To avoid potential risks of biofuels on the environment and human, ecotoxicity investigation should be integrated into the early design stage for promising biofuel candidates. In the present study, a green toxicology testing strategy combining experimental bioassays with in silico tools was established to investigate the potential ecotoxicity of biofuel candidates. Experimental results obtained from the acute immobilisation test, the fish embryo acute toxicity test and the in vitro micronucleus assay (Chinese hamster lung fibroblast cell line V79) were compared with model prediction results by ECOSAR and OECD QSAR Toolbox. Both our experimental and model prediction results showed that 1-Octanol (1-Oct) and Di-n-butyl ether (DNBE) were the most toxic to Daphnia magna and zebrafish among all the biofuel candidates we investigated, while Methyl ethyl ketone (MEK), Dimethoxymethane (DMM) and Diethoxymethane (DEM) were the least toxic. Moreover, both in vitro micronucleus assay and OECD QSAR Toolbox evaluation suggested that the metabolites present higher genotoxicity than biofuel candidates themselves. Overall, our results proved that this green toxicology testing strategy is a useful tool for assessing ecotoxicity of biofuel candidates.The use of cadmium to produce inexpensive jewelry has recently been documented. Governments have adopted varying standards, with US states focused on either total cadmium content or extractable cadmium from children's jewelry, while the European Union has adopted a limit of 100 mg/kg cadmium for all jewelry. This study evaluated 80 items purchased at a discount jewelry store. The objective was to determine prevalence of cadmium in this jewelry, the amount of cadmium released by simulated mouthing or ingestion, and to confirm previous reports that damage to jewelry can increase cadmium release. Finally, a modified toxicity characteristic leaching procedure (TCLP) assessed the potential for jewelry to release cadmium after disposal. Thirty-two (40%) items showed detectable cadmium by X-ray fluorescence. Nine high‑cadmium pendants and rings with cadmium content ranging from 31.3 to 89.2% were subjected to extractions simulating mouthing or ingestion. Seven of nine items extracted in dilute saline to simulate mouthing released more than the US recommended maximum of 18 micrograms. Damaged jewelry released more cadmium for most items tested, with one ring yielding an average of 10,600 micrograms. Two pendants small enough to be swallowed were tested using dilute HCl to simulate ingestion. While one pendant did not release cadmium in excess of the US recommended maximum of 200 micrograms even when damaged, the other released an average of 63,100 micrograms after being damaged. Fourteen of fifteen samples of two high cadmium charms extracted using a modified TCLP extraction exceeded the 1.0 mg/L TCLP limit for cadmium, averaging 13.1 and 9.6 mg/L respectively for the two charms. https://www.selleckchem.com/ These results demonstrate that high‑cadmium jewelry may pose a serious hazard if mouthed or ingested, and that regulatory standards that do not take into account the potential for increased release of cadmium resulting from damage to jewelry electroplating are inadequate.Economic surveillance for securing water projects driven by non-conventional energy sources is a challenge. The carrying out of these initiatives in economies based on liberalized markets faces governments against the need for guaranteed profits. As water availability has become a relevant global problem, and desalination an energy-intensive demand solution, it is common to combine both kinds of technologies, renewable energy systems and desalination plants. This research investigates the influence of grants, investment rates, and energy and water sales on the commercialization of two desalination technologies. A performance analysis has been carried out taking into account different scenarios. Following this approach, a simulated reverse osmosis desalination plant has been compared with respect to an already granted novel pilot plant. Results show a better fulfilment of the non-economic objectives, and economically profitable not only under certain conditions of conceded grants, and investor's expected benefits but also of sales of water-energy, that highlighted as a limiting factor. The Levelized Cost of Energy might be similar than the Spanish generation means, depending on the cost escalation rate of the loans, and conceded grants. It was found a reduction of 11 euro cents under the average price that could be achieved, for the standard scenario.Protists in aquaculture ponds are key components associated with primary productivity, nutrient cycling, and fish healthy. However, the protist metacommunity diversity, as well as the ecological and environmental factors that structure protist metacommunity in aquaculture ponds remain poorly understood. This study examined protist metacommunities in water and sediment of larval, small juvenile and large juvenile grass carp ponds. The results indicated sediment resuspension became stronger with the increased fish size, which led to high levels of total suspended solids and nitrogen but low levels of phosphate, chlorophyll a and transparency in water. Moreover, sediment resuspension subsequently increased the alpha diversity indexes (i.e., OTU number, Shannon index and Simpson index) of protist communities in water and sediment. Meanwhile, sediment resuspension increased the relative abundance of heterotrophic Ciliophora and Cercozoa, but decreased the relative abundance of autotrophic Chlorophyta, Stramenopiles our understanding of the relationship between fish and protist metacommunity assembly in aquaculture systems.Aerobic methane (CH4) oxidation coupled to denitrification (AME-D) can not only mitigate CH4 emission into the atmosphere, but also potentially alleviate nitrogen pollution in surface waters and engineered ecosystems, and it has attracted substantial research interest. O2 concentration plays a key role in AME-D, yet little is understood about how it impacts microbial interactions. Here, we applied isotopically labeled K15NO3 and 13CH4 and metagenomic analyses to investigate the metabolic and microbial link of AME-D at different O2 levels. Among the four experimental O2 levels of 21%,10%, 5% and 2.5% and a CH4 concentration of 8% (i.e., the O2/CH4 ratios of 2.62, 1.26, 0.63 and 0.31), the highest NO3--N removal occurred in the AME-D system incubated at the O2 concentration of 10%. Methanol and acetate may serve as the trophic linkage between aerobic methanotrophs and denitrifers in the AME-D systems. Methylotrophs including Methylophilus, Methylovorus, Methyloversatilis and Methylotenera were abundant under the O2-sufficient condition with the O2 concentration of 21%, while denitrifiers such as Azoarcus, Thauera and Thiobacillus dominated in the O2-limited environment with the O2 concentration of 10%.