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1.
Michio J. Kishi Hitoshi Motono Makoto Kashiwai Atsushi Tsuda 《Journal of Oceanography》2001,57(5):499-507
A vertical one-dimensional ecosystem model with vertical migration of zooplankton was constructed and applied to Station A-7
off Sanriku district of Japan in the northwest Pacific Ocean. The model consists of an eight-compartment ecosystem model coupled
with a physical model of the oceanic mixed layer. The transition of phytoplankton species responsible for the spring bloom
is well reproduced by this model with vertical migration of zooplankton but is not simulated by the model without vertical
migration. This new model also simulates an observed inter-annual variability of the spring bloom, with the timing and intensity
of the simulated bloom in a given year depending upon the strength of mixing during the preceding winter.
This revised version was published online in August 2006 with corrections to the Cover Date. 相似文献
2.
Suhaimi Suratman Keith Weston Naomi Greenwood David B. Sivyer David J. Pearce Tim Jickells 《Estuarine, Coastal and Shelf Science》2010
The aim of this study was to investigate the cycling of dissolved inorganic and organic nutrients using moored instrumented buoys (SmartBuoys) during the spring bloom in the North Sea. The instrumentation on the buoys enabled high frequency measurements of water-column integrated irradiance and in situ chlorophyll to be made, and also preserved water sample collection which were used for dissolved inorganic and organic nutrient analyses. The SmartBuoys were located in the year-round well-mixed plume zone associated with the River Thames and in the summer stratified central North Sea. These site locations allowed comparison of nutrient concentrations and cycling, and spring bloom development at two contrasting sites. The spring bloom was expected to be initiated at both stations due to increasing insolation and decreasing suspended load leading to higher water-column integrated irradiance. Due to differences in suspended load between the sites, the spring bloom started ∼2 months earlier in the central North Sea. The spring bloom in the Thames plume also resulted in higher maximum phytoplankton biomass due to the higher pre-bloom nutrient concentrations associated with riverine input. The use of SmartBuoys is also shown to allow the cycling of dissolved organic nutrients to be examined over the critical, and often undersampled, spring bloom period. Dissolved Organic Nitrogen (DON) clearly increased during the spring bloom in the central North Sea compared to winter concentrations. DON also increased in the Thames plume although showing greater winter variability related to higher riverine and sedimentary dissolved organic matter input at this shallow (∼18 m) coastal site. DON increase during the spring bloom was therefore related to primary production at both sites probably due to active release by phytoplankton. At both stations DON decreased to pre-bloom concentrations as the bloom declined suggesting the released DON was bioavailable and removed due to heterotrophic uptake and production. The preserved nutrient samples from the central North Sea site were also suitable for Dissolved Organic Phosphorus (DOP) analysis due to their low suspended load with similar trends and cycling to DON, albeit at lower concentrations. This suggested similar processes controlling both DON and DOP. The variable timing of short term events such as the spring bloom makes sampling away from coastal regions difficult without the use of autonomous technology. This study demonstrates for the first time the applicability of using preserved samples from automated buoys for the measurement of dissolved organic nutrients. 相似文献
3.
本研究利用三维物理-生物耦合模型模拟了大气氮沉降对南黄海主要初级生产过程的影响,并通过数值实验区分了不同季节大气氮沉降的贡献。模拟结果显示,大气氮沉降明显增大了南黄海表层溶解无机氮的浓度,近岸海域增加量较大,可以达到3.0 mmol/m^3,且由近岸海域到黄海中部海域有明显的递减趋势,这主要是由于近岸海域无机氮来源众多,导致浓度较高,大气沉降的氮不会被浮游植物生长吸收,出现氮累积。大气氮沉降明显促进了黄海中部春季表层水华和夏季次表层叶绿素最大值两个重要初级生产过程,春季表层叶绿素增加量最大,可达0.20 mg/m^3,夏季次表层叶绿素浓度增加最显著,可达0.10 mg/m^3,分别约为峰值浓度的10%和6%。不同季节大气氮沉降对初级生产过程的贡献不同,冬季氮沉降可以存留下来影响春季水华过程,但作用小于春季氮沉降;夏季,由于水体层化较强,本季的氮沉降对次表层叶绿素最大值的促进作用并不明显,反而冬季氮沉降的影响大于春季和夏季的氮沉降。同时,大气氮沉降也促进了氮循环的各个过程,包括浮游植物生长吸收、呼吸释放和矿化过程。 相似文献
4.
