Determination of selected semi-volatile organic compounds in water using automated online solid-phase extraction with large-volume injection/gas chromatography/mass spectrometry

A rapid, sensitive, and cost-effective analytical method was developed for the analysis of selected semi-volatile organic compounds in water. The method used an automated online solid-phase extraction technique coupled with programmed-temperature vaporization large-volume injection gas chromatography/mass spectrometry. The water samples were extracted by using a fully automated mobile rack system based on x-y-z robotic techniques using syringes and disposable 96-well extraction plates. The method was validated for the analysis of 30 semivolatile analytes in drinking water, groundwater, and surface water. For a sample volume of 10 mL, the linear calibrations ranged from 0.01 or 0.05 to 2.5 μg·L⁻¹, and the method detection limits were less than 0.1 μg·L⁻¹. For the reagent water samples fortified at 1.0 μg·L⁻¹ and 2.0 μg·L⁻¹, the obtained mean absolute recoveries were 70%–130% with relative standard deviations of less than 20% for most analytes. For the drinking water, groundwater, and surface water samples fortified at 1.0 μg·L⁻¹, the obtained mean absolute recoveries were 50%–130% with relative standard deviations of less than 20% for most analytes. The new method demonstrated three advantages: 1) no manipulation except the fortification of surrogate standards prior to extraction; 2) significant cost reduction associated with sample collection, shipping, storage, and preparation; and 3) reduced exposure to hazardous solvents and other chemicals. As a result, this new automated method can be used as an effective approach for screening and/or compliance monitoring of selected semi-volatile organic compounds in water.     

Preparation of hapten-specific monoclonal antibody for cadmium and its ELISA application to aqueous samples

High-affinity and specific monoclonal antibodies against cadmium-ethylene diamine tetraacetic acid (EDTA) complex have been produced using the hybridoma technique. A hapten was synthesized and characterized by Fourier Transform Infrared Spectroscopy (FT-IR) and UV-Vis. Competitive enzyme-linked immunosorbent assay (ELISA) for quantitative detection of cadmium in aqueous sample was developed. The monoclonal antibody with high level of binding affinity for Cd-IEDTA-BSA and high specificity for soluble Cd-EDTA complex showed less than 0.99% cross-reactivity with other 11 metals. The limit of detection was 0.10 μg·L⁻¹, and the effective linear range was 10⁻¹–10³ μg·L⁻¹. The intra- and inter-assay coefficient variations were 1.5%–6.3% and 3.2%–7.4%, respectively. The spike recovery in different water samples were between 98.5% and 110.3%. The detection limit of this assay was well below the allowable concentration of cadmium (3 μg·L⁻¹), and the working range was wider than that of other methods which showed the range of 2.19–86.38 and 0–10³ μg·L⁻¹. The competitive ELISA established in this paper was sensitive and accurate in the screening of cadmium in aqueous samples. The results will lay a solid foundation for construction of an immunoassay kit for cadmium.     

Copper and zinc interaction on water clearance and tissue metal distribution in the freshwater mussel, Cristaria plicata, under laboratory conditions

Copper and zinc interaction on clearance from water and distribution in different tissues was investigated for the freshwater mussel, Cristaria plicata, under laboratory conditions. Clearance rate of Cu or Zn from water was highly dependent on exposure concentration. Interaction effect was most evident at 300 μg·L⁻¹ Cu exposure and depressed the Zn clearance rate significantly (p<0.05). However, the presence of 100 μg·L⁻¹ and 300 μg·L⁻¹ Zn hardly affected the Cu clearance rate. The 300 μg·L⁻¹ Cu presence enhanced Cu accumulation in each tissue most significantly (p<0.01), but caused Zn content to decrease in the gills by 62% (p<0.05), viscera by 49% (p<0.05) and foot by 31% (p<0.05), and increase in the mantle by 97% (p<0.05) and the muscles by 243% (p<0.05) for different Zn exposure treatments. The response of metal accumulation in various tissues of the test mussels indicated that Zn transferred from the gills, viscera and foot to the mantle and muscles might be one of the important characteristics of the Zn regulatory mechanism by leading to a narrow range of Zn concentration in the different tissues.     

