges the predoctoral grant from UAB. ML acknowledges her Juan de la Cierva Incorporacion fellowship (JdC-2014-21736), and SRM acknowledges her Ramon y Cajal fellowship (RyC-2014-16707), both from the Spanish Ministry of Economy, Industry and Competitiveness.Peer reviewe

Fungal treatment for the removal of antibiotics and antibiotic resistance genes in veterinary hospital wastewater

The emergence and spread of antibiotic resistance represents one of the most important public health concerns and has been linked to the widespread use of antibiotics in veterinary and human medicine. The overall elimination of antibiotics in conventional wastewater treatment plants is quite low; therefore, residual amounts of these compounds are continuously discharged to receiving surface waters, which may promote the emergence of antibiotic resistance. In this study, the ability of a fungal treatment as an alternative wastewater treatment for the elimination of forty-seven antibiotics belonging to seven different groups (β-lactams, fluoroquinolones, macrolides, metronidazoles, sulfonamides, tetracyclines, and trimethoprim) was evaluated. 77% of antibiotics were removed after the fungal treatment, which is higher than removal obtained in conventional treatment plants. Moreover, the effect of fungal treatment on the removal of some antibiotic resistance genes (ARGs) was evaluated. The fungal treatment was also efficient in removing ARGs, such as ermB (resistance to macrolides), tetW (resistance to tetracyclines), blaTEM (resistance to β-lactams), sulI (resistance to sulfonamides) and qnrS (reduced susceptibility to fluoroquinolones). However, it was not possible to establish a clear link between concentrations of antibiotics and corresponding ARGs in wastewater, which leads to the conclusion that there are other factors that should be taken into consideration besides the antibiotic concentrations that reach aquatic ecosystems in order to explain the emergence and spread of antibiotic resistance. © 2016 Elsevier Ltd.The authors wish to acknowledge the UAB veterinary hospital staff for their kindness permission and help for the samplings. This work has been funded by the Spanish Ministry of Economy and Competitiveness (projects CTM2013-48545-C2-2-R and JPIW2013-089-C02-02 ), co-financed by the European Union through the European Regional Development Fund (ERDF) and also supported by the Generalitat de Catalunya (Consolidated Research Groups 2014-SGR-476 and 2014-SGR-291 ). D. Lucas and M. Badia-Fabregat acknowledge the predoctoral grants from the Spanish Ministry of Education, Culture and Sports ( AP-2010-4926 ) and from UAB , respectively. J.L Balcazar and Sara Rodriguez-Mozaz acknowledge the Ramón y Cajal program ( RYC-2011-08154 and RYC-2014-16707 , respectively). Appendix APeer reviewe

Fungal treatment for the removal of endocrine disrupting compounds from reverse osmosis concentrate: Identification and monitoring of transformation products of benzotriazoles

The removal of 27 endocrine-disrupting compounds and related compounds (suspect effect) from a reverse osmosis concentrate using an alternative decontamination method based on a fungal treatment involving Trametes versicolor was assessed. In addition to chemical analysis, the toxicity of the treated water during the treatment was monitored using a bioluminescence inhibition test and estrogenic and anti-estrogenic tests. The compounds 1H-benzotriazole (BTZ) and two tolyltriazoles (TTZs), 4-methyl-1H-benzotriazole (4-MBTZ) and 5-methyl-1H-benzotriazole (5-MBTZ), were present in the reverse osmosis concentrate at the highest concentrations (7.4 and 12.8 μg L −1 , respectively) and were partially removed by the fungal treatment under sterile conditions (58% for BTZ and 92% for TTZs) and non-sterile conditions, although to lesser extents (32% for BTZ and 50% for TTZs). Individual biotransformation studies of BTZ and the TTZs by T. versicolor in a synthetic medium and further analysis via on-line turbulent flow chromatography coupled to an HRMS-Orbitrap allowed the tentative identification of the transformation products (TPs). Six TPs were postulated for BTZ, two TPs were postulated for 4-MBTZ, and four TPs were postulated for 5-MBTZ. Most of these TPs are suggested to have been generated by conjugation with some sugars and via the methylation of the triazole group. Only TP 148 A, postulated to be derived from the biotransformation of BTZ, was observed in the effluent of the bioreactor treating the reverse osmosis concentrateThis work has been supported by the Spanish Ministry of Economy, Industry and Competitiveness (project CTQ2010-21776-C02 and CTM2013-48545-C2), co-financed by the European Union through the European Regional Development Fund (ERDF) and supported by the Generalitat de Catalunya (Consolidated Research Groups: Catalan Institute for water Research 2014 SGR 291 and 2014 SGR 476