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2005年7月在赤道东北太平洋的3个测站分层采集了悬浮体水样.利用ICP-MS对悬浮体的元素组成进行了测试,从测试的47种元素中筛选出了钡和铝分别作为悬浮体生源组分和陆源组分的示踪元素.悬浮体中钡含量为0.02~0.19μg/dm3,其中生源钡含量为0.01~0.13μg/dm3,铝含量为0.33~18.54μg/dm3.生源钡和铝元素含量及其比值在水体中的分布特征与悬浮体含量的相对应,分为三段.水体透光层生物作用和近底层底质沉积物再悬浮作用是其在水体表层和近底层显著变化的原因.近底雾状层内生源钡和铝元素含量的比值从水体向底质沉积物中降低,至底质沉积物降到最低,显示出底质沉积物再悬浮对悬浮体组分和含量的影响,可以作为近底雾状层颗粒物质运移的示踪指标. 相似文献
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冬季西太平洋雅浦海山(Y3)区次表层叶绿素最大值层分布及其对悬浮体粒度的影响 总被引:1,自引:0,他引:1
2014年冬季对西太平洋雅浦(Y3)海山区两条相交断面进行水文和悬浮体调查。利用温盐深仪(CTD)和深水型原位激光粒度仪(LISST-Deep)获取调查区各站位水体剖面的温度、盐度、叶绿素a浓度以及悬浮体体积浓度和粒度分布数据,对上层(350m以浅)水体的水文和悬浮体调查结果进行分析。结果表明:Y3海山对流经该海区的洋流产生影响,在海山顶部水体中形成具有上凸形态的温、盐跃层,在局部海域形成呈下凹形态的涡旋水文结构;受温、盐跃层的影响和控制,Y3海山上层水体中次表层叶绿素最大值层(SCML)的分布与温、盐跃层的水深范围(约50—160m)相一致,其荧光叶绿素a浓度总体小于1μg/L;Y3海山上层水体的悬浮体总体积浓度在0—120μl/L之间变化,其中悬浮体体积浓度的高值水层集中分布在SCML中,且悬浮体粒度分布存在5个峰值粒级,分别为15.4、68.6、95.5、185和304μm;其中15.4μm粒级的悬浮体体积浓度最低,但其与水层中荧光叶绿素a浓度的相关性最好,反映了水层中微型浮游植物的浓度与荧光叶绿素a浓度关系比较密切;其他4个较大峰值粒级悬浮体可能由小型或中型浮游生物(及其絮凝集合体)等构成,体积浓度较高,对水体叶绿素a浓度的影响很小;Y3海山区东侧Y3-14站的悬浮体组成和分布不同于其他站位,可能有未知的环境因素影响该站位的悬浮体组成和分布。本文研究结果可为进一步开展海山区沉积和生态环境研究提供参考和依据。 相似文献
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南海北部海洋雾状层特征及影响因素初步研究 总被引:1,自引:0,他引:1
在粤东上升流区和南海北部陆架陆坡区共选取7条断面,通过分析水体的温度、盐度、密度、浊度、叶绿素浓度特征和悬浮体现场粒度平均粒径、体积浓度特征等,初步研究了南海北部海洋雾状层的特征及其受控机制。研究发现粤东上升流区底部雾状层普遍发育,在个别站位存在表层雾状层,高能的近岸浪流作用和来自港湾、河流的泥沙为表层雾状层和底部雾状层提供物源;南海北部陆架陆坡区底部雾状层也普遍发育,在珠江口外的内陆架和外陆架陆坡区表层雾状层比较常见,陆坡区中层雾状层比较发育,本区雾状层的物源主要来自珠江和台湾岛西南部河流的入海泥沙、海底沉积物以及生源颗粒物。南海北部底部雾状层的强度和扩散范围主要受水动力条件、河流入海物质的扩散和底质再悬浮等控制。 相似文献
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海洋雾状层的成因及其对海洋碳循环过程的影响 总被引:2,自引:0,他引:2
海洋雾状层既是陆源物质进入海底的输送通道,又是海洋水体中沉降颗粒及底部再悬浮颗粒物的停留场所。雾状层物质来源主要有陆源、生源以及海底表层沉积物的再悬浮,不同海区、不同层位的雾状层的物质来源有所差异;雾状层的成因具有复杂性,既有物理作用,又有生物及化学作用,大量研究表明,海底洋流、内波(潮)等物理作用是雾状层形成的主要控制因素。雾状层中碳的存在形态主要有颗粒有机碳(POC)、溶解有机碳(DOC)、胶体有机碳(COC)以及无机碳,雾状层与其上下海水之间、雾状层与海底表层沉积物之间不同形态碳在生物-化学-物理动力系统作用下不断发生物质交换与迁移,对海洋碳循环生物地球化学过程起重要的控制作用,是整个海洋碳循环的一个不可忽视的环节。 相似文献
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海山可以通过与洋流的相互作用改变水体结构,促进悬浮体以及海洋生物的再分配,进而影响海洋生物地球化学过程,促进大洋物质和能量交换。西太平洋有着复杂的环流结构,也是海山分布最多的海区之一。为研究西太平洋海山区的悬浮体分布及其控制机制,2017年夏季在西太平洋卡罗琳M4海山区进行现场调查,利用扫描电镜分析了该海山区悬浮体样品的物质组成及分布,并结合温度、盐度和荧光叶绿素a浓度数据,讨论了海山对悬浮体分布的影响。结果表明,M4海山区的悬浮体由生物碎屑、矿物颗粒和絮凝体等组成。海水的强烈层化阻碍了该海山区下层营养物质的上涌,使上层水体呈现出寡营养的特征,导致大部分站位悬浮体丰度较低;但在海山顶部,潮流和海山地形相互作用在山顶上方形成反气旋环流,不仅促进了深水的营养物质向上扩散,使得荧光叶绿素a浓度升高,同时对平流输送来的以及从深水中上涌的悬浮体起到了滞留作用,使山顶上方的悬浮体丰度远高于离山顶较远的位置。随着水深的增大,温、盐跃层的强度减弱,水体中的营养盐浓度升高,为浮游生物的生长提供了适宜的环境,进而使生物碎屑及絮凝体的丰度升高。北赤道潜流挟带来自西太平洋近岸海区的陆源矿物颗粒到达M4海山区,... 相似文献
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南黄海夏季海水中悬浮体的研究 总被引:4,自引:1,他引:4
南黄海夏季表层海水中悬浮体的高值区出现在苏北近岸一带,测得的最高值为7.57mg/L,其次是长江口和调查区的北部.低值区大面积分布在调查区的中部和山东半岛以南,悬浮体含量小于0.5mg/L.远岸的悬浮体垂向分布中有一个极为明显的分层性.在长江口外的悬浮体分布中可看到台湾暖流的影响,它的存在限制了长江入海物质的向东扩散.尽管7月是黄河和长江的丰水期,大量物质被携带入海,但还未能构成悬浮体的主要来源.其主要来源是沉积物的再悬浮,其次才是河流携入的物质,海水中的生物组分居三.现代河流入海物质的影响范围主要是调查区南北两端.在深水区,温度、盐度跃层的形成限制了底层悬浮体向上扩散.海水中物质的运移主要在海水底层进行,以悬浮-沉积-再悬浮-再沉积的方式进行着物质的运移和交换. 相似文献
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长江入海泥沙是中国东部陆架海沉积物的主要来源之一。本文基于MODIS-Aqua卫星的遥感资料并结合实测悬浮体浓度,建立了基于颗粒物后向散射系数的悬浮体浓度的反演方法,获取了2002—2017年长江口海域的表层悬浮体浓度分布,并分析其在潮周期、季节内以及年际等不同时间尺度下的变化特征。结果表明,在潮周期内,长江口122.3°E以西海域表层悬浮体浓度大潮高于小潮,落潮大于涨潮,高潮大于低潮;在季节尺度内.6—8月表层悬浮体浓度逐渐增加。而122.3°E以东海域,则出现相反的情况;长江口122.3°E以西海域的夏季平均表层悬浮体浓度年际变化明显,主要受长江入海水沙量年际变化的影响。长江口122.3°E以东海域表层悬浮体浓度的年际变化几乎不受长江入海泥沙的影响。风向对悬浮体浓度的扩散具有显著的作用,南风有利于高浓度悬浮体向外海扩散,东风则抑制扩展。 相似文献
