胶州湾海水中一氧化碳光致生成影响因素的研究     

陆小兰  张聪  杨桂朋  谭勇  任春艳 《海洋学报(英文版)》2012,31(4):77-83

海水中的一氧化碳(CO)主要由溶解有色有机物(CDOM)光降解产生,且CO的光致生成量受到环境因素的影响。采集了胶州湾及其河口表层水样,通过实验室模拟实验开展了不同的环境条件(辐射强度、光照时间、温度、pH和盐度)以及水体中CDOM的来源对CO光致生成的影响研究。结果表明胶州湾海水中CO的光致生成速率随辐射强度的增强、水温的升高和水体pH的增大而增大;随着光照时间的延长、水体盐度的增大而逐渐减小;不同来源的CDOM对水体中CO的光致生成速率产生了不同的影响。  相似文献   

胶州湾海水中一氧化碳光致生成影响因素的研究   总被引：3，自引：1，他引：2  

陆小兰  张聪  杨桂朋  谭勇  任春艳 《海洋学报》2012,34(4):77-83

海水中的一氧化碳(CO)主要由溶解有色有机物(CDOM)光降解产生,且CO的光致生成量受到环境因素的影响。采集了胶州湾及其河口表层水样,通过实验室模拟实验开展了不同的环境条件(辐射强度、光照时间、温度、pH和盐度)以及水体中CDOM的来源对CO光致生成的影响研究。结果表明胶州湾海水中CO的光致生成速率随辐射强度的增强、水温的升高和水体pH的增大而增大;随着光照时间的延长、水体盐度的增大而逐渐减小;不同来源的CDOM对水体中CO的光致生成速率产生了不同的影响。  相似文献   

长江口溶解有机物光漂白和光矿化表观量子产率   总被引：3，自引：1，他引：2  

孙欣  宋贵生  Xie Huixiang 《海洋学报》2016,38(4):120-129

溶解有机物(DOM)经太阳光照射导致其吸光度(光漂白)和溶解有机碳(光矿化)损失,从而影响水体生态系统光学特性及碳循环。本文通过测定冬季长江口及其邻近海域DOM光降解表观量子产率(AQY),初步探讨了DOM光反应活性在河口及陆架海的变化特征。DOM光降解AQY由口内至口外逐渐递减,且有色溶解有机物(CDOM)光漂白速率是溶解有机碳(DOC)光矿化速率的10倍。Φ_ble(CDOM光漂白表观量子产率)和Φ_min(DOC光矿化平均量子产率)在最大浑浊带以东海域与盐度和SUVA₂₅₄分别呈显著的线性负相关与正相关,表明DOM光反应活性在长江口外受物理混合影响为主,且陆源DOM光反应活性比海源高。此外,最大浑浊带下游DOM光降解AQY显著低于上游。DOM光降解速率随波长的变化呈现非高斯分布,且峰值出现在330 nm,积分结果表明UVA是DOM光降解的主要贡献者。本研究结果将为完善我国东海碳通量模型提供帮助。  相似文献   

鸭绿江口溶解有机碳的研究   总被引：3，自引：2，他引：1  

王江涛  于志刚  张经 《中国海洋大学学报(自然科学版)》1998,(3)

１９９６年５月采样测定鸭绿江口溶解有机碳（ＤＯＣ）的含量,得出分布变化特征,并同其它一些河口的溶解有机碳进行了比较。鸭绿江口表层水溶解有机碳的平均含量为２０８μｍｏｌＣ／Ｌ。在盐度大于１．６的河口区,溶解有机碳的分布主要受海水稀释作用控制;在盐度０～１．６的区域溶解有机碳的浓度随盐度的增加而明显增加。在最大混浊带,ＤＯＣ的浓度最高,表明有颗粒有机碳转化为溶解有机碳。丹东市以上流段,河水中溶解有机碳的含量相对较低,说明由丹东市引入的工业及生活污水对鸭绿江水体中溶解有机碳的含量有一定的影响。  相似文献   

