利用成组生物测试评估不同深度处理工艺出水的安全性

针对北京北小河污水处理厂出水经深度处理后回用于奥运公园的生态安全性 ,用成组生物毒性测试方法比较了不同深度处理工艺对导致急性毒性的物质、内分泌干扰物质和Ah受体效应物质的去除效果 .结果表明 :城市污水厂出水中含有急性毒性、内分泌干扰和Ah受体效应毒性特征的污染物 ,超滤和活性炭对不同类型物质均有较好的去除效果 .活性炭吸附能基本有效去除具有急性毒性污染物 ,对Ah受体特征物质的去除率达到了98% ;超滤对非极性、具有急性毒性特征的物质和极性的类雌激素物质去除效果最好 ,经超滤处理后的出水非极性组分细胞存活率达100% ,极性组分雌激素当量由0.13pmol·L^-1下降到0.04 pmol·L^-1.微滤和反渗透工艺不能有效去除有毒有机污染物 .进行生物毒性测试时 ,不同组分之间可能存在相互作用 ,需要采用样品分级方法 .     

工业废水生物综合毒性监测与评价

蚕豆微核、发光细菌急性毒性、鱼类急性毒性等实验基础上，采用PEEP（潜在的毒性效应）和CHIMIOTOX（预测毒性）等指数对6个重点行业的10家受试企业的工业废水生物综合毒性进行了监测与评价。结果表明，受试企业所排放废水的生物毒性均较大，迫切需要治理.     

污水的青海弧菌Q67生物毒性检测及影响因素分析

应用淡水发光细菌--青海弧菌Q67对氧化沟处理工艺各处理单元进出水的生物急性毒性进行检测,对污水急性毒性检测的影响因素进行了分析.结果表明,水样取回后立即进行发光细菌毒性实验,水样均显示为刺激发光效应,污水毒性被掩盖;将水样放置1 d后进行毒性实验,部分水样显现出抑制发光效应;将污水用0.45μm微滤膜过滤可以使水样的...     

三峡库区消落带水体DOM不同分子量组分三维荧光特征

本研究利用超滤技术和三维荧光光谱,以三峡库区典型消落带水体溶解性有机质(DOM)不同分子量组分为对象,分析和讨论了不同分子量级分的组成差异和输入来源.结果表明,该区域DOM分子量分布情况较为分散,但胶体(M_r1×10~3~0.22μm)和真溶态组分(M_r1×10~3)均对DOC总质量贡献相当.不同分子量级分中均存在A、C、B、T峰,其相对含量分配均呈现出一致趋势,即真溶态(M_r1×10~3)低分子量组分(M_r1×10~3~10×10~3)中分子量组分(M_r10×10~3~30×10~3)高分子量组分(M_r30×10~3~0.22μm).另外,DOM随超滤分子量等级降低,FI和BIX值增加,"内源"输入特征增强;腐殖化程度降低(HIX值下降).陆源输入主要影响高、中分子组分,而内源输入主要影响低分子及真溶态部分.同时,沿岸不同土地利用类型对水体DOM性质和组成影响明显.土地利用类型多样性、生态景观结构复杂程度越高,水体DOM不同分子量等级中各荧光组分也越复杂.     

道路雨水径流溶解性有机物与重金属结合作用分析

为了解道路雨水径流溶解性有机物(DOM)与重金属的相互作用,采用荧光激发-发射矩阵光谱、超滤、离子选择电极法及红外光谱等技术对道路雨水径流溶解性有机物及其组分同Cu~(2+)、Pb~(2+)和Cd~(2+)的络合作用进行了研究.结果表明,道路雨水径流DOM与3种重金属离子的络合作用由强到弱依次是:Cu~(2+)Pb~(2+)Cd~(2+),4种分子量DOM组分与重金属之间均发生了络合反应,且DOM组分分子量越小,与重金属之间的络合作用越强.4个不同分子量区间的DOM组分与Cu~(2+)、Pb~(2+)和Cd~(2+)之间的络合作用由强到弱的顺序为:1 kDa组分、1~10 kDa组分、10~30kDa组分、30 kDa~0.45μm组分.     