Temporal and Spatial Variability of Phytoplankton Pigment Concentrations in the Japan Sea Derived from CZCS Images 总被引:3,自引:0,他引:3
Sang-Woo Kim Sei-ichi Saitoh Joji Ishizaka Yutaka Isoda Motoaki Kishino 《Journal of Oceanography》2000,56(5):527-538
Temporal and spatial variability of phytoplankton pigment concentrations in the Japan Sea are described, using monthly mean composite images of the Coastal Zone Color Scanner (CZCS). In order to describe the seasonal changes of pigment concentration from the results of the empirical orthogonal function (EOF) analysis, we selected four areas in the south Japan Sea. The pigment concentrations in these areas show remarkable seasonal variations. Two annual blooms appear in spring and fall. The spring bloom starts in the Japan Sea in February and March, when critical depth (CRD) becomes equal to mixed layer depth (MLD). The spring bloom in the southern areas (April) occurs one month in advance of that in the northern areas (May). This indicates that the pigment concentrations in the southern areas may increase rapidly in comparison with the northern areas since the water temperature increases faster in spring in the southern than in the northern areas. The fall bloom appears first in the southwest region, then in the southeast and northeast regions, finally appearing in the northwest region. Fall bloom appears in November and December when MLD becomes equal to CRD. The fall bloom can be explained by deepening of MLD in the Japan Sea. The pigment concentrations in winter are higher than those in summer. The low pigment concentrations dominate in summer. 相似文献
5.
Willy Baeyens Jean-Paul Mommaerts Leo Goeyens Frank Dehairs Hugues Dedeurwaerder Ghislain Decadt 《Estuarine, Coastal and Shelf Science》1984,18(5):499-510
Spatial and temporal variations of dissolved inorganic nitrogen (DIN) have been assessed in onshore and offshore areas of the Southern Bight on the basis of several years' measurements. They indicate that both the residual flow lines and DIN isoconcentration lines run parallel with the coast except in the vicinity of important freshwater discharge points such as the Scheldt estuary. Evidence was found that the seasonal DIN oscillations are not created through fluctuations in input conditions at the lateral boundaries, despite considerable fluctuations in these inputs which include the English Channel (from 500 tons(t) N day?1 in June up to approximately 2000 t N day?1 in February) and also rivers such as the Scheldt estuary (up to 50 t N day?1 in January but less than 5 t N day?1 in June–July). In both the onshore and offshore areas the sum of daylight phytoplanktonic nitrogen intake and sediment release of nitrogen corresponds to the observed DIN variations during most of the year. Pelagic N-mineralization from natural or grazing mortality of phytoplankton (220 mg N m?2 day?1 onshore at its maximum) can account for the differences (200 mg N m?2 day?1 onshore at its maximum), especially at the end of the phytoplankton spring bloom. Although the causes of DIN oscillations onshore and offshore are the same, the results differ because offshore (1) the vegetative season lasts longer, and (2) DIN is exhausted at the end of the phytoplankton spring bloom. 相似文献
6.
