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1.
北白令海透明胞外聚合颗粒物的含量与来源   总被引:2,自引:1,他引:1  
透明胞外聚合颗粒物(TEP)是海水中大量存在的黏性颗粒物质,它对于海洋颗粒物的聚集、有机碳的埋藏、食物网物质的传递、痕量金属的清除与迁出等均起着重要作用。本研究开展了夏季北白令海陆架、陆坡和海盆区透明胞外聚合颗粒物含量和分布的研究。结果表明,北白令海TEP含量介于34~628 mg/m3(Xeq)之间,其中陆架、陆坡和海盆区TEP的平均含量分别为240, 145和83 mg/m3(Xeq),整体呈现由陆架向外海降低的趋势。在陆坡和海盆区,TEP含量随着深度的增加而降低,但在陆架近底层水中,观察到TEP高含量的特征,与近底层水高的TSM, POC相对应。TEP与荧光强度、TSM、POC等的关系分析显示,研究海域TEP存在两个来源,其一为海洋上层水体的浮游生物,其主要贡献于陆架上层、陆坡和海盆水体;其二为陆架沉积物的底栖生物,其通过沉积物再悬浮贡献于陆架近底层水。  相似文献   

2.
透明胞外聚合颗粒物(TEP)具有高黏性、低密度和高碳氮比等特性,在颗粒有机物的聚集以及食物网循环中发挥着重要作用。为了解近岸海域TEP的分布动力学规律与机制,本文对温州近海夏秋季节水体中透明胞外聚合颗粒物的分布进行调查,并结合多项环境要素的主成分分析与相关性分析,探究了浙江南部近岸海域TEP分布的影响因素。结果显示,温州近海TEP秋季平均含量明显高于夏季,夏季TEP分布变化主要受陆地径流(瓯江)作用影响,而秋季主要受闽浙沿岸流影响。受沿岸流影响,秋季TEP的主要来源可能是其他海域以及底层颗粒物再悬浮。此外,由浮游植物释放的TEP对夏季的POC贡献最大,而秋季外源性TEP对POC的贡献较夏季有所升高。  相似文献   

3.
透明胞外聚合颗粒物(TEP)在海洋微食物网和海洋碳循环中发挥着重要作用。本文针对夏季闽东沿海TEP的分布特征及影响因素进行研究。结果表明,闽东沿海TEP含量(以黄原胶为标准物质计算,后同)范围为25.2~935.5 μg/L,平均值为(201.8±177.9) μg/L。整体而言,TEP的分布表现为近岸高、远岸低,表层TEP含量相对于底层要低。相关性分析显示,研究海域TEP含量与浊度和营养盐(硅酸盐、磷酸盐、硝酸盐、亚硝酸盐和铵盐)浓度呈正相关,与pH、溶解氧浓度和小型浮游生物量呈负相关。分级叶绿素a结果显示,相对于其他尺寸浮游植物,调查海域小型浮游生物可能对TEP含量的贡献最大。相比于开阔大洋中TEP主控因素为浮游植物而言,夏季闽东海域TEP主要由浮游植物在衰退阶段产生,其分布主要受颗粒物再悬浮作用影响。该结果不仅进一步阐明了近岸海域与开阔大洋TEP影响因素的区别,并且对我国近海海域不同区域TEP分布研究空白进行了补充。  相似文献   

4.
夏季珠江口透明胞外聚合颗粒物分布特征   总被引:3,自引:0,他引:3       下载免费PDF全文
本文研究夏季珠江口透明胞外聚合颗粒物(TEP)含量以及分布特征.结果表明,珠江口TEP含量(以黄原胶物质的量计算,下同)范围在85.0-1234.9μg·L-1之间,平均值为690.9μg·L-1.表层和底层TEP均值分别为562.3μg·L-1和778.2μg·L-1,大部分站位表层TEP含量略低于底层.TEP在表层分布自上游至下游逐渐递增,而向外海以及人海口东西两侧延伸逐渐降低.内河口为底层TEP含量高值区,虎门附近S3站TEP含量最高.TEP与不同粒径浮游植物叶绿素a的相关性分析表明微型浮游植物(粒径3-20μm)可能对珠江口TEP贡献较大.珠江口TEP/Ch1a比值与活性硅酸盐、硝酸盐、铵盐和总磷浓度呈现负相关性;表层TEP/Ch1a比值与盐度呈现正相关性,这表明盐度和营养盐可能是影响TEP含量的重要因素.  相似文献   

