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1.
Wastewater dissolved organic matter (DOM) from different processing stages of a sewage treatment plant in Xiamen was characterized using fluorescence and absorption spectroscopy. Parallel factor analysis modeling of excitation-emission matrix spectra revealed five fluorescent components occurring in sewage DOM: one protein-like (C1), three humic-like (C2, C4 and C5) and one xenobiotic-like (C3) components. During the aerated grit chamber and primary sedimentation tank stage, there was only a slight decrease in fluorescence intensity and the absorption coefficient at 350 nm (a350). During the second aeration stage, high concentration of protein-like and short-wavelength-excited humic-like components were significantly degraded accompanied by significant loss of DOC (80%) and a350 (30%), indicating that C1 and C2 were the dominant constituents of sewage DOM. As a result, long-wavelengthexcited C4 and C5 became the dominant humic-like components and the DOM molecular size inferred from the variation of spectral slope S (300–650 nm) and specific absorption (a280/DOC) increased. Combination use of Fmax of C1 and the ratio of C1/C5, or a350 may provide a quantitative indication for the relative amount of raw or treated sewage in aquatic environment.  相似文献   

2.
The objective of this research was to quantify the temporal variation of dissolved organic matter(DOM) in five distinct waterbodies in watersheds with diverse types of land use and land cover in the presence and absence of sunlight. The water bodies were an agricultural pond, a lake in a forested watershed, a man-made reservoir, an estuary, and a bay. Two sets of samples were prepared by dispensing unfiltered samples into filtered samples in 1:10 ratio(V/V). The first set was exposed to sunlight(10 hr per day for 30 days) for examining the combined effect of photo-biodegradation, while the second set was stored in dark for examining biodegradation alone. Spectroscopic measurements in tandem with multivariate statistics were used to interpret DOM lability and composition. The results suggest that the agricultural pond behaved differently compared to other study locations during degradation experiments due to the presence of higher amount of microbial humic-like and protein-like components derived from microbial/anthropogenic sources. For all samples, a larger decrease in dissolved organic carbon(DOC) concentration(10.12% ±9.81% for photo-biodegradation and 6.65% ± 2.83% for biodegradation) and rapid transformation of DOM components(i.e., terrestrial humic-like components into microbial humic and protein-like components) were observed during photo-biodegradation experiments.Results suggest that sunlight facilitated DOM biodegradation, resulting in simpler recalcitrant molecules regardless of original composition. Overall, it was found that combined effects of light and bacteria are more efficient than bacterial effects alone in remineralizing and altering DOM, which highlights the crucial importance of sunlight in transforming aquatic DOM.  相似文献   

3.
Three-dimensional fluorescence excitation–emission matrix(EEM) coupled with parallel factor analysis(PARAFAC) was performed for a total of 18 water samples taken from three water sources(two lakes and one wastewater treatment plant(WWTP) secondary effluent),with the purpose of identifying the major ultrafiltration(UF) membrane foulants in different water sources. Three fluorescent components(C1, C2 and C3) were identified,which represented terrestrially derived humic-like substances(C1), microbially derived humic-like substances(C2), and protein-like substances(C3). The correlations between the different fluorescent components and UF membrane fouling were analyzed. It was shown that for the WWTP secondary effluent, all three components(C1, C2 and C3) made a considerable contribution to the irreversible and total fouling of the UF membrane.However, for the two lakes, only the C3 exhibited a strong correlation with membrane fouling, indicating that the protein-like substances were the major membrane foulants in the lake waters. Significant attachment of C1, C2 and C3 to the UF membrane was also confirmed by mass balance analyses for the WWTP secondary effluent; while the attachment of C1 and C2 was shown to be negligible for the two lakes. The results may provide basic formation for developing suitable fouling control strategies for sustainable UF processes.  相似文献   

