苏州古城区域河道碳氮磷类污染物的分布特征

苏州是水质型缺水城市,节水、减排、控源和截污等工程实施后,水质问题依然严峻.为了解苏州古城区域河道中碳氮磷类污染物的总量及分布特征,提出河道疏浚决策依据,于2019年春季在苏州古城区域采集了20个代表性断面的河道底泥和水体样品,测定了河道底泥的深度,分析了河道底泥和水体样品中碳氮磷类污染指标的含量,评价了河道底泥和水体的污染程度,并预测了换水、引水、降雨和疏浚情境下水质的变化.结果表明,苏州古城区域河道底泥深度在22~1025 mm之间（均值为266 mm）,底泥总质量约为5.2×10⁵ t.底泥中总有机碳、总氮、氨氮、总磷和有效磷平均含量分别为3.4%、2074 mg·kg^-1、140.2 mg·kg^-1、1765 mg·kg^-1和57.2 mg·kg^-1,属中度污染,总磷含量超标点超过90%,环城河污染程度最高,建议优先疏浚.水体中总有机碳、生化需氧量、化学需氧量、总氮、氨氮、凯氏氮、总磷和磷酸盐平均浓度分别为7.8、0.6、13.1、2.5、0.643、1.3、0.18和0.09 mg·L^-1,属重度污染,为劣V类地表水,总氮浓度严重超标.基于沿程碳氮磷类污染物总量的分布情况,苏州古城区域河道疏浚推荐顺序为环城河、古城北部河道、干将河和古城南部河道.降雨情景下,初期径流污染物浓度高,将导致河道水质急剧下降;换水和引水情境下水中总氮总量均减少0.2 t,完全疏浚后水中总氮总量分别进一步减少4.58 t和2.19 t.底泥磷以外源输入为主,可受纳部分水体中的磷,故疏浚后,水体中总磷总量可能增加.     

Decomposition and phosphorus release from four di erent size fractions of Microcystis spp. taken from Lake Taihu, China

Decomposition of Microcystis is accompanied by the release of phosphorus, during bacteria play an important role. A series of experiments were undertaken to evaluate the e ect of bacteria on the decomposition of Microcystis taken from Lake Taihu, China, a lake that is su ering from dense Microcystis blooms. The 16 experiments involved four size fractions of colonial Microcystis with or without the addition of lake sediment and Gram-negative bacterial inhibitor NaN3. The highest decomposition rates were recorded for the smallest size Microcystis fraction (< 25 m) with the addition of the sediment. The lowest decomposition rates were recorded for the smallest Microcystis fraction without the sediment, but with the addition of Gram-negative bacterial inhibitor NaN3. The higher decomposition rates in the treatments with NaN3 and sediment suggest that Gram-positive bacteria in the sediment are important for the decomposition process. Additionally, higher concentrations of total dissolved phosphorus (TDP) in the treatments with NaN3 suggest that more phosphorus accumulates in the Gram-negative bacterial cells around the colony, which may be an important source of phosphorus for Microcystis cells. In the no-sediment treatments, the ratios of TDP concentration to initial TP concentration were 64%–82%. The results of this experiment suggest that both Gram-negative and Gram-positive bacteria play an important role in the decomposition of Microcystis cells and the release of phosphorus from Microcystis colonies.     

硫铁比对再生水深度脱氮除磷的影响

为了考察硫铁比对反硝化脱氮同步除磷效果的影响,进行了不同硫铁比的反硝化脱氮除磷静态实验,并对复合填料系统反硝化脱氮同步除磷作用进行了分析.结果表明,硫铁复合填料的脱氮除磷效果均显著高于单一填料;硫铁比是影响复合填料反硝化脱氮除磷效果的一个关键因素,当硫铁比(体积比)大于等于1∶1时,TN、TP去除率分别达到了85%和97%以上.复合填料脱氮除磷过程均满足二级动力学方程,系统脱氮作用主要依赖于异养反硝化和硫自养反硝化过程,而除磷主要由于海绵铁腐蚀产生的化学除磷作用.     