TOC-IRMS联用在线高温氧化测定溶解有机碳稳定同位素组成的方法研究          下载免费PDF全文

粟蓉  申凯文  尹希杰  杨海丽 《应用海洋学学报》2023,42(2):339-345

本研究利用总有机碳分析仪联用稳定同位素质谱仪(TOC-IRMS)技术,探讨了高温氧化法测试水体中溶解有机碳(Dissolved Organic Carbon, DOC)含量及稳定碳同位素组成。根据溶解有机碳的组成特征,从氧化难易程度、分子结构等方面选取5种可溶于水的化合物：咖啡因、葡萄糖、邻苯二甲酸、乙酸钾和腐殖酸钠,配置成DOC溶液。通过改变溶液碳含量、氧化温度、通氧量大小,载气流速等参数,研究不同实验条件对DOC碳转化率及δ¹³C值的影响。TOC-IRMS在氧化温度850℃,通氧时长20 s(流速10 cm³/min),载气流速80 cm³/min的条件下,测得5种化合物不同浓度DOC溶液的平均碳转化率为95.69%～103.57%;δ¹³C值与标定参考值基本一致,差值范围为-0.82‰～0.55‰。在上述实验条件下,测得不同类型水样的DOC含量相对标准偏差小于3.7%,δ¹³C值的标准偏差小于0.2‰,结果表明TOC-IRMS联用在线高温氧化法测定不同类型水样的DOC含量...  相似文献   

海水中低含量铵氮的高灵敏度荧光法测定   总被引：3，自引：0，他引：3  

余翔翔  郭卫东 《海洋科学》2007,31(4):37-41

提出了一种改进的、可测定海水中低含量铵氮的高灵敏度荧光分析方法。其原理是在硼酸缓冲溶液的作用下,海水中的铵氮与邻苯二甲醛(OPA)发生衍生化反应,通过测定生成的荧光产物来确定水体中铵氮的浓度。方法的检测限极低(0.002 5μmol/L),重现性好,且水样用量少(10 mL),适用于海水中溶解有机物的光铵化研究及其他低铵含量水样的测定。  相似文献   

海水中天然溶解有机物在针铁矿上的吸附   总被引：7，自引：0，他引：7  

王江涛  赵卫红  张正斌 《海洋与湖沼》2000,31(3):309-314

于１９９６年３月在青岛小麦岛采得天然海水样品,在实验室合成针铁矿样品。用振荡平衡实验和紫外／过硫酸钾法测定了海水中溶解有机物在针铁矿上吸附的等温线和交换率－－ｐＨ曲线,并讨论了天然溶解有机物的吸附对海水中溶解有机碳分布的可能影响。测定结果表明,溶解有机物在针铁矿上的吸附等温线为Ｌａｎｇｍｕｉｒ型,当吸附达到最大值时,在针铁矿表面能够形成有机物单覆盖层。ｐＨ能影响溶解有机碳（ＤＯＣ）在针铁矿上的吸附  相似文献   

南海越南上升流区沉积物中溶解氧、锰和铁的垂直分布特征   总被引：1，自引：0，他引：1       下载免费PDF全文

许昆明  邹文彬  司靖宇 《热带海洋学报》2010,29(5)

2007年夏季航次对南海越南上升流区的三个站位进行现场采样,利用微电极技术测定了沉积物间隙水中的溶解氧(DO溶解氧分子)、锰(Mn2+)、铁(Fe2+)的浓度和氧化还原电位,估算了DO的通量、消耗速率和有机碳的消耗速率.在沉积物间隙水中DO浓度随深度的增加而迅速降低,渗透深度为9-48mm.在沉积物深处还检测到Mn2+和Fe2+.采用元素分析仪测定了沉积物中总有机碳(TOC)含量和总氮(TN)含量,三个站位沉积物中的TOC含量为0.7%-1.03%,TN含量为0.052%-0.10%,C/N为10.5-16.0.从C/N可以看出,该研究区域沉积物中的有机物有部分来源于陆源输入,其中一个站位位于湄公河冲淡水区域,其C/N最大.从氧化还原电位来看,三个站位的沉积环境都属于还原性环境.此研究首次测量了南海越南上升流区沉积物的氧化还原化学成分,对于认识该海区海底生物地球化学具有重要意义.  相似文献   