Dilution sampling and analysis of particulate matter in biomass-derived syngas

Thermochemical biomass gasification, followed by conversion of the produced syngas to fuels and electrical power, is a promising energy alternative. Real-world characterization of particulate matter (PM) and other contaminants in the syngas is important to minimize damage and ensure efficient operation of the engines it powers and the fuels created from it. A dilution sampling system is demonstrated to quantify PM in syngas generated from two gasification plants utilizing different biomass feedstocks: a BioMax?15 Biopower System that uses raw and torrefied woodchips as feedstocks, and an integrated biorefinery (IBR) that uses rice hulls and woodchips as feedstocks. PM_2.5 mass concentrations in syngas from the IBR downstream of the purification system were 12.8–13.7 μg·m⁻³, which were significantly lower than the maximum level for catalyst protection (500 μg·m⁻³) and were 2–3 orders of magnitude lower than those in BioMax?15 syngas (2247–4835 μg·m⁻³). Ultrafine particle number concentration and PM_2.5 chemical constituents were also much lower in the IBR syngas than in the BioMax?15. The dilution sampling system enabled reliable measurements over a wide range of concentrations: the use of high sensitivity instruments allowed measurement at very low concentrations (∼1 μg·m⁻³), while the flexibility of dilution minimized sampling problems that are commonly encountered due to high levels of tars in raw syngas (∼1 g·m⁻³).     

Development of pretreatment protocol for DNA extraction from biofilm attached to biologic activated carbon (BAC) granules

The biologic activated carbon (BAC) process is widely used in drinking water treatments. A comprehensive molecular analysis of the microbial community structure provides very helpful data to improve the reactor performance. However, the bottleneck of deoxyribonucleic acid (DNA) extraction from BAC attached biofilm has to be solved since the conventional procedure was unsuccessful due to firm biomass attachment and adsorption capacity of the BAC granules. In this study, five pretreatments were compared, and adding skim milk followed by ultrasonic vibration was proven to be the optimal choice. This protocol was further tested using the vertical BAC samples from the full-scale biofilter of Pinghu Water Plant. The results showed the DNAyielded a range of 40 μg·g⁻¹ BAC (dry weight) to over 100 μg·g⁻¹ BAC (dry weight), which were consistent with the biomass distribution. All results suggested that the final protocol could produce qualified genomic DNA as a template from the BAC filter for downstream molecular biology researches.     

Ultrasound-assisted emulsification solidified floating organic drop microextraction for the determination of trace amounts of copper in water samples

A simple and efficient liquid-phase microextraction (LPME) technique was developed using ultrasound-assisted emulsification solidified floating organic drop microextraction (USAE-SFODME) combined with flame atomic absorption spectrometry, for the extraction and determination of trace copper in water samples. 1-(2-Pyridylazo)-2-naphthol (PAN) was used as chelating agent. Microextraction efficiency factors (including extraction solvent type, extraction volume, time, temperature, and pH), the amount of the chelating agent, and salt effect were investigated and optimized. Under the optimum extraction conditions, figures of merit of the proposed method were evaluated. The calibration graph was linear in the range of 20–600 μg·L⁻¹ with a detection limit of 0.76 μg·L⁻¹. The relative standard deviation (R.S.D) for ten replicate measurements of 20 and 400 μg·L⁻¹ of copper was 3.83% and 2.65%, respectively. Finally, the proposed method was applied to tap water, river water, and sea water, and accuracy was assessed through the analysis of certified reference water or recovery experiments.     

Seasonal variation of nitrogen and phosphorus in Xiaojiang River—A tributary of the Three Gorges Reservoir

A yearlong monitoring program in the backwater area of Xiaojiang River (XBA) was launched in order to investigate the eutrophication of backwater areas in tributaries of the Yangtze River in the Three Gorges Reservoir (TGR) in China, starting after the impoundment water level of the TGR reached 156 m. From March 2007 to March 2008, the average concentration of total nitrogen (TN) and total phosphorus (TP) were (1553±484) μg·L⁻¹ and (62±31) μg·L⁻¹, respectively. The mean value of chlorophyll was (9.07±0.91) μg·L⁻¹. The trophic level of XBA was meso-eutrophic, while the general nutrient limitation was phosphorus. The results indicated that XBA has a strong ability to purify itself and has non-point source pollution from terrestrial runoff. The variation of TN/TP ratio was caused by a variation in TN rather than in TP when TN/TP < 22. N-fixation from cyanobacteria occurred and became an important process in overcoming the nitrogen deficit under a low TN/TP ratio. When TN/TP ⩾ 22, the variation of TP affected the TN/TP ratio more significantly than TN. The increase of TP in XBA was caused mainly by particulate phosphorus, which could originate from a non-point source as adsorptive inorganic forms after heavy rainfall and surface runoff. An increase in the river’s flow could also contribute to an unstable environment for the growth of phytoplankton.     

