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1.
L.J. Hou M. Liu S.Y. Xu D.N. Ou J. Yu S.B. Cheng X. Lin Y. Yang 《Estuarine, Coastal and Shelf Science》2007,73(3-4):607-616
To explore the influences of semi-lunar spring and neap tidal changes on nitrogen cycling in intertidal sediments, a comparative study among waterlogged, desiccated and reflooded systems was carried out in August 2005 and February 2006 by analyzing nitrification, denitrification and N2O depth profiles in the intertidal flats of the Yangtze estuary. Laboratory experiments showed that alternating emersion and inundation resulted in the significant changes in nitrification and denitrification rates in the intertidal sediment systems. Due to the desiccation-related effects, lowest nitrification and denitrification rates were observed in the desiccated sediment cores. Highest nitrification and denitrification rates were however detected in the waterlogged and reflooded systems, respectively. It is hypothesized that the highest nitrification rates in the waterlogged sediments were mainly attributed to higher nitrifier numbers and NH4+ being more available, whereas the availability of NO3− might dominate denitrification in the reflooded sediments. In addition, the highest N2O concentrations were detected in the reflooded sediment cores, and the lowest found in the dried sediment cores. It was also shown that N2O in the intertidal sediments was mainly from nitrification under the desiccated condition. In contrast, N2O in the intertidal sediments was produced mainly via denitrification under the waterlogged and reflooded conditions. It is therefore concluded that the semi-lunar tidal cycle has a significant influence on nitrification, denitrification and N2O production in the intertidal sediment systems. 相似文献
2.
Ana P. Mucha M. Teresa S. D. Vasconcelos Adriano A. Bordalo 《Estuarine, Coastal and Shelf Science》2004,59(4):663
Vertical distribution (0–15 cm) of the macrobenthic community and its relationships to natural sediment characteristics and trace metal contents and bioavailability were studied at five locations in the lower Douro estuary, Portugal. An analysis of vertical metal distribution, for the interpretation of anthropogenic impact on the estuarine sediments, was also investigated. Sediment characterisation included organic matter, grain size, metals (Al, Fe, Cu, Pb, Cr, Ni, Cd, Zn and Mn), acid volatile sulphide (AVS) and simultaneously extracted metals (SEM). The macrobenthic community had low diversity (14 species), was dominated by small size opportunists and seemed to be controlled mainly by natural factors such as grain size distribution, Al and Fe contents and sediment depth. The vertically heterogeneous distribution of macrobenthic community appears to affect redox status of the sediments and consequently metal bioavailability. Despite anthropogenic contamination in terms of Zn, Cu, Pb, Cr and Ni having already been detected in the north bank, the analysis of vertical distribution was essential for the identification of current anthropogenic contamination in terms of Zn, Pb and Cd in the south bank. 相似文献
3.
The Neuse River estuary is part of the large Albemarle/Pamlico estuarine/lagoonal system (APES) of North Carolina. Exchange between the APES and the open ocean is restricted to inlets in the Outer Banks barrier islands. Freshwater discharge of the Neuse River is low in relation to the size of its estuary, so that the estuary is normally brackish over most of the area which accumulates fine-grained sediments. Mud (silt + clay) accumulation rates are low ( 6 mm year−1).From the mud distribution and the dynamics of suspended sediment in the estuary it has been inferred that the Neuse retains fines efficiently, with probable episodic (high discharge) losses seaward, to Pamlico Sound.As part of a study of particle transport, deposition, and accumulation in the Neuse estuary, we have collected radiochemical data (10 cores) and chemical data (seven cores) on sediment cores from the main channel of the estuary between New Bern, North Carolina and the estuary mouth. K/Al increases in the lower estuary, consistent with earlier reports of increasing illite in the clay fraction. Landward transport of sediment from Pamlico Sound is the most plausible explanation for the increasing K/Al (illite). A marine sediment source may, therefore, be important for the lower estuary.The distribution of sediment inventories (quantities per cm2 of sediment column) of particle-reactive radionuclides is consistent with the hypothesis of landward sediment transport. Inventories of excess 210Pb, 137Cs, and 239,240Pu are coherent through the estuary and show the effects of particle redistribution processes on regionally uniform inputs. To obtain excess (anthropogenic) Zn and Cu, we use metal/Al normalization to estimate natural backgrounds. Anthropogenic metal inputs are concentrated at the head of the estuary, and sediment inventories of excess Zn and Cu generally decrease seaward. Normalization of the excess Zn and excess Cu inventories to excess 210Pb inventories corrects the raw metal inventories for effects of lithology and sediment redistribution. The normalized excess Zn inventory decreases smoothly seaward, while the normalized excess Cu inventory shows an unexplained mid-estuary maximum. Low normalized inventories of anthropogenic metals at the estuary mouth indicate that little modern riverine sediment is stored there.Increasing K/Al (illite) and decreasing anthropogenic Zn and Cu in the lower estuary are thus both consistent with a predominantly marine sediment source. We conclude that landward transport of muds from Pamlico Sound has contributed significantly to the sediment balance of the lower Neuse estuary. 相似文献
4.