5.
透明胞外聚合颗粒物碳输运新途径   总被引:2,自引:1,他引:1  
孙军  郭聪聪  张桂成 《海洋学报》2019,41(8):125-130
目前大家普遍认为,透明胞外聚合颗粒物(Transparent Exopolymer Particles,TEP)因其独特的凝聚效应导致碳通量向海底输出。但是,近几年的研究表明TEP不仅影响了碳沉降途径,其本身能够悬浮甚至向海水表层迁移,导致其在海洋微表层(Surface Micro-layer, SML)积累,最终显著影响海洋表层碳通量。TEP和其他颗粒物聚集形成凝聚物后,其运动趋势则由凝聚物中TEP的含量占比,即最终颗粒物密度所决定。一个新的值得注意的现象是,密度低的TEP通过与其他微粒聚合形成表面活性物质(Surface-active Substances, SAS),会在海洋–大气界面形成薄膜,显著影响海–气CO2交换通量,甚至对全球气候变化造成影响。  相似文献   

6.
基于对第29次南极考察中在普里兹湾海域的53个站的表层水样的悬浮颗粒物含量测定和颗粒物电镜扫描图像和能谱半定量分析,研究了普里兹湾海域表层悬浮颗粒物的物质组成与分布特征,分析了其控制因素,进一步探讨了悬浮颗粒物的絮凝作用。结果显示:夏季普里兹湾海域表层悬浮颗粒物的含量为0.08~1.66mg/L,平均为0.43mg/L,整体上呈现近岸高于外海,东部高于西部的分布趋势。悬浮颗粒物以单颗粒组分为主,其中以硅藻和放射虫等硅质生物为主的生物颗粒占绝对优势,矿物颗粒相对较少,其他颗粒介于前两者之间;集合体组分平均约为10%,包括硅藻集合体、微型藻类集合体、矿物集合体、有机包膜和混杂集合体等。影响夏季普里兹湾海域悬浮颗粒物物质组分及其分布的主要因素包括悬浮颗粒物物质来源、海洋环流和海底地形等。悬浮颗粒物的絮凝过程包括胞外聚合物、透明胞外聚合物和海雪等几种类型,絮凝集合体的形成可以促进颗粒物的沉降。  相似文献   

7.
长江口海域春季浮游植物的年际变化   总被引:2,自引:0,他引:2  
林梅  李扬 《海洋与湖沼》2017,48(2):303-311
于2014年5月在长江口海域采集海水样品,分析了浮游植物种类组成、细胞丰度、优势种等群落结构特征。共鉴定浮游植物105种,其中硅藻30属56种,甲藻19属41种,以及隶属于金藻、蓝藻等的8个种。浮游硅藻以近岸半咸水种为主,优势种类是中肋骨条藻(Skeletonema costatum);浮游甲藻以沿岸广布种为主,典型代表是东海原甲藻(Prorocentrum donghaiense)。为了更好地了解长江口海域浮游植物的年际变化趋势,本文收集整理了该海域1986—2014年间的春季数据,分析了浮游硅藻、浮游甲藻主要群落特征的年际变化,以及浮游硅藻优势种类细胞粒径的变化趋势。结果表明:(1)浮游硅藻、浮游甲藻的种类数均呈现不同程度的上升趋势,浮游甲藻的上升幅度更为明显;(2)浮游甲藻种类数在浮游植物种类数中的占有比例呈上升趋势,而浮游硅藻所占比例呈下降趋势;(3)浮游硅藻优势种类的细胞粒径呈现小型化趋势。  相似文献   

