上海沙田湖养殖区及周边水体中氟喹诺酮类抗性基因的分布特征及其与环境因子关系

集约化水产养殖区常被认为是水体抗生素和抗性基因的主要潜在来源,然而对其该类水体中抗生素和抗性基因污染情况的研究仍相对匮乏.本文以上海市沙田湖养殖区及周边水体为调查对象,利用宏基因组学高通量测序技术,于2020年9月对水体中的氟喹诺酮类抗生素(fluoroquinolones,FQs)和氟喹诺酮类抗性基因(fluoroquinolones antibiotic resistance genes,FQs-ARGs)的种类和丰度进行了调查,并利用多元统计分析方法研究了水体理化因子和FQs对FQs-ARGs的影响.结果表明,沙田湖养殖区及周边水体共检测出5类耐药机制、共46种FQs-ARGs,其中各水体共有基因为44种.抗性基因mfd和patA在养殖水体和周边水体中均为优势抗性基因,抗生素抗性基因变异或突变为优势耐药机制.养殖水体和周边河湖水体、不同养殖品种水体之间FQs-ARGs的平均丰度无显著差异(P＞0.05).偏冗余分析(pRDA)表明,除了诺氟沙星和环丙沙星2种抗生素外,水体电导率(Spc)、总磷(TP)、总氮(TN)、氨氮(NH4+-N)、溶解氧(DO)、pH和叶绿素a(Chl-a)等环境因子是影响水体中FQs-ARGs组成与分布的关键性因子,且非抗生素因子的总贡献率远高于抗生素.     

外秦淮河底泥污染及疏浚效果

外秦淮河是南京市一条重要的城市景观行洪河道,多年来受工业及生活污水影响,内源污染严重.为充分了解外秦淮河底泥污染特征,为疏浚提供决策依据,对河道上、中和下游典型断面底泥界面微环境以及营养物含量进行调查,采用有机指数法和污染指数法对底泥污染状况进行评估,同时根据污染物垂向分布特征模拟清淤对底泥内源释放削减的影响.结果表明,上中下游底泥界面以上DO均值分别为4.62、 3.25和3.41mg·L^-1,且分别在4.4、 3.5和5.5 mm处消耗殆尽,是典型的城市河道污染特征体现.调查河段表层底泥的ω(TN)、ω(TP)和ω(OM)均值分别为1 734mg·kg^-1、 1 337 mg·kg^-1和4.82%,底泥TN和OM的有机污染指数均值为0.48,处于尚清洁水平,TP的单项污染指数均值为3.18,处于重度污染水平.模拟30 cm清淤深度结果表明,底泥SRP和Fe²⁺的释放速率较清淤前分别削减42%～82%和88%～96%,而NH⁺₄-N的释放速率却较清淤前有...     

Sequential removal of heavy metals ions and organic pollutants using an algal-bacterial consortium

The residual algal-bacterial biomass from photosynthetically supported, organic pollutant biodegradation processes, in enclosed photobioreactors, was tested for its ability to accumulate Cu(II), Ni(II), Cd(II), and Zn(II). Salicylate was chosen as a model contaminant. The algal-bacterial biomass combined the high adsorption capacity of microalgae with the low cost of the residual biomass, which makes it an attractive biosorbent for environmental applications. Cu(II) was preferentially taken-up from the medium when the metals were present both separately and in combination. There was no observed competition for adsorption sites, which suggested that Cu(II), Ni(II), Cd(II), and Zn(II) bind to different sites and that active Ni(II), Cd(II) and Zn(II) binding groups were present at very low concentrations. Therefore, special focus was given to Cu(II) biosorption. Cu(II) biosorption by the algal-bacterial biomass was characterized by an initial fast cell surface adsorption followed by a slower metabolically driven uptake. pH, Cu(II), and algal-bacterial concentration significantly affected the biosorption capacity for Cu(II). Maximum Cu(II) adsorption capacities of 8.5+/-0.4 mg g-1 were achieved at an initial Cu(II) concentration of 20 mg l-1 and at pH 5 for the tested algal-bacterial biomass. These are consistent with values reported for other microbial sorbents under similar conditions. The desorption of Cu(II) from saturated biomass was feasible by elution with a 0.0125 M HCl solution. Simultaneous Cu(II) and salicylate removal in a continuous stirred tank photobioreactor was not feasible due to the high toxicity of Cu(II) towards the microbial culture. The introduction of an adsorption column, packed with the algal-bacterial biomass, prior to the photobioreactor reduced Cu(II) concentration, thereby allowing the subsequent salicylate biodegradation in the photobioreactor.     

北京市危险化学品安全生产技术支撑体系建设

1引言 近年来,在北京市委、市政府的领导下,各职能部门的协同努力下,北京市危险化学品安全生产工作取得了显著成绩,制定了一系列危险化学品安全生产管理规范,开展了危险化学品从业单位安全质量标准化活动,进一步提高了从业单位的安全生产管理水平,我市危险化学品安全生产状况总体趋向好转.     

隧道施工地质灾害分析与防治对策

根据隧道施工地质灾害成因与特性,对隧道施工地质灾害进行分类,并对其特点进行分析,提出隧道施工地质灾害防治原则。在建立隧道施工地质灾害监测与预警系统的基础上,对常见灾害中的塌方、涌水、突泥、瓦斯爆炸、岩爆等现象提出防治措施,旨在为隧道安全施工提供参考。     

青藏工程走廊道路工程阴阳坡效应研究现状及展望

青藏工程走廊整体呈东北-西南走向,加之青藏高原强烈的太阳辐射及大气透明度高,导致廊内路基工程存在显著的"阴阳坡"效应。在阴阳坡热效应作用下,路基阳坡路肩沉降变形普遍大于阴坡路肩,由此引发包括路基倾斜、边坡滑塌、纵向裂缝等一系列路基路面病害问题,严重影响了路基工程的长期稳定性,大幅增加了工程后期运营维护成本。针对这一问题,从青藏工程走廊阴阳坡效应的成因、阴阳坡效应作用下路基体冻融过程及地基温度场分布、路基的横向差异沉降变形、阴阳坡效应相关路基路面病害以及防控措施5个方面系统论述了目前的研究和工程实践现状,并结合阴阳坡效应的量化研究、防治措施的有效性等方面就未来需要开展的研究工作进行了展望,以期为青藏工程走廊内路基工程的建设与维护提供参考。     

Treatment of fluoride-contaminated water. A review

Environmental Chemistry Letters - Delivering the right amount of fluoride to drinking water protects the teeth from decay and reduces the risk of cavities. Nonetheless, fluorosis has been...     

水体颗粒物以及土壤对有机物吸附常数的测定

本文介绍了用批量平衡测定水体悬浮颗粒物以及土壤对有机物吸附常数的测定方法，并给出实例和方法的注意事项。     

无机陶瓷纳滤膜分离高钠盐废水中的锶

本实验研究表明,仅用截留分子量为1000的无机陶瓷纳滤膜分离高钠盐模拟溶液中的锶,分离效果并不理想.为提高陶瓷纳滤膜对锶的选择分离效果,选择了分子量为3000的聚丙烯酸作为陶瓷纳滤膜分离的强化剂,重点探讨了溶液pH值、聚丙烯酸浓度、温度及离子强度对模拟溶液盐分离效果和膜通量的影响,并得到了适宜的锶钠分离条件.实验结果表明,在适宜条件下,通过聚丙烯酸强化和两级分离,陶瓷纳滤膜可大大提高模拟溶液中锶离子的选择分离效果,锶/钠的分离因子高达205.