In order to study the transfer of trace metals (Cd, Pb, Cu, Zn) between sediments and living organisms, flatfishes (flounder, Platichthys flesus and sole, Solea solea) were collected monthly in the Loire estuary (France) for more than a year. Trace metal concentrations were determined in flatfish digestive contents and tissues. The influence of some ecological factors upon bioaccumulation of trace metals was considered.We consider the benthic way of life not to be responsible for a preferential bioaccumulation of trace metals in flatfishes. Although zinc accumulation in external organs is important, the hypothesis of an uptake via food and sediment cannot be rejected. 相似文献
5.
Joanne M. Deely J. Clair Tunnicliff C. Jane Orange Wayne H. L. Edgerley 《新西兰海洋与淡水研究杂志》2013,47(3-4):417-427
Abstract Surface sediment samples (60 μm‐2 mm, and < 60 μm fractions) from the Waiwhetu Stream, Lower Hutt City, New Zealand, were leached with dilute HCl to remove the mobile heavy‐metal fraction. Cd, Cr, Cu, Pb, Zn, Al, Fe, and Mn analyses of the leachates show that sediments of the upper reaches area of the stream are generally uncontaminated. In contrast, sediments in the lower reaches area are highly contaminated, despite clean‐up measures in the late 1970s. Lead and Zn are the most significantly enriched metals with concentrations over 1000 mg kg?1 adjacent to some drains. In the polluted zone, metals originate from either upward remobilisation from underlying sediment (contaminated in the early 1960s and 70s) or more recent industrial spillages. Similar trends exhibited by Cd, Cu, Cr, Zn, Pb, and Al indicate that a proportion of the metal enrichment downstream probably results from a naturally higher clay content of sediments near the mouth of the stream. Fe and Mn show reverse trends to the other metals, indicating that a high proportion of these two metals occurs in substrate different to that of the other metals. The orange brick‐coloured sediments of the upper reaches of the stream indicate oxides upstream; the black sediments in the lower reaches indicate sulphides downstream. 相似文献
6.
Spatial and seasonal variations of the macrobenthic community and metal contamination in the Douro estuary (Portugal) 总被引:3,自引:0,他引:3
The macrobenthic community structure and characteristics of sediments were studied in samples collected seasonally at five stations in the lower mesotidal Douro estuary, Portugal. Sediment characterisation included grain size distribution, total-recoverable metals (Al, Fe, Mn, Zn, Cu, Cr, Pb, Ni and Cd), acid-volatile sulphides (AVS) and simultaneously extracted metals (SEM) and total organic matter contents. Spatial variation surpassed temporal variation both in terms of environmental parameters and community structure. Clear anthropogenic contamination in terms of Zn, Cr, Cu and Pb, and a positive SEM-AVS, indicating the potential bioavailability of these metals, were detected on the north bank of the estuary. Multivariate analysis revealed that in addition to natural sediment characteristics, the anthropogenic metal contamination was influencing the macrobenthic community structure. In fact, greater concentrations of Zn, Cr, Cu and Pb were associated with lower number of species and/or diversity. Finally, the dry weight-normalised metal concentrations appeared as a more useful tool than the SEM-AVS model in predicting disturbance of the macrobenthic community in the studied area. 相似文献
7.
According to the results of the comparative study performed of the littoral sediments sampled in small inlets of Kandalaksha
Bay (the White Sea in the Russian Arctic), the metals (Fe, Mn, Cu, Zn, Pb, Cr, and Li) occur mainly in a biogeochemical-stable
mineral-incorporated form, which comprises 77–99% of the total metal content. The ratio of the liable form, which is easily
extracted by a weak acid, is on average 3.2% for the total Fe, 2.0% for Mn, 1.7% for Cr, 5.6% for Pb, 5.8% for Zn, 6.5% for
Cu, and is negligible for Li. The concentrations of the most studied trace metals are below the threshold level according
to the environmental quality guidelines (the sediment analysis). The ratio of the metal forms evidences the natural origin
of the elevated concentrations of both Zn and Cr in the sediments. 相似文献
8.