8.
广西北部湾近岸海域虽常年为磷限制状态,但球形棕囊藻(Phaeocystis Globosa)赤潮灾害频繁发生。球形棕囊藻暴发时主要以囊体形式存在,赤潮衰退后,囊体破裂产生大量的透明胞外聚合颗粒物(Transparent Exopolymer Particles,TEP),在海洋动力作用下形成高碳、高黏性泡沫,影响渔业和核电取水安全。本文通过设置氮磷比为32∶1和64∶1的半连续培养实验,探讨磷限制对球形棕囊藻的生长,以及透明胞外聚合颗粒物产量的影响。结果表明:在氮磷比为32∶1和64∶1的磷限制条件下,球形棕囊藻的细胞密度、叶绿素a浓度、囊体密度及囊体表面细胞数,在培养的后半期都受到了抑制。与控制组相比,两个磷限制的处理组在囊体直径上并没有表现出显著的差异(显著性水平p> 0.05)。在氮磷比为32∶1的条件下,球形棕囊藻的TEP生产量与控制组相比没有显著差异(p> 0.05),在氮磷比为64∶1的条件下,TEP的生产量显著降低(p <0.05),磷限制程度的加剧对球形棕囊藻细胞分泌TEP产生影响。研究结果为进一步研究环境胁迫下球形棕囊藻TEP形成机制提供了依据。  相似文献   

9.
夏季东海PN断面浮游植物群集   总被引:2,自引:0,他引:2  
郭术津  孙军  汪岷 《海洋科学》2011,35(11):101-107
2009年8月对东海PN 断面11个站位进行了综合调查, 对获得的53 个浮游植物样品采用Uterm?hl 方法进行分析, 初步鉴定出浮游植物4 门40 属77 种(不包括未定名种), 其中硅藻28 属54 种,甲藻10 属21 种, 金藻1 属1 种, 蓝藻1 属1 种。调查断面浮游植物的细胞丰度介于0.044×10...  相似文献   

10.
秋季东海二甲基亚砜的分布与影响因素研究   总被引:1,自引:0,他引:1  
高楠  张洪海  杨桂朋 《海洋学报》2014,36(4):110-117
2010年11月对东海进行了大面调查,研究了秋季东海表层水中颗粒态和溶解态二甲基亚砜(DMSOp和DMSOd)的水平分布和PN断面的垂直分布特征及其影响因素。结果显示,表层海水中DMSOp和DMSOd的浓度范围分别为2.49~85.5nmol/L和2.27~86.6nmol/L,平均值分别为(17.2±1.40)nmol/L和(15.3±1.29)nmol/L。DMSOp水平分布与叶绿素a(Chl a)相类似,呈现近岸高、远海低的趋势,而DMSOd浓度高值区主要集中在东海西南部上升流区域。分析PN断面的垂直分布可见,DMSOp在近岸底层水中浓度较高,而DMSOd浓度在表层出现高值。相关性分析的结果表明,DMSOp与颗粒态二甲巯基丙酸内盐(DMSPp)以及DMSOp/Chl a比值与盐度分别存在一定的相关性,说明DMSOp与DMSPp具有相似的来源及生理功能。此外,DMSOd与二甲基硫(DMS)浓度具有正相关关系,说明DMS的氧化是东海DMSOd的一个重要来源途径。  相似文献   