The wintertime ratio of inorganic dissolved nitrogen to phosphorus (DIN/DIP) in the surface waters of the Baltic Sea is typically below the molar Redfield ratio of 16, which expresses the presence of an excess inorganic dissolved phosphorus (eDIP) reserve compared to DIN. We assessed the role of the vernal phytoplankton bloom period (VPBP) in the consumption of the potential wintertime eDIP reserve, and the role of eDIP after the VPBP as a nutritional agent for the summertime growth of the cyanobacteria in the Baltic Sea. We employed a high-frequency dataset collected by the unattended monitoring systems on board merchant ships. The dataset encompasses the Baltic basins from the Arkona Basin to the Western Gulf of Finland and the time period from 1993 to 2009. All the observed values of the wintertime DIN/DIP ratio were below the molar Redfield ratio; the ratio showed a declining trend during the study, suggesting that there is a pronounced wintertime stock of the potential eDIP in the waters of the Baltic Sea, and that this stock has lately increased in magnitude. The VPBP took up excessively DIP to DIN than calculated according to the uptake in the molar Redfield ratio, thus reducing the potential eDIP reserve. On average, 59% of the potential eDIP reserve was left in the water after the VPBP as eDIP. eDIP was typically exhausted in the time frame early June–early July, matching well the timing of the appearance of cyanobacteria in substantial numbers in the water-column. eDIP clearly fueled the cyanobacterial growth in every instance in which it was possible to clarify their relationship. The cyanobacteria must still have another DIP source than eDIP to form extensive late-summer blooms, except in the western Gulf of Finland, where eDIP remained detectable up to early August. The annual role of eDIP for cyanobacterial growth depends greatly on the weather of late spring and early summer: this may sometimes launch the cyanobacterial growth much earlier than is usually expected. 相似文献
7.
当前渤海富营养化风险仍居高不下,严重制约了环渤海社会经济可持续发展。开展近海富营养化评估与趋势分析是国家生态安全保障的需求, 其难点在于富营养化评价要素长期演变进程高质量数据的获取。基于HAMSOM海洋生态模型, 通过修正溶解有机氮(dissolved organic nitrogen, DON)的难/易降解组分降解动力学形式, 构建了适用于富营养化评估与趋势分析的渤海三维水动力/生物地球化学耦合模型。利用2019年渤海春、夏、秋、冬四个季节DON、溶解无机氮(dissolved inorganic nitrogen, DIN)、溶解无机磷(dissolved inorganicphosphorus, DIP)和叶绿素a(chlorophyll a, chl a)调查结果, 对模型进行了校正, 并利用1980年至2020年的长期调查结果进行了验证, 模拟结果与调查结果相比较, 在数值大小和变化趋势上均吻合较好, 相对标准偏差、相似性系数和Kappa系数分别为24%、0.77和0.60。利用模型模拟计算的DIN、DIP、DON和chl a长期演变进程数据, 计算了营养状态质量指数(nutritional quality index, NQI)。结果表明, 当前渤海富营养化状态整体上处于贫营养状态, 但在渤海湾、辽东湾和莱州湾湾底近岸海域处于富营养状态, 季节上5~10月份处于中等富营养化状态, 从长期变化趋势看, 渤海整体上富营养化状态趋于改善。与复合富营养化指数(compound eutrophication index, CEI)对比表明, 渤海富营养化评估按NQI计算结果与按CEI计算结果相当吻合, 相似性系数为0.83。文章建立的渤海富营养化评估方法具有较高可靠性, 可用于渤海富营养化评估。 相似文献
8.
Differences in ecosystem dynamics between the northern and southern parts of the Japan Sea have been investigated with two nitrogen based ecosystem models forced by climatological mixed layer depth and euphotic layer depth. Models having 4 and 9 compartments with the same biochemical parameters were applied to the northern and southern parts. The spring bloom in the southern part is earlier and smaller than that in the northern part according to both models, which is supported by satellite ocean color images. The difference of the timing is related to the variation of mixed layer depth, and the magnitude of blooming is also related to the concentrations of surface nutrient and herbivorous zooplankton in early spring. The simulated seasonal variations of ecosystem characteristics (standing stock of each compartment, primary production and the ratio of export flux of organic particles to the primary production) are not significantly different between two models. The ratio of export flux of organic particles to the primary production are about 36% and 23% in the northern and southern parts according to the 4-compartment model, while the values are 31% and 18% by 9-compartment model. These results suggest that the biological pump in the northern part is more active than that in the southern part of the Japan Sea. Sensitivity analyses have been carried out to examine the differences of the response to the models. 相似文献
9.