4.
Photo-production of dissolved inorganic carbon (DIC) from chromophoric dissolved organic matter (CDOM) is an important transformation process in marine carbon cycle, but little is known about this process in Chinese coastal systems. This study investigated an estuarine water sample and a coastal seawater sample from the subtropical waters in southeast of China. Water samples were exposed to natural sunlight and the absorption and fluorescence of CDOM as well as the DIC concentration were measured in the summer of 2009. The estuarine water had higher CDOM level, molecular weight and proportion of humic-like fluorescent components than the seawater that exhibited abundant tryptophan-like fluorescent component. After a 3-day irradiation, the CDOM level decreased by 45% in the estuarine water and 20% in the seawater, accompanied with a decrease in the molecular weight and aromaticity of DOM which was inferred from an increase in the absorption spectral slope parameter. The photo-degradation rates of all the five fluorescent components were also notable, in particular two humic-like components (C4 and C5) were removed by 78% and 69% in the estuarine water and by 69% and 56% in the seawater. The estuarine water had a higher photo-production rate of DIC than the seawater (4.4 vs. 2.5 μupmol/(L.day)), in part due to its higher CDOM abundance. The differences in CDOM compositions between the two types of waters might be responsible for the higher susceptibility of the estuarine water to photo-degradation and hence could also affect the photo-production process of DIC.  相似文献   

5.
The seasonal changes in dissolved organic matter (DOM), and its correlation with the release of internal nutrients during the annual cycle of cyanobacteria in the eutrophic Lake Chaohu, China, were investigated from four sampling periods between November 2020 and July 2021. The DOM fluorescence components were identified as protein-like C1, microbial humic-like C2, and terrestrial humic-like C3. The highest total fluorescence intensity (FT) of DOM in sediments during the incubation stage is due to the decomposition and degradation of cyanobacteria remains. The lowest humification of DOM and the highest proportion of C1 in waters during the initial cyanobacterial growth indicate that fresh algae are the main source. The highest molecular weight of DOM and FT of the C2 in sediments during cyanobacterial outbreaks indicate the concurrent deposition of undegraded cyanobacterial remains and microbial degradation. The components of DOM are affected mainly by the dissolved total phosphorus in waters, while the temperature drives the annual cycle of cyanobacteria. The decreasing C1 in sediments and increasing nutrients in waters from the cyanobacterial incubation to outbreak indicate that mineralization of algal organic matter contributes importantly to the release of internal nutrients, with the strongest release of phosphorus observed during the early growth of cyanobacteria. The humic-like C2 and C3 components could also affect the dynamics of internal phosphorus through the formation of organic colloids and organic–inorganic ligands. The results show that the degradation of DOM leads to nutrients release and thus supports the continuous growth of cyanobacteria in eutrophic Lake Chaohu.  相似文献   

6.
Four magnetic anion exchange resins (MAERs) were used as adsorbents to purify drinking water. The effect of water quality (pH, temperature, ionic strength, etc.) on the performance of MAER for the removal of dissolved organic matter (DOM) was also investigated. Among the four studied MAERs, the strong base resin named NDMP-1 with high water content and enhanced exchange capacity exhibited the highest removal rate of dissolved organic carbon (DOC) (48.9% removal rate) and UV-absorbing substances (82.4% removal rate) with a resin dose of 10 mL/L after 30 min of contact time. The MAERs could also effectively remove inorganic matter such as sulfate, nitrate and fluoride. Because of the higher specific UV absorbance (SUVA) value, the DOM in the raw water was found to be removed more effectively than that in the clarified water by NDMP resin. The temperature showed a weak influence on the removal of DOC from 6 to 26℃, while a relatively strong one at 36℃. The removal of DOM by NDMP was also affected to some extent by the pH value. Moreover, increasing the sulfate concentration in the raw water could decrease the removal rates of DOC and UV-absorbing substances.  相似文献   