11.
本文综合2000~2003年期间9个航次的研究结果,讨论了总溶解态无机砷(TDIAs,[TDIAs]=[As^5+]+[As^3+])和亚砷酸盐(As^3+)在黄、东海的分布和季节性变化。调查海区覆盖了黄、东海不同水文和化学性质的区域,研究重点放在自长江口向东南琉球群岛沿伸的PN断面以讨论陆源输送的物质对中国陆架边缘海的影响。利用氢化物发生原子荧光光谱法(HG-AFS)分析砷的不同形态(TDIAs,As^3+)。TDIAs受河流陆源输送的影响在近岸区域含量较高,并随着离岸距离的增加含量逐步下降。在东海陆架坡折带的近底层水中也存在TDIAs的高值中心,此区域具有低温、高盐、低悬浮颗粒物含量的特征,显示出入侵陆架的黑潮水是陆架区TDIAs另一个主要的源。TDIAs的季节性变化趋势受到长江冲淡水水量及黑潮入侵陆架强度的季节及年际变化共同影响。研究区域中As^3+的分布特征与TDIAs相反,其含量、分布及季节性变化受到浮游植物活动的影响,表现出与叶绿索含量存在正相关关系。夏季东海陆架PN断面中As/P的化学计量比值约为2×10^3。黄、东海溶解态砷的含量与世界其它海区相近,表明其未受到明显人为活动的影响。  相似文献   

12.
13.
As one of the important microzooplankton in marine pelagic habitats, tintinnids are classified as neritic genera,oceanic genera and cosmopolitan genera. Until now, we know little about the interaction between neritic and oceanic genera in continental shelves. Low species richness area was found in the mixing area between neritic and oceanic genera in the East China Sea. In this study, we investigated the spatial distribution of tintinnid community throughout the entire Bohai Sea in May(spring) of 2014 to find out:(1) whether the tintinnid assembalges differed in the three major bays bordering this shallow inland sea;(2) whether there was low species richness area in the Bohai Sea. Three genera and 11 species attributed to neritic and cosmopolitan taxa were reported from this region. Tintinnid abundance averaged(81±216) ind./L(0–1 234 ind./L). Tintinnid community differed within the three major bays, with each characterized by different tintinnid taxa. Referring to the average abundance of three bays, tintinnids were most abundant in the Laizhou Bay((328±445) ind./L), and least abundant in the Liaodong Bay((34±57) ind./L). A low species richness area occurred in the central Bohai Sea(20–40 m isobaths), in some stations of which no tintinnid was recorded. Our study demonstrates that tintinnid community varied greatly over small spatial scales, and low species richness area was found in the mixing area between neritic and oceanic genera within this inland sea.  相似文献   

14.
测定了南黄海和东海表层水0.7~53.0μm和〉53.0μm这2种悬浮颗粒物(SPM)、颗粒氮(PN)的含量.其结果表明,南黄海和东海表层水0.7~53.0μm粒级的SPM、PN平均含量分别为4.68 mg/dm3、18.50μg/dm3;而〉53.0μm粒级的SPM、PN平均含量分别为0.20 mg/dm3、2.65μg/dm3.0.7~53.0μm和〉53.0μm粒级的PN/SPM含量平均比值分别为0.78%、1.41%(m/m),后者约是前者的2倍.统计分析结果表明,尽管这2种粒级的SPM、PN含量和PN/SPM含量比值的范围较大,但约80%的数据集中在较小范围内,即0.7~53.0μm和〉53.0μm粒级SPM含量分别集中在0.37~3.68、0.02~0.29 mg/dm3的范围内;0.7~53.0μm和〉53.0μm粒级PN含量分别集中在2.54~18.90、0.40~2.69μg/dm3的范围内;0.7~53.0μm和〉53.0μm粒级的PN/SPM含量比值分别集中在0.14%~1.00%和0.15%~1.95%之间.研究结果表明,研究海域0.7~53.0μm粒级SPM、PN含量有2个高值区,分别位于近岸海区和东海东北部海区.〉53.0μm粒级SPM、PN含量的分布分为2个部分:南黄海表层水SPM、PN含量分布呈从近岸向外海降低的趋势;而东海表层水SPM、PN含量分布呈断面中间高,并分别向近岸和外海降低的趋势.  相似文献   