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本文根据2004年7月25日至8月10日在台湾浅滩及其邻近海域获取的悬浮体样品,采用了"微孔滤膜法"取得数据,利用偏光显微镜、体视显微镜和扫描电镜及能谱分析,结果表明:悬浮体含量在水平分布上为由近岸向外逐渐降低,总体上表层悬浮体含量高于底层;悬浮体的成分包括粗颗粒组份(它生矿物碎屑、自生矿物和生源碎屑)和细颗粒组份(无机矿物颗粒和超微生源颗粒),其中表层矿物碎屑分布特征为由岸向外递减,底层矿物碎屑则为近岸低、浅滩区高和浅滩外侧低;自生矿物和表层生源碎屑都具有自岸向外增加的特点;细颗粒组份中无机矿物颗粒为主,超微生源颗粒含量较少.研究区悬浮体分布受水文因素、物质来源及海底地形的影响,中国大陆陆源输入影响研究区悬浮体成分及其分布特征. 相似文献
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The velocities of near-bottom currents were measured at six locations on a 180-km transect of the Gulf Stream adjacent to Cape Hatteras. The average velocities indicate a southwesterly flow - the Western Boundary Undercurrent. Maximum recorded velocities at each of the six locations ranged from 15 to 47 cm/sec. Depth distributions of suspended particulate matter over the transect indicated that near-bottom nepheloid layers were present and that relatively large amounts of suspended matter were being carried to the southwest. Bottom photographs taken over the same transect, however, showed no evidence that the sediment surface was being affected by the active bottom currents. These results indicate that swift bottom currents do not always leave a record of their work on deep ocean sediment. 相似文献
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Richard A. Feely 《Marine Chemistry》1975,3(2):121-156
During cruises 71-A-12 and 73-A-3 of the R/V “Alaminos” eighty-six samples of suspended matter at eleven near-bottom stations in the Gulf of Mexico and northwestern Caribbean Sea were collected, and simultaneously, values for light scattering were measured. Selected samples of the suspended matter were analyzed for particulate aluminum, silicon, iron, calcium, magnesium, organic carbon and inorganic carbon. The results indicate that a permanent but highly variable near-bottom nepheloid layer exists in the Gulf of Mexico but not in the northwestern Caribbean Sea. Average total-suspended loads in the Gulf of Mexico nepheloid layer are two times higher than in the clear water above the nepheloid layer.Since there is a significant increase in the alumino-silicate fraction and a corresponding decrease in the organic fraction of the suspended matter in the nepheloid layer relative to the overlying water, it appears that sediments are the most probable source of the increased concentrations of suspended matter in the nepheloid layer. This hypothesis is supported by X-ray diffraction analyses on the nepheloid material collected at one station which show the same mineral assemblages as the underlying sediments.Time studies over periods of one week and one and one-half years showed large total-suspended-matter variations which indicate that non steady-state processes, primarily vertical eddy diffusion and possibly advection, are controlling the distribution of suspended matter in the nepheloid layer. 相似文献
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Th. Leipe A. Loeffler K. -C. Emeis S. Jaehmlich R. Bahlo K. Ziervogel 《Estuarine, Coastal and Shelf Science》2000,51(6):789