溶解有机物的光降解及其对浮游细菌和浮游植物的影响     

周伟华  廖健祖  郭亚娟  袁翔城  黄晖  刘胜  李涛 《海洋科学》2017,41(2):136-144

作为海洋中最大的动态有机碳储库,溶解有机物的光降解(主要是紫外波段)对生源要素的生物地球化学循环以及海洋生态系统的结构和功能具有重要的影响。本文探讨了影响溶解有机物光降解的环境因素、其光化学过程和产物,并重点阐述了溶解有机物的光降解对浮游细菌和浮游植物的影响。溶解有机物的来源和成分复杂,其光降解在不同海区有不同的生态效应,为了能更准确地把握其生态效应,需要更全面和深入的研究。  相似文献   

赤道东北太平洋沉积物间隙水中溶解有机碳的分布特征   总被引：3，自引：0，他引：3       下载免费PDF全文

倪建宇  MAGGIULLI Michael 《海洋学报》2007,29(1):155-160

沉积物间隙水中的溶解有机碳(DOC)是沉积物有机质矿化过程中的中间产物[1],沉积物中的有机质通过微生物水解和(厌氧)发酵等方式溶解成各类具有不同分子量的有机化合物,通常总称为溶解有机碳,并释放到沉积物间隙水中.而溶解有机碳又进一步被细菌等微生物所利用,最终被氧化为溶解无机碳,完成有机质的矿化过程.因此,沉积物间隙水中DOC的浓度是消耗和生成之间平衡的结果[1].已有的研究表明,沉积物间隙水中DOC的含量显著高于底层水体中DOC的含量,导致其向底层水体的扩散;近期的研究也表明,来自海底沉积物的DOC通量是底层水体中DOC的重要来源,是海洋有机碳储库中的重要组成之一[2~4].  相似文献   

Carbon dioxide and carbon monoxide photoproduction quantum yields in the Delaware Estuary     

Emily M. White  David J. Kieber  Jane Sherrard  William L. Miller  Kenneth Mopper 《Marine Chemistry》2010,118(1-2):11-21

Photochemical mineralization of dissolved organic matter (DOM) plays an important role in the cycling of carbon in estuarine systems. A key to modeling this process is knowledge of apparent quantum yields (AQYs) for the photochemical products. Here we determined spectral AQYs for carbon dioxide (CO₂) and carbon monoxide (CO), the main products of DOM photomineralization, along the main axis of the Delaware Estuary. Apparent quantum yields for CO₂ photoproduction were determined shipboard using a multi-spectral irradiation system. Carbon monoxide AQYs were determined in stored samples by employing a narrow band spectral irradiation system. A single AQY spectrum described carbon dioxide photochemical production within the estuary whereas CO AQY spectra varied with salinity, suggesting different precursors and mechanisms for the production of these two species. CO₂ AQYs were used along with shipboard measurements of DOM absorbance and solar irradiance to calculate photoproduction rates. Calculated CO₂ photoproduction rates agreed with directly measured rates (2 to 4 μM CO₂ d^? 1) within experimental error, supporting the further development and use of AQYs to calculate regional-scale photochemical fluxes.  相似文献   

The relationship between chromophoric dissolved organic matter and dissolved organic carbon in the European Atlantic coastal area and in the West Mediterranean Sea (Gulf of Lions)   总被引：6，自引：0，他引：6  

Giovanni M. Ferrari   《Marine Chemistry》2000,70(4):26

The absorption coefficient of chromophoric dissolved organic matter (aCDOM) has been found to be correlated with fluorescence emission (excitation at 355 nm). In the coastal European Atlantic area and in the Western Mediterranean Sea (Gulf of Lions), a significant statistical dependence has been found between aCDOM and fluorescence with dissolved organic carbon (DOC) concentration. The relationship shows that, in the river plume areas (Rhine in the North Sea and Rhône in the Gulf of Lions), a consistent fraction of DOC (from 40% to 60% of the average of the DOC measured) is non-absorbing in visible light range, where the dissolved organic matter (DOM) is typically absorbent. In comparison, in the open sea, apparently not affected by the continental inputs, the entire DOC belongs to the chromophoric DOM whose specific absorption is lower (5 to 10 times) than that found in the river plume areas.  相似文献   

