ABSTRACT
The Bohai Bay as a typical semi-enclosed bay in northern China with poor water exchange capacity and significant coastal urbanization, is greatly influenced by land-based inputs and human activities. As a class of pseudo-persistent organic pollutants, the spatial and temporal distribution of Pharmaceuticals and Personal Care Products (PPCPs) is particularly important to the ecological environment, and it will be imperfect to assess the ecological risk of PPCPs for the lack of systematic investigation of their distribution in different season. 14 typical PPCPs were selected to analyze the spatial and temporal distribution in the Bohai Bay by combining online solid-phase extraction (SPE) and HPLC-MS/MS techniques in this study, and their ecological risks to aquatic organisms were assessed by risk quotients (RQs) and concentration addition (CA) model. It was found that PPCPs widely presented in the Bohai Bay with significant differences of spatial and seasonal distribution. The concentrations of ∑PPCPs were higher in autumn than in summer. The distribution of individual pollutants also showed significant seasonal differences. The high values were mainly distributed in estuaries and near-shore outfalls. Mariculture activities in the northern part of the Bohai Bay made a greater contribution to the input of PPCPs. Caffeine, florfenicol, enrofloxacin and norfloxacin were the main pollutants in the Bohai Bay, with detection frequencies exceeding 80 %. The ecological risk of PPCPs to algae was significantly higher than that to invertebrates and fish. CA model indicated that the potential mixture risk of total PPCPs was not negligible, with 34 % and 88 % of stations having mixture risk in summer and autumn, respectively. The temporary stagnation of productive life caused by Covid-19 weakened the input of PPCPs to the Bohai Bay, reducing the cumulative effects of the pollutants. This study was the first full-coverage investigation of PPCPs in the Bohai Bay for different seasons, providing an important basis for the ecological risk assessment and pollution prevention of PPCPs in the bay. © 2022 Elsevier B.V.
ABSTRACT
This report evaluates the training courses delivered under the contract OC/EFSA/SCN1 -https://media.proquest.com/media/hms/PFT/1/vIJ9N?_a=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%3D%3D&_s=2ZOX7J4w4lftnvbm53vy0sKE9lQ%3D ER/2017/01 ‐ Lot 1. Within the period of January 2018 to February 2022 a total of 21 training courses were provided, eight on‐site training courses in Parma at EFSA, six virtual training courses during the Covid‐19 pandemic and seven eLearning courses comprising various numbers of modules.The courses covered different aspects of chemical and biological risk assessment and related tools, namely i) harmonisation of risk assessment methodologies for human health and ecological risk assessment of combined exposure to multiple chemicals (mixture assessment), ii) risk assessment of the application of nanoscience and nanotechnologies in agro/food/feed (nanotoxicity);iii) science‐based criteria for identifying endocrine disruptors in the context of EU legislation on pesticides and biocides (endocrine disruption);iv) principles on genotoxicity on scientific assessment (genotoxicity) and v) computational toxicology approaches and tools (in silico). All tutors were experts in their field and had previously performed training courses on these topics.The target participants of the training courses were members of EFSA’s Scientific Committee/Panels and their working groups as well as employees from national and international regulatory agencies associated with risk assessment of feed and food compounds. Members of the EFSA Networks as well as EFSA scientific staff also participated in the training courses.Courses were evaluated based on the feedback of participants and continuously improved also by integrating updated or new EFSA guidance documents.
ABSTRACT
To reveal the spatiotemporal distribution and risks of plastic additives in Taihu Lake during the COVID-19 pandemic, the occurrences of typical bisphenols, phthalate esters, and benzotriazoles in the surface water of Taihu Lake were investigated. The plastic additives in 19 sites in Taihu Lake were monitored in four seasons, and their potential ecological risks were evaluated. Diethylphthalate (DEP), dimethoxyethyl phthalate (DMEP), benzyl butyl phthalate (BBP), bisphenol A (BPA), and 2-(2H-benzotriazol-2-yl)-4, 6-di-tert-pentylphenol (UV-328) were detected, with detection rates of 100%, 97%, 58%, 98%, and 7%, respectively. During the COVID-19 pandemic, the sharply increasing usage of plastic products did not result in a significant increase in the plastic additives pollution in Taihu Lake. Conversely, the pollution of plastic additives showed a decreasing trend due to reduced human activities. There were significant seasonal differences in the concentrations of plastic additives in Taihu Lake. The average concentrations of plastic additives in spring and summer were 104.7 and 100.3 ng•L-1, respectively, which were higher than those in autumn (30.7 ng•L-1) and winter (29.9 ng•L-1). The plastic additive pollution also showed some differences in spatial distribution. The concentrations of plastic additives near the southwest coast of Taihu Lake were higher than those in other monitoring sites. The presence of plastic additives in Taihu Lake showed low risks to algae with the proportion of 30%. The risks in autumn and winter were higher than those in spring and summer. BPA and UV-328 may have been the main risk factors, which should be of concern. © 2022, Science Press. All right reserved.