7.
This study investigated the partitioning behavior of dissolved organic matter(DOM) in liquid and ice phases, as well as the changes in the optical properties and chlorine reactivity of DOM during the freezing processes of water. DOM was rejected from the ice phase and accumulated in the remaining liquid phase during water freezing. Moreover, the decrease in freezing temperature, as well as the increase in dissolved organic carbon(DOC)concentration of feed water, caused an increase in DOM captured in the ice phase. The ultraviolet-absorbing compounds, trihalomethane precursors, as well as fulvic acid- and humic acid-like fluorescent materials, were more liable to be to be rejected from the ice phase and were more easily retained in the unfrozen liquid phase during water freezing, as compared with organics(on average) that comprise DOC. In addition, it was also found a higher accumulation of these organics in the unfrozen liquid phase during water freezing at higher temperature. The freeze/thaw processes altered the quantity, optical properties, and chlorine reactivity of DOM. The decrease in ultraviolet light at 254 nm as well as the production of aromatic protein- and soluble microbial byproduct-like fluorescent materials in DOM due to freeze/thaw were consistently observed. On the other hand, the changes in DOC, trihalomethane formation potential, and fulvic acid- and humic acid-like fluorescence caused by freeze/thaw varied significantly between samples.  相似文献   

8.
This study investigated the partitioning behavior of dissolved organic matter (DOM) in liquid and ice phases, as well as the changes in the optical properties and chlorine reactivity of DOM during the freezing processes of water. DOM was rejected from the ice phase and accumulated in the remaining liquid phase during water freezing. Moreover, the decrease in freezing temperature, as well as the increase in dissolved organic carbon (DOC) concentration of feed water, caused an increase in DOM captured in the ice phase. The ultraviolet-absorbing compounds, trihalomethane precursors, as well as fulvic acid- and humic acid-like fluorescent materials, were more liable to be to be rejected from the ice phase and were more easily retained in the unfrozen liquid phase during water freezing, as compared with organics (on average) that comprise DOC. In addition, it was also found a higher accumulation of these organics in the unfrozen liquid phase during water freezing at higher temperature. The freeze/thaw processes altered the quantity, optical properties, and chlorine reactivity of DOM. The decrease in ultraviolet light at 254 nm as well as the production of aromatic protein- and soluble microbial byproduct-like fluorescent materials in DOM due to freeze/thaw were consistently observed. On the other hand, the changes in DOC, trihalomethane formation potential, and fulvic acid- and humic acid-like fluorescence caused by freeze/thaw varied significantly between samples.  相似文献   

9.
This study provided insights into the persistent yellowish color in biological and tertiary effluents of municipal wastewater through a multi-characterization approach and fluorescence excitation-emission matrix-parallel factor (EEM-PARAFAC) analysis. The characterization was performed on three to five full-scale municipal wastewater treatment plants (WWTPs), including differential log-transformed absorbance (DLnA) spectroscopy, resin fractionation, size-exclusion chromatography for apparent molecular weight analysis (SEC-AMW), and X-ray photoelectron spectroscopy (XPS) analysis. Hydrophobic acids (HPOA) were abundant in visible colored dissolved organic matter (DOM). The SEC-AMW result showed that the molecular weight of the colored substances in the secondary effluents is mainly distributed in the range of 2–3 kDa. Through XPS analysis, C-O/C-N and pyrrolic/pyridonic (N-5) were found to be positively correlated with chroma. PARAFAC component models were built on biological (two components) and tertiary effluent (three components) and the correlation analysis revealed that PARAFAC component 2 in biological effluent (BE-C2) and component 1 in tertiary effluent (TE-C1), which were ascribed to Hydrophobic acids and Humic acid-like, were the responsible visible colored DOM components cause yellowish color. In addition, component similarity testing found that the identified visible colored DOM PARAFAC BE-C2, and PARAFAC TE-C1 were identical (0.96) in physicochemical properties, with 4% removal efficacy on average, compared with 11% for invisible colored DOM. This implied that tertiary effluents containing colorants (TE-C1) were resistant to degradation/removal using different disinfection and filtration processes in advanced treatments. This sheds light on many physicochemical aspects of PARAFAC-identified visible colored DOM components and provides spectral data to build an online monitoring system.  相似文献   