Photobleaching of chromophoric dissolved organic matter in natural waters: kinetics and modeling   总被引：9，自引：0，他引：9  

Rossana Del Vecchio  Neil V. Blough   《Marine Chemistry》2002,78(4)

The effects of monochromatic and polychromatic UV and visible (VIS) radiation on the optical properties (absorption and fluorescence) of chromophoric dissolved organic matter (CDOM) were examined for a Suwannee River fulvic acid (SRFA) standard and for water from the Delaware and Chesapeake Bays. The primary (direct) loss of absorption and fluorescence occurred at the irradiation wavelength(s), with smaller secondary (indirect) losses occurring outside the irradiation wavelength(s). The efficiency of both direct and indirect photobleaching decreased monotonically with increasing wavelength. Exposure to polychromatic light increased the CDOM absorption spectral slope (S), consistent with previous field measurements. An analysis of the monochromatic photobleaching kinetics argues that a model based on a simple superposition of multiple chromophores undergoing independent photobleaching cannot apply; this conclusion further implies that the absorption spectrum of CDOM cannot arise solely from a simple superposition of the spectra of numerous independent chromophores. The kinetics of CDOM absorption loss with the monochromatic irradiation were employed to create a simple, heuristic model of photobleaching. This model allowed us to examine the importance of the indirect photobleaching losses in determining the overall photobleaching rates as well as to model the photobleaching of natural waters under polychromatic light fields. Application of this model to natural waters closely predicted the change in the CDOM spectral shape caused by photodegradation. The time scale of this process was consistent with field observations acquired during the summertime for coastal waters in the Middle Atlantic Bight (MAB). The results indicate that the ratio of the photodegradation depth to the mixed layer depth is a key parameter controlling the rate of the photobleaching in surface waters.  相似文献   

Relationship between the optical properties of chromophoric dissolved organic matter and total concentration of dissolved organic carbon in the southern Baltic Sea region   总被引：10，自引：0，他引：10  

Giovanni M. Ferrari  Mark D. Dowell  Stefania Grossi  Cristina Targa 《Marine Chemistry》1996,55(3-4)

Absorption and fluorescence of chromophoric dissolved organic matter (CDOM) and dissolved organic carbon (DOC) measurements were performed during three oceanographic surveys in 1994 in the southern Baltic Sea (Polish area of the Baltic Proper). DOC was measured both by high-temperature catalytic oxidation (HTCO) and low-temperature oxidation (LTO) conventional persulphate methods. CDOM fluorescence was shown to be highly correlated with absorption, with the same regression parameters, despite the seasonal change in different hydrographic conditions and the fluorescence quantum yield variations (1.23 ± 0.07 in April and 0.97 ± 0.12 in September). The results show a good correlation between the optical parameters and DOC although ˜ 70% of the DOC does not display significant absorption in the UV-visible range (350–750 nm). The non-absorbing DOC measured with HTCO method appears unaffected by seasonal changes. Consequently, total DOC can be predicted by optical methods using remote sensing techniques. The non-absorbing DOC measured by LTO method varies from 62% (April) to 76% (September), which implies that there is requirement for estimates on a seasonal basis.  相似文献   

夏季黄海不同水团溶解有机物分布特征     

王艺超  刘小艳  宋贵生  Xie Huixiang 《海洋学报》2019,41(12):145-155

依据2017年8—9月对黄海海域溶解有机物(DOM)的调查，探讨了夏季黄海海水中溶解有机碳(DOC)和有色溶解有机物(CDOM)的空间分布特征。在表层海水中，受陆源影响较大的近岸海域CDOM含量相对较高，北黄海冷水团区域由于水产养殖的饵料引起DOC浓度升高，且该部分DOC以无色为主。DOC浓度随深度逐渐降低，而CDOM逐渐升高，该特征在冷水团区域更为显著，因此DOC和CDOM在冷水团区域的表底差异远大于浅水区的非冷水团区域。陆源输入和初级生产是引起表层DOC升高的主要原因，而光漂白则引起CDOM降低，同时光漂白还导致表层水体中CDOM分子量和芳香性低于底层。底层溶解氧饱和度在冷水团为80%～93%，均表现为弱不饱和状态。层化不仅阻碍了O₂向底层水体输送，还抑制了DOC和CDOM的垂向混合，这是引起冷水团区域表底层DOC和CDOM差异较大的主要原因。  相似文献   