石化废水生物毒性监测与评价研究

应用蚕豆微核试验、发光细菌急性毒性试验、鱼类急性毒性试验单项指标及生物综合毒性PEEP（潜在的毒性效应指标）对石化行业5家企业、13个排放口废水的生物毒性和企业污水处理装置进行监测与评价。结果表明,受试企业污水处理装置设计合理,但总排PEEP指标均未达到排放标准。     

发光细菌活性控制的温度条件分析研究

以明亮发光杆菌和鳆鱼发光杆菌为研究对象,检测急性毒性和遗传毒性两种有毒物质的生物毒性,通过添加各种冷藏液,将发光细菌放置在液体培养基中,培养至对数生长期进行振荡离心,重新悬浮于脱脂牛奶溶液冷藏,对比脱脂牛奶悬液冷藏、冻干粉复苏后冷藏以及新鲜菌液直接冷藏3种方法的温度条件调控效果.结果表明,发光细菌采用脱脂牛奶菌悬液冷藏6 d后复苏相对发光率可达94.15%,说明采用此种冷藏方式有效提升了发光细菌活性的稳定性,在应对水质毒性快速检测评价中具有较好的应用前景.     

常州市典型工业废水综合急性毒性评估

以不同营养级别的藻(生产者)、溞(消费者)和发光细菌(分解者)为指示生物,在发光细菌急性毒性、大型溞急性毒性和叶绿素荧光急性毒性实验这三者的基础上,采用毒性分级体系(toxicity classification system)对常州市六种典型企业原水和处理出水的综合急性毒性进行了评估及比较。结果表明,六种典型企业原水都具有明显的急性毒性,电镀厂、食品厂和综合污水处理厂的处理出水基本无毒,毒性削减明显,但化工厂、印染厂和电子厂处理出水具有较高的急性毒性,而理化指标监测结果表明这六种处理出水可以直接排放。废水综合急性毒性大小和理化指标结果没有必然联系,应进一步完善理化监测指标,强制性增加生物毒性指标的监测。     

费氏弧菌发光法对Cd^2＋及镉污染土壤的检测

采用发光细菌法（费氏弧菌,Vibrio．fisheri）对镉污染的土壤及Cd^2＋进行毒性检测,分析了不同浓度Cd^2＋和不同镉污染梯度的土壤对发光细菌发光抑制率的影响。结果表明,在0．32～48mg·L^-1这个浓度区间,Cd^2＋对费氏弧菌的剂量一效应关系为CUBIC曲线,相关系数在0．92～0．96之间。镉污染土壤的临界浓度为10mg·kg^-1;土壤镉污染程度越重其pH值越高。     

不同分子量草源DOM与重金属的相互作用

将采集自徒骇河聊城河段沉水植被生长区的DOM分为3个分子量级别：<0.7 μm DOM、<500 kDa DOM、<100 kDa DOM,通过三维荧光结合平行因子分析（EEM-PARAFAC）和荧光滴定法探讨水体中不同分子量DOM的荧光特征及其与重金属（Cu²⁺和Pb²⁺）的络合作用.结果表明：草源DOM的有机碳主要储存在分子量<100 kDa组分中.PARAFAC分析得出4个荧光组分,分别为类色氨酸组分C2、C4,以及酪氨酸组分C1和类腐殖质组分C3.草源DOM主要以分子量<100 kDa的类色氨酸组分C2和酪氨酸组分C1为主.二维相关光谱（2D-COS）表明,与类腐殖物质相比,类蛋白物质优先与Cu²⁺与Pb²⁺发生猝灭,DOM中不同分子量组分与Cu²⁺与Pb²⁺的猝灭顺序未发生改变.在与Cu²⁺结合的过程中,不同 分子量中类腐殖质组分C3的络合常数（logK_a）大于类蛋白组分C1、C2,表明类腐殖质组分的金属结合能力强于类蛋白质组分;随着分子量级别的降低,组分C3的logK_a值逐渐增大（3.47<3.59<3.73）,表明低分子量（<100 kDa）中的类腐殖质与Cu²⁺具有更高的结合能力.不同分子量DOM中,类蛋白组分C1、C2、C4在分子量<0.7 μm DOM中的logK_a值均最高,表明高分子量（<0.7 μm）的类蛋白质更容易与Cu²⁺结合,而Pb²⁺与各组分结合出现了荧光增强或猝灭的现象.DOM-Cu²⁺与DOM-Pb²⁺结合表现出不同的结合规律,反映出金属种类与DOM结合的异质性与复杂性.     