10.
High performance size exclusion chromatography (HPSEC) is used in water quality research primarily to determine the molecular weight distribution of the dissolved organic matter (DOM), but by applying peak fitting to the chromatogram, this technique can also be used as a tool to model and predict DOM removal. Six low specific UV absorbance (SUVA) source waters were treated using coagulation with alum and both the source and treated water samples were analysed using HPSEC. By comparing the molecular weight profiles of the source and treated waters, it was established that several DOM components were not effectively removed by alum coagulation even after high dosage alum treatment. A peak-fitting technique was applied based on the concept of linking the character (molecular weight profile) of the recalcitrant organics in the treated water with those of the source water. This was then applied to predict DOM treatability by determining the areas of the peaks which were assigned to removable organics from the source water molecular weight profile after peak fitting, and this technique quantified the removable and non-removable organics. The prediction was compared with the actual dissolved organic carbon (DOC) removal determined from jar testing and showed good agreement, with variance between 2% and 10%. This confirmed that this prediction approach, which was originally developed for high SUVA waters, can also be applied successfully to predict DOC removal in low SUVA waters.  相似文献   

11.
利用三维激发发射矩阵光谱(3-D EEM)和平行因子分析,研究了三岔河流域平寨水库溶解有机质的来源、组成和转化情况。在平寨水库的入库水、表层水(0~5 m)、深层水(10~60 m)和出库水中,检测到了几种荧光溶解有机质组分,分别为陆源类腐殖质、自源类腐殖质和浮游植物源的类蛋白质(或类色氨酸或类酪氨酸)。陆源类腐殖质的荧光强度在入库水中略高于出库水,表明陆源类腐殖质在水库系统中相对稳定,大坝截流对其影响不大。自源类腐殖质的荧光强度在库区明显高于入库水和出库水,表明自源类腐殖质既由自源有机物分解产生,又在光化学、微生物和大坝物理拦截过程的影响下发生分解;其他荧光组分中也检测到相似的结果。水温、pH、溶解氧和有色溶解有机质表现出相似的季节变化,光化学和微生物以及大坝拦截是引起水库入库水、库区表层水、库区深层水和出库水中荧光溶解有机质时空动态变化的主要原因。  相似文献   

12.
地下水中溶解性有机物的季节变化特征及成因   总被引:9,自引:0,他引:9  
为阐明地下水中溶解性有机物(DOM)的分布特征与环境效应,联合三维荧光光谱、平行因子分析及主成分分析,研究了地下水中DOM的来源及随季节和空间变化特征,探究了地下水DOM组成对无机盐分布的影响.结果显示,地下水DOM主要来自微生物源,可鉴别出4种荧光组分,4种组分中,组分1和3为类蛋白组分,组分2和4属于类腐殖质组分.类蛋白组分来源差异较大,组成不稳定,其含量随季节变化明显,春冬季含量低而夏秋季含量高;类腐殖质组分来源相似,组成稳定,随季节变化小.两类荧光组分,尤其是类蛋白组分,是地下水氨氮的主要来源,可以影响地下水p H值.结果表明,三维荧光光谱结合平行因子和主成分分析,可以解析地下水中有机物的组成特征和季节变化规律.  相似文献   

13.
对黄浦江表层水样的过滤液进行紫外吸收光谱和荧光光谱扫描,并测定了溶解有机碳(DOC)、N-亚硝基二甲胺(NDMA)及其生成潜能(NDMA-FP),探讨了黄浦江溶解有机质(DOM)的光学特性与消毒副产物NDMA生成潜能的关系.结果表明,黄浦江水中NDMA-FP随DOC浓度增加而增加(r=0.487,P<0.01),但与DOM的比吸收系数(SUVA254)和腐殖化指数(HIX)均呈负相关(r=-0.605,P<0.01;r=-0.396,P<0.01);NDMA-FP还与相对较低分子量的类酪氨酸、类色氨酸等类蛋白物质的荧光强度呈显著正相关(r=0.421,P<0.01;r=0.426,P<0.01),而与类腐殖质的荧光强度则呈显著负相关(r=-0.422,P<0.01).因此,黄浦江水中消毒副产物NDMA的生成潜能随着溶解有机质含量的增加而增加,特别是与DOM中的类蛋白组分含量密切相关,但随着DOM的芳香性和腐殖化程度的增强而减少.  相似文献   