长江经济带总磷污染状况与对策建议

长江经济带是我国重要的战略区域,加强长江经济带生态环境保护是我国的重大战略部署,在推进我国"五位一体"总体布局建设中具有重要地位,是体现习近平总书记"共抓大保护,不搞大开发"的重要精髓。目前,总磷已成为长江经济带水体首要污染指标,总磷超Ⅲ类的断面比例达到18.3%,主要的一级支流中,沱江、清水江、岷江、乌江总磷平均浓度在地表水Ⅲ类水质标准上下浮动,污染相对较重;长江经济带总磷污染主要受工业、城镇生活、农业等污染源影响,主要涉及四川、贵州、湖北、湖南、重庆等地区;同时结合总磷污染特征分析,提出了涉磷工业企业治理、磷矿管理、城镇生活污水治理、畜禽养殖防治、规范监测方法等治理措施,为长江经济带总磷污染防控提供技术支撑和决策依据。     

污水处理磷回收的研究进展

磷矿数量减少与含磷污水造成的水体富营养化问题对磷资源的可持续利用提出了迫切要求。从污水处理的不同环节回收磷并重新利用,是实现磷资源循环利用的有效途径。本文讨论了国内外磷回收技术的研究进展和应用实例,包括从含磷污泥和富磷污水中回收磷的工艺,并对磷回收的技术经济性进行了分析。     

影响聚磷菌与聚糖菌竞争的关键因素研究进展

增强生物除磷（EBPR）是一种高效、经济的除磷工艺,然而在某些条件下聚糖菌的过量繁殖导致除磷效果恶化。文章阐述了影响聚磷菌和聚糖菌生长的关键因素,从而可以选择性的培养聚磷菌并使其处于竞争优势,这对于提高EBPR的除磷效果、增强工艺的稳定性具有重要的意义。     

Hydrologic Controls on Nitrogen and Phosphorous Dynamics in Relict Oxbow Wetlands Adjacent to an Urban Restored Stream

Although wetlands are known to be sinks for nitrogen (N) and phosphorus (P), their function in urban watersheds remains unclear. We analyzed water and nitrate (NO₃^?) and phosphate (PO₄^3?) dynamics during precipitation events in two oxbow wetlands that were created during geomorphic stream restoration in Baltimore County, Maryland that varied in the nature and extent of connectivity to the adjacent stream. Oxbow 1 (Ox1) received 1.6‐4.2% and Oxbow 2 (Ox2) received 4.2‐7.4% of cumulative streamflow during storm events from subsurface seepage (Ox1) and surface flow (Ox2). The retention time of incoming stormwater ranged from 0.2 to 6.7 days in Ox1 and 1.8 to 4.3 days in Ox2. Retention rates in the wetlands ranged from 0.25 to 2.74 g N/m²/day in Ox1 and 0.29 to 1.94 g N/m²/day in Ox2. Percent retention of the NO₃^?‐N load that entered the wetlands during the storm events ranged from 64 to 87% and 23 to 26%, in Ox1 and Ox2, respectively. During all four storm events, Ox1 and Ox2 were a small net source of dissolved PO₄^3? to the adjacent stream (i.e., more P exited than entered the wetland), releasing P at a rate of 0.23‐20.83 mg P/m²/day and 3.43‐24.84 mg P/m²/day, respectively. N and P removal efficiency of the oxbows were regulated by hydrologic connectivity, hydraulic loading, and retention time. Incidental oxbow wetlands have potential to receive urban stream and storm flow and to be significant N sinks, but they may be sources of P in urban watersheds.     

解磷微生物肥料的研究与进展

磷是植物生长必需的矿物质元素之一,在土壤中易被固定降低其有效性,目前,研究和生产含有解磷功能的微生物有机肥料是转化土壤中无效磷、提高磷肥利用率的有效途径之一。叙述了解磷微生物犯料中微生物的种类、生态分布规律和影响高效解磷微生物选育的外部因素,概述了解磷微生物菌肥的应用和研究进展,探讨了解磷微生物肥料的应用价值。为解磷微生物未来的研究重点提出理论依据。．     

城市污水生物脱氮除磷机理研究进展

介绍了生物脱氮、除磷的基本原理，综述了国内上关于城市污水脱氮除磷机理方面的研究现状和进展，并对今后开展这方面的研究提出展望 。     

模拟降雨条件下沉积物对磷的富集机理

通过模拟降雨径流实验，在７２ｍｍ／ｈ的大暴雨备件下，研究侵蚀性颗粒从土壤中的径流流失过程及其对磷的富集作用和机理。结果表明，深积物中不同粒长团聚体的组成和原来土壤中的组成有很大差异。径流流失的沉积物主要以０．２５ｍｍ以下的团聚体为主，径流中８０％以上的磷以颗粒态形式流失，而颗粒态磷的６０％－９０％随０．１ｍｍ以下的团聚体流失。不同粒径团聚体对磷的富集作用和富集系数不同。模拟实验建立了沉积物富集系数