Very high concentrations of Zn, Pb, Cu and Cd occur in the muddy bottom sediments of Lake Macquarie, a saline coastal lagoon in southeastern Australia. The trace metals emanate from industrial sources, especially a lead-zinc smelter, at the northern end of the lake. Individual metal concentrations decrease progressively away from the source area but at differing rates; Zn is most mobile and Cd appears to be deposited first. They approach natural background levels in the southern part of the lake. Mn shows a reverse trend but Ni, Co, Ag and Fe rarely rise above background levels.Shallow cores in the lake bed penetrated a metal enriched surface zone 15–35 cm thick underlain by uncontaminated sediments with natural (background) metal concentrations. Sedimentation rates determined from radiocarbon ages on shells in the cores mainly range between 0·15 and 0·5 mm yr?1. Over the 85 years since industrialization commenced, less than 5 cm of mud has accumulated on the lake bed. Bioturbation is invoked to account for the depth to which the sediment has been enriched in heavy metals. 相似文献
9.
黄河口沉积物重金属含量变化特征研究 总被引:11,自引:0,他引:11
在黄河口的平水期、枯水期和丰水期采集沉积物样品。分析了铜、铅、锌、镉、铬、砷、汞浓度.结果表明,黄河口沉积物样品中的重金属含量由河到海呈现先上升后下降的趋势,平水期和枯水期Cd、Cr、As呈显著相关(0.01水平)。重金属含量为平水期>枯水期>丰水期。水文特征严重影响到沉积物中重金属的迁移。沉积物中重金属含量和沉积物的粒度密切相关.粒度越小重金属含量越高,反映了河流沉积的特征。沉积物中重金属浓度较低。各项目基本上都符合海洋沉积物质量一类标准。 相似文献
10.
九龙江口表层沉积物重金属的污染特征与来源分析 总被引:1,自引:0,他引:1
为了解九龙江口表层沉积物重金属的污染特征,作者于2013年9月在九龙江口进行了表层沉积物采样调查分析,结果表明:沉积物中Cu、Pb、Zn和Cd的空间分布较为相似,高值区均分布在南溪入海口和海门岛下游海域,Cr含量的高值区也分布在南溪入海口附近。聚类分析将采样点位分为4类:第一类主要分布在河口区外侧,沉积物中油类含量较高;第二类主要分布在南溪出海口,硫化物、Zn和Cr的含量较高;第三类分布在河口区中北部,污染物含量处于中等水平;第四类主要分布在海门岛下游海域,硫化物、TOC、Cu、Pb和Zn含量较高。地质累积系数评价显示:Hg、Cu、Pb、Zn、Cr、As处于未污染到轻度污染水平,Cd为轻度污染到重度污染水平;Zn、Cr、Cd的Igeo指数相对较高,第二类和第四类站位的Igeo指数相对较高。相关分析表明,硫化物与Cu、Zn、Cd正相关性较高,Cu与Zn、Cd、Cr正相关性较高,Pb与Zn、Cd正相关性较高,Zn与Cd、Cr正相关性较高。主成分分析表明,河口沉积物重金属主要有以下几个可能来源:流域和河口的工农业活动和采矿活动、流域水土流失、流域自然风化。针对河口沉积物重金属污染,流域-河口污染控制与生态修复需采取以下措施:工业污染的控制、农业污染控制、养殖污染的控制、植树造林与河岸带绿化和矿山生态恢复。 相似文献
11.
G.E. Reinson 《Marine Geology》1975,19(5):297-314
Sediments from a shallow, restricted estuary in southeast Australia were analysed for Ti, V, Cr, Mn, Fe, Co, Cu, Ni, Zn, P2O5 and organic carbon. Subjective interpretation of factor analysis on a geochemical basis, indicates that the dominant controls on the distribution and concentration of these metals and P2O5 in the mud sediments are the mineralogy of land-derived detritus and the chemical conditions of the environment in which the sediments are deposited. None of the transition-metal contents of the sediments, apart from Cr and possibly Cu, can be directly attributed to enrichment over that due to areal variation in detrital mineralogy. Chromium may be precipitated from the water column as a hydroxide in reducing environments, and Cu may be supplied to some extent by organic matter. Phosphate is enriched in the sediment through its association with organic matter. Manganese concentrations are depleted from the surface sediments of reducing environments. Iron sulphide and associated Ni and Zn sulphides are probably formed largely through early diagenetic reactions involving the mobilization of these metals from detrital mineral phases into authigenic phases. Evidence for the presence of these authigenic phases is found in sediments from areas where reducing conditions are likely to be most prevalent. 相似文献
12.
