Melvinarnold4999

Soils are a repository for polychlorinated biphenyls (PCBs). A pot incubation experiment was performed with four soils (black soil, paddy soil, oasis soil, and fluvo-aquic soil) treated with Aroclor 1242 to achieve PCB concentrations of 5 mg kg-1. The soil enzyme activities of protease, phosphatase, catalase, dehydrogenase, and laccase were determined by spectrophotometry. The soil bacterial communities were investigated using Illumina sequencing analysis. The results showed that the characteristics of the test soils varied among the soil types. The fluvo-aquic soil had the greatest PCB dissipation rate (86.41%), followed by the oasis (79.31%), paddy (56.09%), and black (50.65%) soils. The soil pH, cation exchange capacity, soil organic matter content, and particle diameter played significant roles in PCB dissipation from soils. The soil type had a greater influence than PCB contamination on the soil enzyme activities and bacterial communities (alpha diversity, community structure, and composition). Among the four soils, the bacterial communities of the fluvo-aquic soil were the most susceptible to PCB contamination. However, the bacterial communities of the black soil were not changed by PCB contamination.Cadmium (Cd) is a non-biodegradable pollutant that has become a global threat due to its bioaccumulation and biomagnification in higher trophic levels of the food chain. Green technologies such as phycoremediation is an emerging approach and possess edge over conventional methods to remediate Cd from the environment. The present investigation elucidates the adaptive mechanism of a freshwater microalga, Scenedesmus sp. IITRIND2 under Cd stress. The microalga showed excellent tolerance to Cd stress with IC50 value of ~32 ppm. Ponatinib supplier The microalga showed phenomenal removal efficiency (~80%) when exposed to 25 ppm of Cd. Such a high uptake of Cd by the cells was accompanied with increased total lipid content (~33% of dry cell weight). Additionally, the elevated level of ROS, lipid peroxidation, glycine-betaine, and antioxidant enzymes evidenced the activation of efficient antioxidant machinery for alleviating the Cd stress. Further, analysis of the fatty acid methyl ester (FAME) presented a steady increase in saturated and polyunsaturated fatty acids with biodiesel properties complying the American and European fuel standards. The study proposes an integrated approach for bioremediation of toxic Cd using hyper-tolerant microalgal strains along with biodiesel production from the generated algal biomass.The recovery of polymeric substances from excess sludge is gaining significant research interest in future wastewater treatment technologies. We present a surfactant-enhanced ultrasonic method to extract mixed polymeric substances with typical functional groups from excess sludge. Four potential reasons were revealed for the higher efficiency upon ultrasonication with surfactant low surface tension, damage of non-covalent bonds between extracellular polymeric substances and cells, enhanced dissolution of polymeric substances, and release of intracellular polymeric substances caused by cell lysis. The increase in extraction efficiency after the addition of cetyltrimethylammonium bromide and sodium dodecyl sulfate reached the maximum of 76.5% and 53.1%, respectively. The contents of polysaccharides, proteins, and DNA were approximately 50% of the total polymeric substances, and the content of protein was higher than that of polysaccharide; the concentration change of the surfactant had a minimal effect on these contents. For the polymeric substances extracted via ultrasonication with surfactant, the size was smaller than that for the non-surfactant extraction; moreover, the contents of metals decreased significantly (Al 0.18% → 0%; Na 0.15% → 0%; Ca 0.24% → 0.11%), which was probably caused by the interaction between the surfactant and metal ions in the excess sludge. The surfactant had a negligible effect on the properties of polymeric substances, adsorption capacity of polymeric substances for heavy metal ions, and dewatering performance of sludge. The recycled polymeric substances may be used as a substitute for commercial adsorbents of heavy metal ions. Thus, the obtained results provide further insight into the recovery of polymeric substances from excess sludge via the surfactant-enhanced ultrasonic method.Environmentally persistent xenobiotics, such as neonicotinoid insecticides, are thought to contribute to insect declines. Much of what is known about the non-target effects on bees comes from oral exposure in eusocial species. However, most bee species are solitary and nest below ground. For them, contaminated nesting resources may represent an important, yet understudied, route of exposure. We examined the effect of chronic contact exposure with realistic soil concentrations of the neonicotinoid imidacloprid (0, 7.5, 15, or 100 ppb) during immature development on adult locomotion (movement speed and distance) and brain development of the solitary bees Osmia lignaria and Megachile rotundata. Adult locomotion and mushroom body morphology were characterized 2 (females) or 4 (males) and 14 (both sexes) days after emergence. Unlike the 0 and 7.5 ppb groups, female O. lignaria treated with 15 and 100 ppb did not move faster with age. If movement speed is associated with foraging or nest-building ability, this could result in a 25% reduction in nest provisioning efficiency over the first 14 days. Young male M. rotundata moved more quickly (7.5 and 100 ppb) and farther (100 ppb) when treated with imidacloprid, potentially increasing their ability to compete for more receptive female bees. We did not detect an effect of imidacloprid on the relative volumes of the neuropil and Kenyon cell subregions. We discuss how an environmentally persistent xenobiotic has the potential to alter population dynamics through changes in adult locomotion, even in the absence of a detectable effect on gross brain morphology.Recently, the residues of quinolones have received widespread attention. However, toxicological studies on aquatic organisms are relatively scarce, especially on the liver metabolism and immune effects of these aquatic organisms. In this study, we investigated the toxic effects of carp exposed to 0, 100 ng/L, and 1 mg/L norfloxacin (NOR) at environmental concentrations for 42 days. In this study, through transcriptomics analysis, we found that some genes involved in lipid metabolism, immune response, and cytochrome P450 metabolism, especially genes accounting for the metabolism-related disorders of glucose and lipid. Defects in these genes and thus their related pathways increase the risk of coming down with nonalcoholic fatty liver disease. Compared to those of the control, results from the biochemical indicators of the treatment group changed significantly, including levels of total cholesterol, triglycerides, glucose, and insulin. Moreover, our results confirmed that NOR at environmental concentrations disordered the metabolism of glucose and lipid in the carp also resulted in hepatocellular and nuclear enlargement.