我国北方温带水库——周村水库季节性热分层现象及其水质响应特性

为揭示我国北方温带水库——周村水库水体季节性分层现象及其水质响应特性,于2014年7月~2015年6月对周村水库进行了37次采样,并对水体理化指标和浮游植物进行了原位监测.结果表明,周村水库在4~11月间处于水体分层,全年呈典型的温带单循环混合模式.水温分层对水库水环境的变化起着重要的作用,热分层引起的底层水体季节性缺氧,导致了沉积物中营养盐以及还原性物质的大量释放,其中热分层期底层水体总氮、总磷、锰和硫化物的平均值分别为1.18、0.11、0.47和0.48 mg·L~(-1);浮游植物垂向分布受水温分层的显著影响,热分层期上层水体浮游植物丰度较高,其均值为16.35×106cells·L~(-1),下层水体浮游植物丰度维持在较低水平.     

Carbon dioxide fixation by Chlorella sp. USTB-01 with a fermentor-helical combined photobioreactor

A promising microalgal strain isolated from fresh water, which can grow both autotrophically on inorganic carbon under lighting and heterotrophically on organic carbon without lighting, was identified as Chlorella sp. USTB-01 with the phylogenetic analysis based on 18S ribosomal ribonucleic acid (rRNA) gene sequences. In the heterotrophic batch culture, more than 20.0 g·L⁻¹ of cell dry weight concentration (DWC) of Chlorella sp. USTB-01 was obtained at day 5, and which was used directly to seed the autotrophic culture. A novel fermentor-helical combined photobioreactor was established and used to cultivate Chlorella sp. USTB-01 for the fixation of carbon dioxide (CO₂). It showed that the autotrophic growth of Chlorella sp. USTB-01 in the combined photobioreactor was more effective than that in the fermentor alone and the maximum DWC of 2.5 g·L⁻¹ was obtained at day 6. The highest CO₂ fixation of 95% appeared on day 1 in the exponential growth phases of Chlorella sp. USTB-01 and 49.8% protein was found in the harvested microalgal cells.     

Adsorption of fluoride on clay minerals and their mechanisms using X-ray photoelectron spectroscopy

This research investigates the adsorption mechanisms of fluoride (F) on four clay minerals (kaolinite, montmorillonite, chlorite, and illite) under different F⁻ concentrations and reaction times by probing their fluoride superficial layer binding energies and element compositions using X-ray photoelectron spectroscopy (XPS). At high F⁻ concentrations (C ₀ = 5–1000 mg·L⁻¹), the amount of F⁻ adsorbed (Q _F), amount of hydroxide released by clay minerals, solution F⁻ concentration, and the pH increase with increasing C ₀. The increases are remarkable at C ₀>50 mg·L⁻¹. The QF increases significantly by continuously modifying the pH level. At C ₀<5–100 mg·L⁻¹, clay minerals adsorb H⁺ to protonate aluminum-bound surface-active hydroxyl sites in the superficial layers and induce F⁻ binding. As the C ₀ increases, F⁻, along with other cations, is adsorbed to form a quasi-cryolite structure. At C ₀>100 mg·L⁻¹, new minerals precipitate and the product depends on the critical Al³⁺ concentration. At [Al³⁺]>10^−11.94 mol·L⁻¹, cryolite forms, while at [Al³⁺]<10^−11.94 mol·L⁻¹, AlF₃ is formed. At low C ₀ (0.3–1.5 mg·L⁻¹), proton transfer occurs, and the F⁻ adsorption capabilities of the clay minerals increase with time.     