文章利用2017年11月(秋季)和2018年4月(春季)对惠州考洲洋海域开展的两个航次水环境调查数据,分析了考洲洋海域表层溶解氧(DO)、化学需氧量(COD)、无机氮(DIN)、无机磷(DIP)和石油类(OIL)等典型水质因子的水平分布和季节变化情况。结果表明,秋季溶解氧、化学需氧量、石油类分别在盐洲岛以东附近海域、考洲洋湾顶海域和盐洲岛东南海域出现高值区,而无机氮在整个考洲洋无明显区域分布差异,无机磷含量呈现考洲洋内湾到湾口逐渐递减的趋势;春季化学需氧量、无机磷均在考洲洋湾顶出现高值区域,无机氮在盐洲岛以东附近海域出现高值区,而溶解氧和石油类无明显变化。从季节变化来看,秋季考洲洋海域溶解氧、化学需氧量和石油类平均含量均比春季高;无机氮、无机磷则相反,平均含量秋季低于春季。同时,文章还分别利用单因子和综合因子方法对海水有机污染状况进行评价并对其进行比较分析,结果表明,有机污染评价指数法可充分考虑多种水质因子,更适合对考洲洋水环境质量进行评价,得到较为客观的综合评价结果。 相似文献
10.
东亚边缘海区浮游植物春华的纬向与年际变化 总被引:1,自引:1,他引:0
Combined studies of latitudinal and interannual variations of annual phytoplankton bloom peak in East Asian marginal seas(17°–58°N, including the northern South China Sea(SCS), Kuroshio waters, the Sea of Japan and the Okhotsk Sea) are rarely. Based on satellite-retrieved ten-year(2003–2012) median timing of the annual Chlorophyll a concentration(Chl a) climax, here we report that this annual spring bloom peak generally delays from the SCS in January to the Okhotsk Sea in June at a rate of(21.20±2.86) km/d(decadal median±SD). Spring bloom is dominant feature of the phytoplankton annual cycle over these regions, except for the SCS which features winter bloom. The fluctuation of the annual peak timing is mainly within ±48 d departured from the decadal median peak date, therefore this period(the decadal median peak date ±48 d) is defined as annual spring bloom period. As sea surface temperature rises, earlier spring bloom peak timing but decreasing averaged Chl a biomass in the spring bloom period due to insufficient light is evident in the Okhotsk Sea from 2003 to 2012. For the rest of three study domains, there are no significant interannual variance trend of the peak timing and the averaged Chl a biomass. Furthermore this change of spring phytoplankton bloom timing and magnitude in the Okhotsk Sea challenges previous prediction that ocean warming would enhance algal productivity at high latitudes. 相似文献
11.
东海溶解无机氮(dissolved inorganic nitrogen, DIN)有四个主要外部来源,包括黑潮、台湾海峡、河流径流和大气沉降。为探究它们的共同作用对东海浮游植物时空变化带来的多重影响,利用添加分源模块的物理-生态耦合模型分析了东海表层不同来源DIN支持的浮游植物(以叶绿素a浓度chlorophylla,chla表征)季节变化与空间分布以及它们之间的响应关系,从而评估多源营养盐对东海陆架表层浮游植物的影响。各来源DIN支持的chl a浓度中,黑潮来源和河流径流来源先后占据主导地位,且除了河流径流来源chl a,其余三种来源chl a季节变化均呈双峰结构。不同来源chl a空间分布特征存在季节变化差异,并且各来源chl a在东海陆架不同季节存在不同的主导区域,这与不同来源DIN供给的物理过程,如环流、混合、层化以及温度变化等密切相关。研究不同来源营养盐对东海浮游植物的影响对理解多重压力下东海生态系统变化有重要意义。 相似文献
12.