Suspended particulate matter samples were collected from the water column, the bottom nepheloid layer and the ‘ fluffy layer ’ from four stations along a coastal-basin transect in the Pomeranian Bight, western Baltic Sea. Sampling was performed nine times between October 1996 and December 1998 for various analyses, including electron probe x-ray micro analysis for detailed mineralogical investigations.Specific vertical patterns of clay mineral distributions were found. Suspended particulate matter (SPM) in the bottom nepheloid layer and the ‘ fluffy layer ’ overlying sediments was enriched in organic carbon and hydrated three layer clay minerals, whereas the non-aggregated SPM was dominated by quartz and biogenic opal. It appears that separation effects operate during aggregation of mineral particles and organic matter in repeated cycles of resuspension and settling. No clear seasonal variations in the composition of the SPM were found, in spite of high spatial and temporal variability of biological and physical variables. The results suggest that preferential incorporation, possibly aided by microbiological colonization, of hydrated three layer silicates into the organic flocs is a process that occurs under a wide range of conditions. Because aggregates sink faster than individual particles, aggregate formation led to a relative enrichment of illite and smectite in the near-bottom layers. Considering the affinity of organic contaminants and heavy metals to organic matter, the selective removal of aggregated organic matter and hydrated three-layer clay minerals from the water column and enhanced transport in the near-bottom fluffy layer may be a natural cleansing mechanism operating in the shallow waters of the bight. 相似文献
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The CTD and nephelometric sounding data are considered along with the parameters of the nearbottom currents and particulate fluxes measured by a subsurface mooring station in the northern part of the Bear Island Trough. It is shown that the near-bottom current is characterized by highly variable parameters, while the distribution of suspended particulate matter demonstrates surface and bottom maximums. The horizontal and vertical fluxes of sedimentary matter in the nepheloid layer are studied. 相似文献
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Richard A. Feely 《Marine Geology》1976,20(2):7-13
During cruise 73-A-3 of the R/V “Alaminos”, seawater samples from the nepheloid layer and overlying water were collected and filtered through 0.4 μm Millipore® Ultra Thin filters for microscopic analysis with a Jeol JSM-U3 scanning electron microscope. The results of the studies of the suspended matter with the scanning electron microscope indicate that there is a significant increase in the percentage of the total number of particles that are associated as aggregates for the nepheloid layer relative to the overlying water. This suggests that once nepheloid layers are formed, they might represent regions of high sedimentation due to aggregate formation. 相似文献
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Particulate matter from the nepheloid layer and from regions of clearer water have been examined under the light microscope to determine particle concentration, size and composition. The total count of suspended particles is a basic difference between water samples from nepheloid layers of the North American and Brazil basins, and samples from the clearer water over the Mid-Atlantic Ridge in both the North and South Atlantic. The nepheloid layer of the North American Basin has four times, and the Brazil Basin three times the particle density of clearer water over the mid-ocean ridge. A greater percentage of particles of < 2 μ size prevails in nepheloid water ranging from 85–96% as compared to a range of 76–87% in the clear water. Non-opaque mineral grains form the major constituent. 相似文献