Selective elimination of chromophoric and fluorescent dissolved organic matter in a full-scale municipal wastewater treatment plant

Effluent organic matter (EfOM) from municipal wastewater treatment plants potentially has a detrimental effect on both aquatic organisms and humans. This study evaluated the removal and transformation of chromophoric dissolved organic matter (CDOM) and fluorescent dissolved organic matter (FDOM) in a full-scale wastewater treatment plant under different seasons. The results showed that bio-treatment was found to be more efficient in removing bulk DOM (in terms of dissolved organic carbon, DOC) than CDOM and FDOM, which was contrary to the disinfection process. CDOM and FDOM were selectively removed at various stages during the treatment. Typically, the low molecular weight (MW) fractions of CDOM and protein-like FDOM were more efficiently removed during bio-treatment process, whereas the humic-like FDOM exhibited comparable decreases in both bio-treatment and disinfection processes. Overall, the performance of the WWTP was weak in terms of CDOM and FDOM removal, resulting in enrichment of CDOM and FDOM in effluent. Moreover, the total removal of the bulk DOM (P < 0.05) and the protein-like FDOM (P < 0.05) displayed a significant seasonal variation, with higher removal efficiencies in summer, whereas removal of CDOM and the humic-like FDOM showed little differences between summer and winter. In all, the results provide useful information for understanding the fate and transformation of DOM, illustrating that sub-fractions of DOM could be selectively removed depending on treatment processes and seasonality.     

Heavy metals in rice and garden vegetables and their potential health risks to inhabitants in the vicinity of an industrial zone in Jiangsu, China

Contamination of soil and agricultural products by heavy metals resulting from rapid industrial development has caused major concern. In this study, we investigated heavy metal (Cu, Zn, Pb, Cr, Hg and Cd) concentrations in rice and garden vegetables, as well as in cultivated soils, in a rural-industrial developed region in southern Jiangsu, China, and estimated the potential health risks of metals to the inhabitants via consumption of locally produced rice and garden vegetables. A questionnaire-based survey on dietary consumption rates of foodstuffs showed that rice and vegetables accounted for 64% of total foodstuffs consumed, and over 60% of rice and vegetables were grown in the local region. Average concentrations of Cr, Cu, Zn, Cd, Hg and Pb were 0.75, 2.64, 12.00, 0.014, 0.006 and 0.054 mg/kg dw (dry weight) in rice and were 0.67, 1.18, 4.34, 0.011, 0.002 and 0.058 mg/kg fw (fresh weight) in garden vegetables, respectively. These values were all below the maximum allowable concentration in food in China except for Cr in vegetables. Leafy vegetables had higher metal concentrations than solanaceae vegetables. Average daily intake of Cr, Cu, Zn, Cd, Hg and Pb through the consumption of rice and garden vegetables were 5.66, 16.90, 74.21, 0.10, 0.04 and 0.43 μg/(kg·day), respectively. Although Hazard Quotient values of individual metals were all lower than 1, when all six metal intakes via self-planted rice and garden vegetables were combined, the Hazard Index value was close to 1. Potential health risks from exposure to heavy metals in self-planted rice and garden vegetables need more attention.     

Effect of molecular weight of dissolved organic matter on toxicity and bioavailability of copper to lettuce

To clarify the e ects of molecular weight of dissolved organic matter (DOM) on the toxicity and bioavailability of copper (Cu) to plants, DOM extracted from chicken manure was ultra-filtered into four fractions according to their molecular weights by means of sequential-stage ultrafiltration technique. Lettuce seeds were germinated by being exposed to the solutions containing Cu2+ with or without di erent fractions of DOM. The concentration of copper in roots, leaves, sprouts and the length of roots were investigated. The results showed that not all fractions of DOM could improve copper availability or toxicity. The fraction of DOM with larger molecular weight more than 1 kDa had higher complexation stability with Cu2+ and caused lower concentration of free Cu2+ ion in the solution of copper plus the fraction, resulting in lower availability and toxicity of copper to lettuce, but the fraction with molecular weight less than 1 kDa had the opposite function. Therefore, the molecular weight of 1 kDa may be the division point to determine DOM to increase or decrease copper availability and toxicity.     