Potential influences of the whole benthic organisms' activity (i.e., coupled faunal and microbial effects) on 58Co, 51Cr and 65Zn diffusion into surface mangrove sediment layers (0–6 cm depth) were evaluated in 36 h experiments. Benthic activity indices (BAI) were proposed, calculated as the relative percent difference between untreated sediments and formaldehyde-treated sediments data in relation to untreated sediments data. Benthic activity was estimated as responsible for 32%–44% of total inventories within sediments, being the chromate anion spiked the less affected radiotracer, while 65Zn was the most sensitive. Benthic activity was quantitatively evidenced as a control on trace metal diffusion into the sediments, contributing to determine the sediment role as a metal sink. This influence can also affect metal potential bioavailability, considering that recently diffused metals can be more readily available to biological uptake. 相似文献
13.
Eighteen short cores were analyzed for major and trace metals (Al, Fe, Ca, Mg, Mn, Si, K, Ti, Pb, Zn, Cu, Ni, Cr), 210Pb, 137Cs, and other sediment characteristics, so as to describe the chronology of pollution and calculate metal concentration factors and fluxes. Substantial evidence was found that trace metal profiles are influenced by anthropogenic sources and by changes in sediment composition. Only Zn presents concentrations (up to 13.1 μmol g−) and concentration factors (1.3 to 13.2) that can be attributed to heavy contamination. Pb, Cu and Ni, in this order, are less significant. The areal distribution of concentrations and inventories reflects the importance of direct sources, in particular the industrial area of Porto Marghera and the Dese river. The inventories of excess metals, above pre-industrial levels, were determined for each core and the three different parts of the study area, the amounts of Zn accumulated in sediments are 11.0 Mmol, 5.1 Mmol and 0.37 Mmol in the Campalto, S. Erasmo, and Palude di Cona areas, respectively. Ruxes were also calculated and compared with those suggested for the atmospheric delivery by Cochran et al. [(1995)b. Atmospheric fluxes of heavy metal contaminants to the Venice Lagoon, Rapp. Comm. Int. Mer Médit., 34, 136.], the atmospheric contribution is predominant or significant in many cases, especially at sites far from the major local inputs. Concentrations and fluxes show a significant increase in the anthropogenic metal supply starting from the second decade of this century, with maximum inputs in the period between the (1930)s and the (1970)s. At some stations a decrease in heavy metal contamination of surficial sediments was found and this could be ascribed to a reduced input of pollutants in recent years. 相似文献
14.
Lars-Göran Danielsson Bertil Magnusson Stig Westerlund Kerong Zhang 《Estuarine, Coastal and Shelf Science》1983,17(1):73-85
The concentrations of the trace metals Cd, Cu, Fe, Ni, Pb and Zn in the Göta River estuary have been investigated. The following metal fractions have been determined: acid-leachable, dissolved, labile and particulate.The estuary represents a salt wedge type estuary and is situated in a densely populated region of Sweden. The metal concentrations found for the dissolved fraction is in the range of what can be considered as background levels for freshwater. It is difficult to evaluate any estuarine processes other than conservative mixing for Cd, Cu, Ni and Zn. The dissolved levels in the freshwater end member are Cd, 9–25 ngl?1; Cu, 1·1–1·4 μgl?1; Fe, 20–75 μg l?1: Ni, 0·7–0·9 μg l?1: Pb 0·09–0·2 μg l?1; and Zn, 6–7 μg l?1:The results from the acid-leachable fraction show that at high suspended load the particles sediment in the river mouth. The trace metal levels in this fraction are subject to large variations. 相似文献
15.
The concentrations of Cu, Zn, Cr, Ni, Pb, As, Mn and Co were determined by Inductively Coupled Plasma–Mass Spectrometry both in recent sediments from different locations of the Huelva littoral (SW Iberian Peninsula) and in their humic acid (HA) fractions in order to evaluate distribution and binding capacity of those trace elements to HAs. In addition, elemental composition (C, N, S) and δ13C values were determined to appraise the sources of organic matter in the area. This study involved the comparison of selected samples taken from different environments including the estuary of the Guadiana River, the main fluvial system of the region, the Tinto and Odiel estuary system and the proximal shelf. Significant positive correlations were found among Cu, Zn, As and Pb in bulk sediments, suggesting a common origin of all of those elements: the mining activities and pyrite deposits located hinterland. On the other hand, results for Cr, Co and Ni pointed to the basic rocks from the low basin of the Guadiana River as their main source. Elemental (C, N) and isotopic (δ13C) composition of sediments indicated a significant contribution of autochthonous plankton in coastal shelf sediments, whereas estuarine and riverine sediments showed a major contribution of terrestrial biomass. Geochemical values for their corresponding HAs suggested a greater terrestrial contribution in the sedimentary OM of the coastal shelf sediments than in bulk sediments, which evidenced the influence of coastal currents and sediment fluxes. Humic acids sequester considerable amounts of Cu and Zn contributing to reduce the bioavailability of these contaminants. 相似文献
16.