14.
长江溶解有机质三维荧光光谱的平行因子分析   总被引:11,自引:0,他引:11       下载免费PDF全文
利用三维荧光光谱(EEMs)研究了2009年9月长江上游至河口近4000km主流区域溶解有机质(DOM)的荧光组分特征及分布变化,结合紫外可见吸收光谱a350,旨在认识长江DOM的组成、来源和迁移转化过程.通过平行因子法(PARAFAC)解谱,得到3个类腐殖质组分H1、H2、H3及2个类蛋白质组分P1、P2.溶解有机碳(DOC)在上游浓度最低,在三峡库区万州附近明显增加,而后趋于稳定.荧光组分峰值之和(∑Fluo)呈类似趋势,和DOC相关性分析(R2=0.92)说明EEMs-PARAFAC可有效示踪溶解有机质的分布.其中蛋白质信号∑P约占∑Fluo的1/4,叶绿素a与∑P、DOC的弱相关性说明自生源不能主导DOM荧光组分分布;不同类腐殖质组分变化趋势不同,H3(Ex/Em:250/450~485nm)在库区后的水体有明显富集,而H1、H2占∑Fluo百分比则有所下降,a350也呈优先降解的趋势,反映了长江DOM迁移转化过程的选择性.  相似文献   

15.
利用三维荧光光谱(EEM)结合平行因子分析(PARAFAC),研究了思林水库冬季(1月)、春季(4月)、夏季(6月)和秋季(10月)上游入库水体、库区表层水(0 m)、库区深层水(20 m)、出库水体的荧光溶解性有机质(FDOM)不同组分的特征、来源及其转化动力学.结果表明,思林水库的溶解性有机质由3种荧光组分组成,分别是:陆源类腐殖质(C类,C1)、浮游植物源的微生物类腐殖质(M类,C2)和浮游植物源的类蛋白或类色氨酸或类酪氨酸(C3).其中陆源类腐殖质的荧光强度随着入库水、库区表层水、库区深层水和出库水逐渐减少,这表明由于光化学作用、微生物作用、大坝拦截效应等环境因素的影响,类腐殖质随着水体由入库向出库的流动而逐渐降解.相反,微生物类腐殖质(M类)的荧光强度结果表明,在入库-出库过程中,微生物类腐殖质处于产生及部分或完全降解的波动中,这表明微生物类腐殖质是浮游植物的原生产物,并且对于光化学作用、微生物作用和大坝拦截效应有很强的不稳定性.类蛋白或类色氨酸或类酪氨酸主要新产生于夏季和秋季的表层水体中,在冬季和春季表层和深层水体中也有产生;并在出库过程中逐渐减少.这表明类蛋白或类色氨酸或类酪氨酸是浮游植物的原生产物;并且它们受到光化学作用、微生物作用和大坝拦截效应的共同影响,在表层和深层水中生成和降解.因此,这些结果意味着通过平行因子分析确定的荧光溶解性有机质组分的方法,对于更好地理解溶解性有机质在水库水体的转化动力学机制至关重要.  相似文献   

16.
河北洨河溶解性有机物光谱学特性   总被引:2,自引:2,他引:0       下载免费PDF全文
基于荧光光谱、紫外吸收光谱与水质基本化学指标,联合主成分分析与相关性分析,对典型城市纳污河流——河北洨河的溶解性有机物(DOM)进行光谱学特性研究.结果表明,河流水体中DOM主要有类蛋白和类腐殖质两类,其中含氮化合物及DOM与水体COD之间相关性较高,尤其以氨氮对类腐殖质贡献较大.因此降低洨河水体中COD可通过减少氨氮与DOM来实现,同时此两类指标也应作为日后水体监控指标.干流水体样品中DOM下游相对上游类蛋白逐渐减少,而类腐殖质则呈现增加的趋势,并以类胡敏酸为主要存在形式.代表支流4种样品中,S1、S2水体DOM主要以类胡敏酸为重要成分,其组成有机物多为大分子量、芳香性高的有机物质,而S3、S6水体中主要为相对易降解的类蛋白,其相对分子质量相对较小、芳香性程度较低.针对代表支流的4个污水处理单位出水水体中的DOM特征,建议S1与S2应添加或改进对大分子物质有较好去除效果的膜处理设备,以加强对水体中相对难降解类腐殖质物质的去除;S3与S6应优化相关厌氧与好氧生物处理工艺,从而提高易降解的类蛋白物质的去除能力.  相似文献   