水环境中天然溶解有机质分子量的研究现状及意义

溶解有机质存在于所有的水环境中,它是组成不均匀、结构复杂和分子量分布很宽的有机化合物混合体。本文综述了测量溶解有机质分子量的主要方法,各种方法的原理和优缺点,其中详细介绍了高效体积排阻色谱法的原理,平均分子量和分散系数的计算,以及分子量的校正;同时介绍了可能影响分子量分布的主要地球化学因素,以及天然水中溶解有机质的分子量分布的特征。     

Tracking the reactivity of ozonation towards effluent organic matters from WWTP using two-dimensional correlation spectra

The characteristics of effluent organic matter (EfOM) from a wastewater treatment plant (WWTP) during ozonation were investigated using excitation and emission matrix (EEM) spectra, Fourier transform infrared spectroscopy (FT-IR) and high-performance size exclusion chromatography (HPSEC) at different ozone dosages. The selectivity of ozonation towards different constituents and functional groups was analysed using two-dimensional correlation spectra (2D-COS) probed by FT-IR, synchronous fluorescence spectra and HPSEC. The results indicated that ozonation can destroy aromatic structures of EfOM and change its molecular weight distribution (MWD). According to 2D-COS analysis, microbial humic-like substances were preferentially removed, and then the protein-like fractions. Terrestrial humic-like components exhibited inactivity towards ozonation compared with the above two fractions. Protein-like substances with small molecular weight were preferentially reacted during ozonation based on 2D-COS probed by HPSEC. In addition, the selectivity of ozone towards different functional groups of EfOM exhibited the following sequence: phenolic and alcoholic CO groups?>?aromatic structures containing CC double bonds?>?aliphatic CH. X-ray photoelectron spectroscopy (XPS) further elucidated the preferential reaction of aromatic structures in EfOM during ozonation.     

UV-C辐照对河水溶解有机质降解及微生物可利用性的影响

从黄浦江及其上游支流采集表层水样,进行了微生物培养、UV-C辐照和微生物再培养等处理过程,测定水样ρ(DOC)(DOC为溶解有机碳)、紫外可见吸收光谱和荧光光谱,探讨河水DOM(溶解有机质)的光化学降解和微生物可利用性特征. 结果表明:不同处理过程对DOM不同组分去除的贡献率不同,黄浦江河水经微生物培养后,ρ(DOC)和CDOM(有色溶解有机质)含量〔以a₃₃₅(335nm处的吸收系数)计〕分别下降了5%~27%和5%左右,而FDOM(荧光溶解性有机质)含量(以最大荧光强度表示)稍有增加;继续经UV-C辐照24h后,ρ(DOC)和CDOM含量分别下降了7%~36%和79%~96%,而FDOM含量下降了95%以上,说明水体中大部分CDOM和FDOM可通过UV-C辐照去除,并且去除率显著高于微生物降解. UV-C辐照不仅可以降解DOM,而且可以改变DOM的微生物可利用性,其中一部分SLDOM(半活性溶解有机质)经UV-C辐照后能够再次被微生物利用,其中4%~28%的DOC和5%~14%的CDOM可再次被微生物降解.      

Dissolved organic matter removal using magnetic anion exchange resin treatment on biological effluent of textile dyeing wastewater

This study investigated the removal of dissolved organic matter（DOM） from real dyeing bio-treatment effluents（DBEs） with the use of a novel magnetic anion exchange resin（NDMP）.DOMs in two typical DBEs were fractionized using DAX-8/XAD-4 resin and ultrafiltration membranes. The hydrophilic fractions and the low molecular weight（MW）（〈3 kDa） DOM fractions constituted a major portion（〉50%） of DOMs for the two effluents. The hydrophilic and low MW fractions of both effluents were the greatest contributors of specific UV254absorbance（SUVA254）,and the SUVA254 of DOM fractions decreased with hydrophobicity and MW. Two DBEs exhibited acute and chronic biotoxicities. Both acute and chronic toxicities of DOM fractions increased linearly with the increase of SUVA254 value. Kinetics of dissolved organic carbon（DOC） removal via NDMP treatment was performed by comparing it with that of particle active carbon（PAC）. Results indicated that the removal of DOC from DBEs via NDMP was 60%,whereas DOC removals by PAC were lower than 15%. Acidic organics could be significantly removed with the use of NDMP. DOM with large MW in DBE could be removed significantly by using the same means. Removal efficiency of NDMP for DOM decreased with the decrease of MW. Compared with PAC,NDMP could significantly reduce the acute and chronic bio-toxicities of DBEs. NaCl/NaOH mixture regenerants,with selected concentrations of 10% NaCl（m/m）/1%NaOH（m/m）,could improve desorption efficiency.     