Sediments of the Krka River Estuary on the eastern Adriatic coast have been analysed for trace metals after sediment fractionation by sequential leaching. Trace concentrations of Mn, Cu, Pb, Zn, Ni, Co, Cr, V and Ga have been determined by atomic emission spectroscopy. The distribution patterns of the investigated elements follow the expected geochemical partitionings, while minor variations may be caused by early diagenetic effects and variable sediment texture. Taking into account the natural background levels of the investigated elements, the sediments reflect, at present, no significant industrial pollution or anthropogenic input of trace metals into the estuary. 相似文献
17.
The accumulation rates of sediment cores in Osaka Bay have been determined by using210Pb dating technique. In the upper 10 cm210Pbex contents show a constant value with depth. The accumulation rates below the homogeneous layer of sediments ranging from 0.12 to 0.61cm y–1 (0.067–0.34 g cm–2 y–1) were obtained. The higher contents of Zn, Cu, Pb and Cr were observed in the upper 10 to 30 cm of sediments. Assuming that the increment of heavy metal content in sediments is due to anthropogenic origin, the amount of anthropogenic input of heavy metals into sediments were estimated to be 1,300–2,700g cm–2 for Zn, 150 – 480 for Cu, 360 – 410 for Pb and 320 – 480 for Cr. The increment appears to start about 100 years ago. In surfical sediments most of heavy metal contents exceeded the background content, and then most part of Osaka Bay is polluted by heavy metals. 相似文献
18.
Kongtae Ra Joung-Keun Kim Sang Hee Hong Un Hyuk Yim Won Joon Shim Seung-Yong Lee Young-Ok Kim Jaesoo Lim Eun-Soo Kim Kyung-Tae Kim 《Ocean Science Journal》2014,49(3):279-289
Heavy metal concentrations in the surface sediments of specially managed Ulsan Bay were investigated to determine metal distribution, pollution status and its ecological risk using pollution indices (enrichment factor and geo-accumulation index), potential ecological risk index and sediment quality guidelines (SQGs). The order of mean concentration (mg/kg) of metals was Zn (361.9) > Cu (95.6) > Pb (90.7) > Cr (64.7) > Ni (32.2) > Co (16.6) > As (15.8) > Cd (0.40) > Hg (0.16) in sediments of Ulsan Bay. Spatial distribution of metals in sediments showed a significantly higher concentration near industrial complexes, indicating that metal pollution is caused by anthropogenic sources. The results of enrichment factor (EF) and geo-accumulation index (Igeo) showed that sediments were significantly accumulated with Cu, Zn, As, Cd, Pb and Hg, indicating moderate to very severe enrichment (pollution) by these metals. Based on the potential ecological risk index, Hg and Cd posed a very high and a considerable potential ecological risk. Cu and As posed a moderate potential ecological risk, while, other metals (Cr, Co, Ni, Zn and Pb) rarely posed any potential ecological risk to the coastal environments. The sediments in Ulsan Bay showed a very high level of ecological risk, dominated by Hg and Cd. Metal concentrations in sediments were 80% for Cu, 96.7% for Zn, 50% for As, 70% for Pb and 50% for Hg above the threshold effects level (TEL), respectively. 相似文献
19.
J. Borrego N. Lpez-Gonzlez B. Carro Coastal Geology Group 《Estuarine, Coastal and Shelf Science》2004,61(4):631-641
High absolute concentrations of metals associated to sulfide deposits located at the river source (Fe, Cu, Zn, Pb, Cd, and As) have been determined from the study of major and trace element concentrations in sediment samples obtained in two vibracores in the Tinto River estuary. In most cases, the enrichment factor (EF) for these metals is over 2. Cu, Zn and As have much higher EF, over 10 in surficial samples. Fe oxy-hydroxide precipitation in high-chlorinity zones and its scavenging effect on metals is the main control process on the chemical composition of sediment. Vertical evolution of the sedimentary and geochemical characteristics of the cores show that the estuary has undergone a process of progressive shallowness and a relative increase in acidic river water volume with respect to seawater. This effect has originated a downstream displacement of acid mixing processes affecting the estuary, which is reflected in higher metal concentrations in sediments of the outer zones of the system. 相似文献