More than 30 years of chemical oxygen demand (COD) and dissolved inorganic nitrogen (DIN) data for the inner area of the Ariake Sea were analyzed with a box model to show the changes in the average seasonal budget and the decadal-scale variation during the summer. The COD peaked in August and March on average. This summertime peak can be explained by an enhanced riverine load and increased primary production. The peak in March suggested additional organic matter production. There were also two peaks in DIN concentration on average: a summertime peak that could be explained by an enhanced riverine load, and a peak in December that was more complicated to explain. From the 1970s to the early 1990s, the bottom water in this area became increasingly hypoxic due to increased COD during the summer, even though there were minimal increases in terrestrial COD and nutrient loads and there were tidal flats covering a widespread area during this period. The increase in COD was caused by increased net ecosystem production, which was due to enhanced primary production induced by an increased freshwater residence time and decreased bivalve grazing. There was a negative feedback control in which hypoxia progressively increased, leading to declines in bivalve biomass, which in turn decreased the grazing pressure limiting primary production, meaning that primary production increased and the area became even more hypoxic. The net DIN production decreased during the 1980s and the 1990s. This was consistent with the change in net ecosystem production according to the COD. 相似文献
13.
南黄海浮游植物季节性变化的数值模拟与影响因子分析 总被引:26,自引:1,他引:25
用三维物理-生物耦合模式研究南黄海浮游植物(以叶绿素a为指标)的季节变化.对于物理模式采用Princeton ocean model(POM),对于生物模式考虑溶解无机营养盐(氮、磷、硅)、浮游植物、食草性浮游动物和碎屑.给定已知的初始场和外加边界强迫,模拟了观测到叶绿素a的主要时、空分布特征,如浮游植物的春、秋季水华和夏季次表层叶绿素a极大值现象等.研究表明,浮游植物春季水华最先发生于黄海中央海域,主要原因是该海域透明度较高,流速较小.春季水华开始于垂直对流减弱和层化开始形成之前(约3月底至4月上旬),显著地依赖水层的稳定性.水体层化以后(约5~9月)叶绿素a浓度高值区分布在南黄海的南部和锋区.夏季的南黄海中央海域,由于上混合层营养盐几乎耗尽,限制了浮游植物的生长,在紧贴温跃层下部的真光层,具有丰富的营养盐和合适的光照,次表层叶绿素a极大值得以形成.秋季(约9~11月份,略迟于海表面开始降温的时间,随地点不同而异)随垂直混合的增强,有利于营养盐向上输运,浮游植物出现一次较小的峰值. 相似文献
14.
Based on a hydrodynamic-ecological model, the temperature, salinity, current, phytoplankton(Chl a),zooplankton, and nutrient(dissolved inorganic nitrogen, DIN, and dissolved inorganic phosphorous, DIP)distributions in the Beibu Gulf were simulated and the nutrient budget of 2015 was quantitatively analyzed. The simulated results show that interface processes and monsoons significantly influence the ecological processes in the gulf. The concentrations of DIN, DIP, phytoplankton and zooplankton are generally higher in the eastern and northern gulf than that in the western and southern gulf. The key regions affected by ecological processes are the Qiongzhou Strait in winter and autumn and the estuaries along the Guangxi coast and the Red River in summer.In most of the studied domains, biochemical processes contribute more to the nutrient budget than do physical processes, and the DIN and DIP increase over the year. Phytoplankton plays an important role in the nutrient budget; phytoplankton photosynthetic uptake is the nutrient sink, phytoplankton dead cellular release is the largest source of DIN, and phytoplankton respiration is the largest source of DIP. The nutrient flux in the connected sections of the Beibu Gulf and open South China Sea(SCS) inflows from the east and outflows to the south. There are 113 709 t of DIN and 5 277 t of DIP imported from the open SCS to the gulf year-around. 相似文献
15.