Characterization of dissolved organic matter fluorescence in the South Atlantic Bight with use of PARAFAC model: Interannual variability   总被引：13，自引：0，他引：13  

Piotr Kowalczuk  Michael J. Durako  Heather Young  Amanda E. Kahn  William J. Cooper  Michael Gonsior 《Marine Chemistry》2009,113(3-4):182-196

Systematic water sampling for characterization of chromophoric dissolved organic matter (CDOM) in the coastal South Atlantic Bight, was conducted as part of the long term Coastal Ocean Research and Monitoring Program (CORMP). Water samples were collected during a 3.5 year period, from October 2001 until March 2005, in the vicinity of the Cape Fear River (CFR) outlet and in adjacent Onslow Bay (OB). During this study there were two divergent hydrological and meteorological conditions in the CFR drainage area: a severe drought in 2002, followed by the very wet year of 2003. CDOM was characterized optically by the absorption coefficient at 350 nm, the spectral slope coefficient (S), and by Excitation Emission Matrix (EEM) fluorescence. Parallel Factor Analysis (PARAFAC) was used to assess CDOM composition from EEM spectra and six components were identified: three terrestrial humic-like components, one marine humic-like component and two protein-like components. Terrestrial humic-like components contributed most to dissolved organic matter (DOM) fluorescence in the low salinity plume of the CFR. The contribution of terrestrial humic-like components to DOM fluorescence in OB was much smaller than in the CFR plume area. Protein-like components contributed significantly to DOM fluorescence in the coastal ocean of OB and they dominated DOM fluorescence in the Gulf Stream waters. Hydrological conditions during the observation period significantly impacted both concentration and composition of CDOM found in the estuary and coastal ocean. In the CFR plume, there was an order of magnitude difference in CDOM absorption and fluorescence intensity between samples collected during the drought compared to the wet period. During the drought, CDOM in the CFR plume was composed of equal proportions of terrestrial humic-like components (ca. 60% of the total fluorescence intensity) with a significant contribution of proteinaceous substances (ca. 20% of the total fluorescence). During high river flow, CDOM was composed mostly of humic substances (nearly 75% of total fluorescence) with minor contributions by proteinaceous substances. The impact of changes in fresh water discharge patterns on CDOM concentration and composition was also observed in OB, though to a lesser degree.  相似文献   

Photobleaching of fluorescence and the organic carbon concentration in a coastal environment     

Annelie Skoog  Margareta Wedborg  Elisabet Fogelqvist 《Marine Chemistry》1996,55(3-4)

In order to investigate the photobleaching potential of estuarine waters from different depths and redox conditions and with varying degree of biological activity, filtered, unfiltered and chloroform-poisoned water samples from the Baltic Sea were exposed to ambient sunlight. Fluorescence, at excitation 350 nm and emission 450 nm, was used as an indication of humic substance concentration. Fluorescence and organic carbon concentration were measured at regular time intervals during light exposure. We found that the decrease in humic substance fluorescence can be fitted to an exponential decay function. The fluorescence half-lives were within the range 0.4 – 4.6 days in different water masses, with fluorescence decreasing to between 20% and 60% of initial concentration, respectively. Results from the curve fitting procedure indicate a rest concentration of humic substance fluorescence, similar among the sampled sites, that is resistant to further photochemical degradation. The largest relative decreases in fluorescence were found in deep waters, but samples from deep waters also had a higher fluorescence rest concentration than samples from surface waters. Biological activity was reduced by filtering the samples through 0.2μm pore size filters or adding chloroform. No statistically significant differences were found after 3 days of irradiation between samples with and without treatment to reduce biological activity. The highest initial fluorescence values and the largest fluorescence decrease were found in the anoxic waters of the Gotland Deep. The organic carbon concentrations decreased 3–7% at all stations. The shortest half-life of humic substance, and the largest decrease in organic carbon concentrations, were found in samples from the northern basins of the Baltic Sea.  相似文献