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Nikolay G. Granin Natalia A. Radziminovich Liba Z. Granina Vadim V. Blinov Ruslan Y. Gnatovskiy 《Geo-Marine Letters》2012,32(5-6):453-464
In September 2008, freshening of near-bottom water and an increase in concentration of suspended particles were observed in the western part of southern Lake Baikal. The reduction in the content of total dissolved solids was about 0.4–0.7?mg/kg (0.7?%), and average suspended particle concentration increased strongly to 6–9?mg/l, the background value being 0.2?mg/l. The spatial distribution of these waters was virtually identical to the focal area of the Mw6.2 Kultuk earthquake that occurred on 27 August 2008. It is suggested that there was a causal relationship between these two phenomena. Freshening of a significant amount (about 20?km3) of near-bottom waters was plausibly caused by an input of poorly mineralized pore waters from bottom sediments as a result of dissociation of methane gas hydrates suspected to occur in the area. The energy radiated by the earthquake source was four orders of magnitude smaller than that needed to explain the observed freshening of near-bottom waters. This points to other mechanisms leading to seismic-induced sediment failure and possible subsequent hydrate dissociation in the case of the Kultuk earthquake. 相似文献
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Nepheloid layer dynamics in the northern Portuguese shelf 总被引:1,自引:0,他引:1
A. Oliveira J. Vitorino A. Rodrigues J. M. Jouanneau J. A. Dias O. Weber 《Progress in Oceanography》2002,52(2-4)
A general hydrographic and nephelometric survey of the NW Portuguese continental shelf and upper slope was undertaken, under winter and spring conditions. The nepheloid layer dynamics along the shelf during three cruises were controlled, principally by the following factors: (a) the hydrography of the shelf-slope waters, i.e. the nepheloid layers followed isopycnals and water masses; (b) prevalence of upwelling or downwelling circulation over the shelf; (c) dispersion of material by river discharge (mainly the Douro river); (d) resuspension of mid-shelf fine deposits induced by swell; (e) peculiar morphology with the presence of Porto Canyon and outer shelf rock outcrops.The general circulation controls the seaward extension of the nepheloid layers. In winter, under dominant downwelling conditions, an intense bottom nepheloid layer (BNL) was observed on the shelf, due to river borne particle supply and remobilization of mid-shelf muddy sediments (depth ≈100 m). In this period the BNL increased in thickness to the top of the slope, following the isopycnals. Near the shelf-break the BNL detached to form intermediate nepheloid layers (INL). Small INLs appear deeper in some areas of the slope. A surface nepheloid layer (SNL) appears in the surface water over the shelf and slope. In spring, biological particles mainly contribute to the SNL, which is separated from the BNL by a zone of clear water. In winter the SNL is restricted to the inner shelf where there are high inputs of fluvial particles.Downwelling circulation probably induces transport of shelf particles to deeper waters in the BNL. In spring, the predominant circulation was southward (upwelling), the water column was highly stratified, and dispersion of particles in the SNL was offshore. 相似文献