A hybrid membrane process for simultaneous thickening and digestion of waste activated sludge

A hybrid membrane process for simultaneous sludge thickening and digestion (MSTD) was studied. During one cycle (15 d) of operation under a hydraulic retention time of 1 d, the concentration of mixed liquor suspended solids (MLSS) continuously increased from about 4 g·L⁻¹ to 34 g·L⁻¹, and the mixed liquor volatile suspended solids (MLVSS) increased from about 3 g·L⁻¹ to over 22 g·L⁻¹. About 42% of the MLVSS and 39% of the MLSS reduction were achieved. The thickening and digestion effects in the MSTD were further analyzed based on a mass balance analysis. Test results showed that biopolymers and cations of biomass were gradually released to the bulk solution during the process. It was also found that the capillary suction time, colloidal chemical oxygen demand, soluble microbial products, viscosity, and MLSS had significant positive correlations with the membrane fouling rate, whereas extracellular polymeric substances, polysaccharides, and proteins extracted from biomass had negative impacts on membrane fouling.     

Physical and chemical processes of wintertime secondary nitrate aerosol formation

The UCD/CIT model was modified to include a process analysis (PA) scheme for gas and particulate matter (PM) to study the formation of secondary nitrate aerosol during a stagnant wintertime air pollution episode during the California Regional PM_2.5/PM₁₀ Air Quality Study (CRPAQS) where detailed measurements of PM components are available at a few sites. Secondary nitrate is formed in the urban areas from near the ground to a few hundred meters above the surface during the day with a maximum modeled net increase rate of 4 μg·m⁻³·d⁻¹ during the study episode. The secondary nitrate formation rate in rural areas is lower due to lower NO₂. In the afternoon hours, near-surface temperature can be high enough to evaporate the particulate nitrate. In the nighttime hours, both the gas phase N₂O₅ reactions with water vapor and the N₂O₅ heterogeneous reactions with particle-bound water are important for secondary nitrate formation. The N₂O₅ reactions are most import near the surface to a few hundred meters above surface with a maximum modeled net secondary nitrate increase rate of 1 μg·m⁻³·d⁻¹ and are more significant in the rural areas where the O₃ concentrations are high at night. In general, vertical transport during the day moves the nitrate formed near the surface to higher elevations. During the stagnant days, process analysis indicates that the nitrate concentration in the upper air builds up and leads to a net downward flux of nitrate through vertical diffusion and a rapid increase of surface nitrate concentration.     

制革废水处理过程中磺胺类抗生素和抗性细菌的分布特征

针对两家制革厂废水处理过程中3种磺胺类抗生素和磺胺类抗性细菌的丰度和分布特性以及两个不同工艺污水处理厂对抗生素的去除规律做了相关研究.结果表明,3种抗生素在两家制革污水处理过程中均有检出,水样中3种抗生素的总质量浓度在59.1~706.7 ng·L~(-1)之间;两家制革厂废水处理剩余污泥中3种抗生素的总含量分别为4 388 ng·kg~(-1)和2 979.4ng·kg~(-1),与市政污水处理厂中的抗生素含量相差不大.不同的污水处理工段对3种抗生素去除效果不同,但去除效率均大于70%.生物处理单元对抗生素的去除率相对较高,而厌氧池是去除抗生素的主要阶段(去除率50%).两个制革厂的进出水和剩余污泥中共筛选出8株抗性细菌,这8个分离菌株可分为5个菌属.进出水中的抗性细菌含量介于9.37×10~3~5.08×10~5CFU·mL~(-1)之间,剩余污泥中的磺胺类抗性细菌含量较高分别为1.17×10`7CFU·g~(-1)和7.2×10~6CFU·g~(-1).两个制革污水处理厂对磺胺甲唑抗性细菌的去除率分别达到了1.34 log和2.15 log.     

大连海域入海污染源中PFASs的赋存、输入通量和季节特征

本文对大连海域入海河流和入海排污口中19种PFASs和2种PFOS新型替代品Cl-PFESAs进行了分析,估算其入海通量,并分析了季节变化特征.结果表明,研究区域入海河流中总PFASs的含量范围为9. 85～757 ng·L~(-1)(浓度中位数为74. 7 ng·L~(-1)),与国内外其他河流相比,大连海域入海河流中总PFASs的含量处于中等或较低水平;入海排污口中总PFASs的含量范围为9. 19～801 ng·L~(-1)(浓度中位数为29. 5 ng·L~(-1)).入海河流和入海排污口中PFASs的主要贡献要素为PFOS和PFOA,其中入海河流、市政污水和污水处理厂出水中总PFASs含量未发现明显的季节差异特征,但工业废水中冬季含量显著高于夏季.计算结果显示,大连海域总PFASs入海通量约123 g·d~(-1)(44. 7 kg·a~(-1)),入海河流和入海排污口的贡献相当.全氟/多氟醚类磺酸化合物(Cl-PFESAs)检出率较低,其中8∶2Cl-PFESA均为检出.     