17.
胶州湾赤潮暴发水体中溶解有机物质荧光特征   总被引:14,自引:3,他引:14  
利用荧光激发-发射矩阵光谱(Excitation-Emission Matrix Spectroscopy,EEMS)技术研究了胶州湾2004-02赤潮暴发期间水体中溶解有机物类蛋白和类腐殖质荧光特性,探讨了各种荧光性质与浮游植物增殖、溶解有机碳、盐度、溶解氧和pH的关系,并对切向超滤前后类蛋白和类腐殖质荧光的变化进行了初步评估.结果表明,赤潮过程中溶解有机物类蛋白荧光较强而类腐殖质荧光较弱,并且高和低激发波长类蛋白荧光同源;类蛋白和类腐殖质荧光强度与叶绿素a的对应关系与浮游植物的增殖阶段有关,但整体趋势上却是随着浮游植物量的增大而增强,并且浮游植物量越大,新生成的有机物质占的比例也越大;类蛋白荧光以及类蛋白和类腐殖质荧光强度之比与溶解有机碳具有较好的正相关性,表明赤潮过程中溶解有机物主要由新生成的物质组成;盐度、溶解氧和pH对类蛋白和类腐殖质荧光的影响很小;切向超滤前后类蛋白和类腐殖质荧光峰的位置基本一致,切向超滤前后荧光平衡差于溶解有机碳平衡,在切向超滤的评价上,荧光只能作为溶解有机碳平衡的一个补充.  相似文献   

18.
为研究黑龙江流域水环境腐殖质的组成、时空分布特征及来源特征,通过野外调查、静态浸泡试验和动态淋溶试验,利用三维荧光激发-发射矩阵结合平行因子分析(EEM-PARAFAC)及荧光定量指标,分析水体DOM(dissolved organic matter,溶解性有机物)的荧光特性和来源特征.结果表明:①ρ(CODMn)在平水期和丰水期出现了畸高现象,平水期和丰水期水体DOM的相对含量高于冰封期.水体DOM识别出4种荧光组分[长波段类腐殖酸(C1)、短波段类腐殖酸(C2)、类富里酸(C3)和类色氨酸(C4)],其中类腐殖质总贡献率在50%以上,属于类腐殖质主导型.平水期、丰水期和冰封期水体DOM的FI(荧光指数)值分别为1.48~1.61、1.51~1.63和1.52~1.79,BIX(生物源指数)值分别为0.56~0.75、0.55~0.73和0.61~0.92,HIX(腐殖化指数)值分别为5.84~13.42、5.70~15.78和2.84~12.05,表明水体DOM是陆源和自生源贡献相结合,具有自生源特征和强腐殖质特征.②通过静态浸泡试验模拟土壤溶解,识别出5种荧光组分,除C1~C4外,还识别出类酪氨酸(C5);通过动态淋溶试验模拟降雨过程,识别出4种荧光组分(C1~C4).土壤DOM的荧光特性与水体DOM相似,表明水体DOM与土壤DOM具有相似的来源.③3个水期各荧光组分的荧光强度均与ρ(DOC)呈线性相关.其中,C1、C2和C3的荧光强度与ρ(DOC)均呈显著线性相关,平水期、丰水期、冰封期C1的相关系数分别为0.776 2、0.852 4和0.956 8,C2的相关系数分别为0.478 3、0.265 9和0.878 4,C3的相关系数分别为0.658 2、0.802 5和0.954 5;但C4的相关系数差别较大,分别为-0.064 4、0.021 9和0.847 4,说明类腐殖质荧光组分是DOC的主要来源.研究显示,黑龙江流域水体DOM以类腐殖质为主,水体DOM具有强腐殖质特征,源头水的背景值较高.   相似文献   

19.
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.  相似文献   

20.
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(335 nm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24 h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.  相似文献   

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