Effects of ozonation and coagulation on effluent organic matter characteristics and ultrafiltration membrane fouling

Effluent organic matter （EfOM） is the major cause of fouling in the low pressure membranes process for wastewater reuse. Coagulation and oxidation of biological wastewater treatment effluent have been applied for the fouling control of microfiltration membranes. However, the change in EfOM structure by pre-treatments has not been clearly identified. The changes of EfOM characteristics induced by coagulation and ozonation were investigated through size exclusion chromatography, UV/Vis spectrophotometry, fluorescence spectrophotometry and titrimetric analysis to identify the mechanisms in the reduction of ultrafiltration （UF） membrane fouling. The results indicated that reduction of flux decline by coagulation was due to modified characteristics of dissolved organic carbon （DOC） content. Total concentration of DOC was not reduced by ozonation. However, the mass fraction of the molecules with molecular weight larger than 5 kDa, fluorescence intensity, aromaticity, highly condensed chromophores, average molecular weight and soluble microbial byproducts decreased greatly after ozonation. These results indicated that EfOM was partially oxidized by ozonation to low molecular weight, highly charged compounds with abundant electron- withdrawing functional groups, which are favourable for alleviating UF membrane flux decline.     

Degradation of dissolved organic matter in effluent of municipal wastewater plant by a combined tidal and subsurface flow constructed wetland

Dissolved organic matter (DOM) is an important constituent of wastewater treatment plant (WWTP) effluent. A novel combined tidal and subsurface flow constructed wetland (TF-SSF-CW) of 90 L was constructed for a ten-month trial of advanced treatment of the WWTP effluent. Excitation emission matrix (EEM) fluorescence spectroscopy, parallel factor (PARAFAC) analysis and a two end-member mixing model were employed to characterize the composition and removal process of the effluent DOM (EfOM) from the WWTP. The results showed that the TF-SSF-CW performed an efficient EfOM removal with dissolved organic carbon (DOC) removal rate of 88% and dissolved organic nitrogen (DON) removal rate of 91%. Further analysis demonstrated that the EfOM consisted mainly of two protein moieties and two humic-like groups; protein moieties (76%) constituted the main content of EfOM in raw water and humic-like groups (57%) became the dominating contributor after treatment. The EfOM from the WWTP was mainly of aquatic bacterial origin and evolved to a higher proportion of terrigenous origin with higher humification in the TF-SSF-CW effluent. A common controlling treatment-related factor for determining the concentrations of the same kind of substances (protein groups or humic-like groups) was revealed to exist, and the ratio of removal rates between the same substances in treatment was calculated. Our study demonstrates that the TF-SSF-CW can be a novel and effective treatment method for the EfOM from WWTPs, and is helpful for understanding of the character of EfOM in wetland treatment.     

北运河水体中荧光溶解性有机物空间分布特征及来源分析

利用激发发射矩阵荧光光谱(EEMs)并结合平行因子分析(PARAFAC),研究了北运河荧光溶解有机物(fluorescent dissolved organic matter,FDOM)的荧光组分及其空间分布特征,并对各河段FDOM的来源进行了分析.结果表明,北运河水体FDOM的组分中,代表类腐殖物质的组分含量较多,占总荧光强度平均比例的76.18%,而类蛋白质物质占23.82%.各组分荧光强度与氮、磷等污染物呈显著相关关系,说明FDOM与氮、磷等元素的迁移转化有关系;溶解性有机质呈现出明显的空间分布格局,从上游到下游为先降低后升高.上游区域的FDOM含量受工业废水和沿岸农业径流的影响,溶解性有机质含量较高;中游区域主要受少量生活废水排放的影响,溶解性有机质含量较低;下游区域FDOM来源于周边畜禽养殖废水、生活污水、乡镇工业废水和农田退水等,该区域类蛋白物质的相对丰度明显增加,溶解性有机质含量最高.污水处理厂出水中DOM的含量较高,表明污水处理效果有待进一步提高.