活性炭催化过硫酸钠降解金橙G动力学

采用颗粒活性炭(granular active carbon,GAC)催化过硫酸钠(sodium persulfate,PDS)产生具有强氧化性的硫酸根自由基,以偶氮染料金橙G(orange G,OG)为目标污染物,研究了其降解过程及动力学.结果表明,GAC/PDS体系能通过氧化作用有效地去除金橙G,其中氧化降解速率主要与PDS投量、GAC投加量、溶液的初始浓度及反应温度有关,升高温度和GAC投量可以显著地加快OG的降解.且在初始浓度为0.050～0.125 mmol·L-1、pH值为5.0、n(PDS)/n(OG)为10/1～160/1、GAC投量为0.1～1.6 g·L-1、温度为298～338 K的实验范围内,反应的氧化降解符合一级动力学模型且与实验值吻合良好.另外还对GAC重复使用之后的催化效果进行了初步考察.     

金佛山不同高程岩溶泉初春时期溶解态脂类生物标志物研究

为探究金佛山不同高程的表层岩溶泉入春时期溶解有机质的来源和转化特点,于2017年1、2和4月分别在水房泉(2045 m)和碧潭泉(730 m)进行采样,利用气相色谱-质谱联用仪(GC-MS)对样品中脂类生物标志物(溶解态正构烷烃、脂肪酸)的组分进行定量分析.结果表明,水房泉和碧潭泉溶解态正构烷烃(T-ALK)含量变化范围分别为1546~19314 ng·L~(-1)和1089~12234 ng·L~(-1),平均含量分别为8036、5553ng·L~(-1);脂肪酸变化范围分别为4163~13048 ng·L~(-1)和5519~10079 ng·L~(-1),平均含量分别为8039和8421 ng·L~(-1).由于春季气温回升和降水增多,正构烷烃和脂肪酸含量总体均处于上升趋势.同时,基于正构烷烃分子参数CPI、OEP、TAR、L/H发现,溶解态正构烷烃以细菌源为主,高等植物源输入逐月升高,以低海拔处的碧潭泉变化更为显著.溶解态脂肪酸1、2月以细菌源为主,4月以真菌源和高等植物源脂肪酸为主,细菌源比重依然较高,且因不同海拔的生境不同导致碧潭泉的水生生物输入较水房泉更稳定.     

Decomposition of perfluorooctanoic acid by microwaveactivated persulfate: Effects of temperature, pH, and chloride ions

Microwave-hydrothermal treatment of persistent and bioaccumulative perfluorooctanoic acid (PFOA) in water with persulfate (S₂O₈²⁻) has been found effective. However, applications of this process to effectively remediate PFOA pollution require a better understanding on free-radical scavenging reactions that also take place. The objectives of this study were to investigate the effects of pH (pH = 2.5, 6.6, 8.8, and 10.5), chloride concentrations (0.01–0.15 mol·L⁻¹), and temperature (60°C, 90°C, and 130°C) on persulfate oxidation of PFOA under microwave irradiation. Maximum PFOA degradation occurred at pH 2.5, while little or no degradation at pH 10.5. Lowering system pH resulted in an increase in PFOA degradation rate. Both high pH and chloride concentrations would result in more scavenging of sulfate free radicals and slow down PFOA degradation. When chloride concentrations were less than 0.04 mol·L⁻¹ at 90°C and 0.06 mol·L⁻¹ at 60°C, presence of chloride ions had insignificant impacts on PFOA degradation. However, beyond these concentration levels, PFOA degradation rates reduced significantly with an increase in chloride concentrations, especially under the higher temperature.     