15.
郝志娟  王赐震  鲁海荣 《海洋通报》2005,24(6):49-57,64
海洋的上混合层可近似为温度、盐度和余流的垂直均匀层,如同大气的充分混合层一样.稳定度很大的跃层可看作是流的一个物质面,由此推理混合层内的余流通量可视为是水平无辐散的.本文以物理模型的方法设计了在渤、黄、东海海域求解多连通区域无辐散流的数值解法,研制了一个适用于上混合层积分模式的余流客观分析方法,并用多年平均的8月的余流和混合层深度的观测资料求解了无辐散流场,结果与被海洋学者认知的基于实测资料分析的渤、黄、东海环流图较好地一致.  相似文献   

16.
春、秋季南黄海浮游纤毛虫丰度及生物量的分布差异   总被引:1,自引:0,他引:1  
Seasonal variation of marine plankton spatial distribution is important in understanding the biological processes in the ocean.In this study,we studied spatial distribution of planktonic ciliate abundance and biomass in the central deep area(station depth greater than 60 m) and the coastal shallow area(station depth less than 60 m) of the southern Yellow Sea(32°–36.5°N,121°–125°E) in spring(April) and autumn(October–November) of 2006.Our results showed that both ciliate abundance and biomass in the surface waters were higher in spring((1 490±2 336)ind./L;(4.11±7.81) μg/L) than in autumn((972±823) ind./L;(1.11±1.18) μg/L,calculated by carbon).Ciliate abundance and biomass in the surface waters of the coastal shallow area were similar in spring and autumn.However,in the central deep area,those values were much higher in spring((1 878±2 893) ind./L;(5.99±10.10)μg/L) than in autumn((738±373) ind./L;(0.74±0.76) μg/L).High values of ciliate abundance and biomass occurred in the central deep area in spring and in the coastal shallow area in autumn.Mixotrophic ciliate Laboea strobila was abundant in the central deep area in spring,when a phytoplankton bloom occurred.However,in autumn,L.strobila was abundant in the coastal shallow area.Boreal tintinnid Ptychocyli obtusa was found in spring.Both L.strobila and P.obtusa were concentrated in the surface waters when their abundance was more than 1 000 ind./L.Peaks of these species were in the subsurface waters when their abundance was less than 400 ind./L.This study showed that both high abundance and biomass of ciliates occurred in different areas in southern Yellow Sea seasonally.  相似文献   

17.
The phase of the sea surface height annual variation in the East China Sea along China’s continental coast is delayed from that in the open ocean area, most probably because of seasonal strong monsoon winds. To elucidate this mechanism, we conducted an idealized model experiment using a rectangular shallow ocean with a sloped seafloor forced by southward blowing winds. We obtain a locally confined high SSH near the western boundary found in the East China Sea. The delay of the phase of the sea surface height (SSH) along the China coast can be interpreted as follows. The SSH of the East China Sea is high over large areas in September and low in March due to the expansion/contraction of seawater, which is attributable to the sea surface heat flux. However, near the continental boundary SSH becomes high in January and low in July under the influence of a monsoon winds. The phase delay along the continental boundary should appear by superposing these two time series with a phase difference near the boundary.  相似文献   

18.
Methane in the East China Sea water   总被引:1,自引:0,他引:1  
Methane in the East China Sea water was determined four times at a fixed vertical section along PN line consisting of 11–14 stations, in February 1993, October 1993, June 1994 and August 1994. The mean concentration of methane in the surface water was not significantly higher than that in the open ocean. The methane concentration below the pycnocline increased during the stratified period in summer to autumn and reached to 15 nmoles/l at most in October. The concentration of methane was fairly well correlated with AOU in the layer below the pycnocline in the stratified season. This means that methane in the bottom water has only a single source, which is expected to be anoxic sediments near the coast, and that the oxidation rate of methane in the water is extremely slow in the oxic water. The high methane observed in October completely disappeared in February, indicating that the methane was escaped to the atmosphere or transported to the pelagic ocean by the Kuroshio current. The East China Sea, therefore, is not a large direct and stationary source for the atmospheric methane, but may have some role as a source by supplying it sporadically to the atmosphere in early winter or indirectly from the surface of the pelagic ocean.  相似文献   

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