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Among the ten indicators, elevation, slope, and land cover are the most important. It is concluded that the proposed model provides an alternative tool and may help for effectively monitoring flash floods in tropical areas and robust policies for decision making in mitigating the flash flood impacts.Wastewater treatment plant (WWTP) is one of the significant sources of Microplastics (MPs) release to the environment. Di 2-ethyl hexyl phthalate (DEHP) is used as an additive for more flexibility of plastics. In this study, we determined the number, size, shape, and color distribution of MPs as well as the concentration of DEHP in MPs and wastewater during the wastewater treatment process in WWTP. Samples were collected from 4 stations of different treatment stages of WWTP. The microplastic particles and the concentration of DEHP were detected via the fluorescence and polarized light microscopy and GC/MS instrument, respectively. The number of MPs decreased from 9.2 (station 1) to 0.84 MP/L (the final treated effluent) during the wastewater treatment process. Also, the size of MPs at the last station was smaller than the other stations. The mean concentrations of DEHP in MPs in stations 1, 2, 3 and 4 had the respective values of 83.3, 61.05, 30.62 and 17.49 μg/g, while the mean concentrations of DEHP in wastewater in stations 1, 2, 3 and 4 were 30.08, 25.07, 9.56, and 8.13 μg/L, respectively. This study shows that despite the removal of high amounts of MPs and DEHP in the final effluent of WWTP, due to the high volume of this effluent (2.828 × 108 L/d), significant amount of MPs (2.419 × 107 MP/day) and DEHP enter the aquatic environment daily, which may threaten the health of the fish and aquatic organisms and ultimately on the health of the local population.The Payments for Ecosystem Services (PES) program has provided policy innovation for global environmental affairs. China, the largest developing country in the world, is also faced with serious environmental problems. China developed a unique environmental policy - ecological compensation (Eco-compensation), which combined the flexibility of the PES mechanism with efficient government management. The paper studies the efficiency of eco-compensation policy in a large-scale region and the stability of policy in a long-time. We use the counterfactual method - Synthetic Control Method (SCM) to analyze the eco-compensation policy. Zhejiang province, China, which is the first province to implement Eco-compensation policy, chose as study case. We run several robustness checks to discuss the influence of other factors, including economy, politics and geology. The result shows that the eco-compensation policy improve the region's environment significantly. And it never has negative impact for the economy of Zhejiang. We discuss some experiences and challenges of this policy. The paper thinks that localization and the hybrid of government and market could provide successful experience for this policy.Perfluorooctanoic acid (PFOA) is a synthetic, perfluorinated organic acid previously used in fluoropolymer production in the United States. PFOA has been a recent focal point for regulation because of its ubiquitous presence in drinking water throughout the United States. In 2016, the United States Environmental Protection Agency (US EPA) issued a lifetime drinking water Health Advisory (HA) for PFOA of 0.07 μg/L; several states have also implemented their own drinking water guidelines for PFOA. The current study aimed to evaluate the basis and derivation of state and federal guidelines for PFOA in drinking water, with particular emphasis on the exposure parameters utilized. Twelve distinct PFOA drinking water standards were identified ranging from 0.0051 to 2 μg/L. The US EPA HA assumptions were evaluated using a Monte Carlo analysis that included distributions for drinking water intake (DWI) rate and the relative source contribution (RSC). We determined that US EPA's HA of 0.07 μg/L is protective of 99% of the population of lactating women. We also demonstrated that the health-based guidelines were highly variable across states and that the actual RSC of PFOA from drinking water is likely greater than 20%, based on studies of actual PFOA exposures from dust, water, and food. PD166866 A sensitivity analysis was performed using the same equations as the US EPA, while substituting the RSC and DWI variables; resulting in HAs ranging from 0.074 to 0.346 μg/L. We also evaluated the contribution of PFOA in drinking water to the systemic PFOA body burden of the general population using an available biokinetic model. We conclude that more rigorous efforts are warranted to establish consistent health-based drinking water guidelines for PFOA, given that drinking water is a primary source of human exposure to PFOA in the United States.Improving access to water, sanitation, and hygiene (WaSH) and menstrual hygiene management (MHM) in schools is important to achieve Sustainable Development Goals (SDGs) 3 and 6. Inadequate WaSH and MHM in schools adversely affect student health and educational performance, as well as teacher satisfaction. However, there is little evidence describing factors associated with WaSH services and MHM in schools. We conducted 2690 surveys and collected 1946 water samples at randomly selected schools in rural areas of 14 low- and middle-income countries (LMICs). We developed multilevel mixed-effects logistic regression models to identify factors associated with basic water services, water quality, basic sanitation facilities, basic handwashing facilities, and availability of MHM materials. We found that 51% of schools had at least a basic, on-premises water service. Twenty-eight percent of schools had at least basic sanitation services, 12% had at least a basic handwashing facility, and 26% had MHM materials availablls in LMICs.Industrialization and urbanization are expected to increase the release of silver nanoparticles (AgNPs) into aquatic ecosystems. However, it remains to be determined how AgNPs influence nitrogen transformation and the underlying mechanism in natural water bodies. Here, the impact of AgNPs on nitrogen cycling in water-sediment system of a hypereutrophic lake was studied and the mechanism of nitrogen transformation was investigated in terms of the nitrogen functional enzymes and genes. Following 7 days of water-sediment microcosm experiments, the levels of total nitroten (TN) and organic nitrogen (OrgN) were significantly increased by 50 mg/L Ag+ treatment when compared with the non-Ag control (P less then 0.05). In contrast, the levels of TN and Org-N were both slightly decreased by AgNPs treatments (0.5 and 50 mg/L). Additionally, the levels of NO3--N were evidently reduced with the presence of AgNPs (P less then 0.05). Further, our data proved that enzymes and those enzyme encoding genes involved in the nitrogen transformation may directly responsible for the alterations of nitrogen transformation.

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