台州长潭水库铁锰质量浓度变化特征及其成因分析

2013年1月以及4~12月对浙江省台州市长潭水库库区及其入库河流进行调查,同时结合历年监测数据,考察了水源水库中铁、锰质量浓度的变化特征,并依据水库水体温度、溶解氧(DO)随水体深度的变化,探讨了铁、锰超标的成因.结果表明,长潭水库水体中铁锰质量浓度季节性变化特征明显,铁、锰质量浓度在6~8月较高,水库出水口处历年最高值分别为2.38 mg·L-1和1.24 mg·L-1.铁、锰质量浓度超出《地表水环境质量标准》(GB 383822002)中0.3 mg·L-1和0.1 mg·L-1限值的情况主要发生在5~10月,2013年水库出水口处铁锰峰值分别超标5.6倍和12.4倍.入库河流铁锰质量浓度最高值分别为0.89 mg·L-1和0.56 mg·L-1,均小于同期水库出水口处铁锰质量浓度,综合分析表明外源污染并非库区水体铁锰的主要来源.7月铁锰在水库底层的质量浓度达到最大,分别为2.42 mg·L-1和1.20 mg·L-1.水体温度、溶解氧以及铁锰质量浓度在夏季的垂向分布特征表明水体热分层引起的季节性缺氧导致了沉积物中铁锰的释放,热分层效应引发的内源污染是库区水体铁锰超标的直接原因.水源水库铁锰污染的控制应该采用高效直接的原位水质改善和修复技术.     

典型药物在医院废水和城市污水处理厂中的污染特征及去除情况

本研究采用固相萃取结合高效液相色谱-串联三重四级杆质谱仪监测了17种苯二氮类药物、14种酸性药物和5种中性药物在广东省广州市的4座医院污水处理系统（H1~H4）和3座城市污水处理厂（W1~W3）中的污染特征.结果表明,在医院污水处理系统中检测到10种苯二氮类药物、8种酸性药物和3种中性药物,进出水中的浓度范围分别为0.41~23376 ng·L^-1和0.11~22888 ng·L^-1;在城市污水处理厂中检测到8种苯二氮类药物、8种酸性药物和4种中性药物,进出水中的浓度范围分别为0.4~1695 ng·L^-1和0.1~1526 ng·L^-1.其中,检测到浓度较高的苯二氮类药物分别为劳拉西泮［（53.1±2.7）ng·L^-1,H1］、奥沙西泮［（39.5±4.1）ng·L^-1,W2］和氯氮平［（30.6±4.0）ng·L^-1,W1］,布洛芬［（19014±5430）ng·L^-1,H1］和扑热息痛［（2600±570）ng·L^-1,H2］分别是酸性和中性药物中检测浓度最高的药物.大部分苯二氮类药物在医院污水处理系统和污水处理厂中的去除率均低于30%.酸性和中性药物的去除率远高于苯二氮类药物,且在污水处理厂中的去除率大部分在60%~99%之间,高于医院污水处理系统（10%~60%）.最后,根据人均污染负荷推算了典型药物在广东省和广州市的使用量以及广州市的年排放量,20种药物在广东省和广州市的总使用量分别为30371 kg·a^-1和3942 kg·a^-1,其中扑热息痛和布洛芬的使用量最高,苯二氮类药物中奥沙西泮和劳拉西泮也有较高的使用量.20种药物在广州市的排放量达到了1456 g·a^-1,各类药物的排放量范围为3.07（甲芬那酸）~378 g·a^-1（奥沙西泮）.     

北京水环境中氯胺酮和去甲氯胺酮的浓度水平

利用高效液相色谱-串联质谱联用仪(HPLC-MS/MS)测定了北京市生活污水和自然水体中氯胺酮及其代谢产物去甲氯胺酮的浓度水平.样品采自北京市区内全部13家污水处理厂和流经北京市的四条河流.结果表明,氯胺酮和去甲氯胺酮在北京13家污水处理厂的进水浓度均值范围分别为MQL(method quantification limit,方法定量限)~(19.5±5.1)ng·L~(-1)和MQL~(6.2±2.1)ng·L~(-1),由此计算的负载量均值范围分别为(0.1±0.0)~(8.6±2.4)mg·(1 000人·d)-1和(0.3±0.1)~(3.2±1.1)mg·(1 000人·d)-1.经污水处理厂处理后,氯胺酮和去甲氯胺酮的去除率较低,甚至出现负值.氯胺酮在地表水中被广泛检出,浓度范围为MQL~17.8 ng·L~(-1);去甲氯胺酮在4条河流中的检出浓度均低于MQL.在通惠河中氯胺酮的检出浓度较大多数污水处理厂进水中的浓度高,说明沿河可能有氯胺酮的直接倾倒或排放.