Comparisons of surface Chl a and primary productivity along three transects of the southern South China Sea,northern Java Sea and eastern Indian Ocean in April 2011 
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下载免费PDF全文 YI Rong KE Zhi-xin SONG Xing-yu SHEN Ping-ping WANG Sheng-fu FAN Yan-zhi HUANG Liang-min TAN Ye-hui LI Gang 《热带海洋学报》2014,(6)
Results are presented about the changes in chlorophyll a density, carbon fixation and nutrient levels in the surface waters of three transects of the southern South China Sea (SCS), northern Java Sea (... 相似文献
16.
通过楚科奇海北部–加拿大海盆西侧交接地带的生态调查,我们发现0~150 m海域水体中以融冰水(MW,0~20 m)、白令海夏季水(s BSW)和阿拉斯加沿岸流(ACW)等水团为主。水温和营养盐变化与水团息息相关,物理–生化的耦合作用进一步影响了浮游植物分布和群落结构。叶绿素a浓度最大值多位于约50 m深、富含营养盐的s BSW和ACW暖水团中。sBSW和ACW中分别以小型(占比约74%)和微微型(占比约65%)浮游植物为主。藻华初期,溶解无机氮(DIN)虽呈相对限制状态,但仍高于浮游植物生长所需阈值。双单元混合模型显示:浮游植物对氮去除明显,氮吸收量与叶绿素a浓度呈正比,且在温度略高的ACW水团中氮吸收量高于s BSW水团。在北极变暖、波弗特流涡增强以及ACW和sBSW营养盐补给下,该区域的浮游植物的叶绿素a浓度(均值:(0.327±0.163)mg/m3,范围:0.04~0.69 mg/m3)与历史数据相比有所提高。这将增加北极海区的碳吸收通量,有利于其作为碳汇区的发展。 相似文献
17.
基于2009年6–9月,2014年5月,2014年7–8月在乳山湾外邻近海域的综合调查资料,分析了该开放海域水体与沉积物中氮、磷营养盐的组成和分布,并在潮汐潮流数值模式计算水通量的基础上分析了近岸开放区域无机氮(DIN)和无机磷(DIP)的循环与收支的主要过程,量化了潮汐潮流、初级生产的消耗与转化、底界面过程与内部循环等过程对氮和磷营养盐循环与收支的影响。结果表明,夏季乳山湾外邻近海域水体DIN和DIP的浓度与分布受陆源输入和潮汐潮流的共同影响,高值均出现在湾口区域;沉积物-水界面存在DIN和DIP从沉积物向上覆水释放的现象,使得底层水体的氮、磷营养盐浓度高于表层水体。氮的收支表明,研究海域水体内部循环过程是初级生产所需DIN的主要来源,占初级生产总消耗量的86%,其次是水交换作用(11%),底界面扩散对初级生产的贡献相对较小(3%);水体DIN的移出主要是通过埋藏、向外海的输送和水体反硝化作用,其比例分别为80%、16%和4%。磷的收支显示,研究海域水体内部循环过程贡献了初级生产所需DIP的91%,其次是水交换作用(9%),底界面扩散对初级生产的贡献小于1%;水体DIP支出主要是通过沉积埋藏和向外海的输送,其比例分别为67%和33%。研究结果表明内部循环过程是近海水体氮和磷获得补充的主要途径,不过外部来源的氮、磷营养盐结构与系统内部具有显著的差异,且系统内磷的埋藏效率要高于氮,其必将对乳山湾外邻近海域营养盐结构和初级生产产生长远的影响。 相似文献
18.
广西近海营养盐的时空分布特征 总被引:2,自引:1,他引:1
利用2006~2007年4个航次的大面调查数据,分析讨论了广西近海4个季节营养盐的时空分布变化特征。结果表明,该海域在春、夏、秋三季,活性硅酸盐和溶解无机氮分布趋势是近岸高,远岸低,由北向南呈梯度快速递减,高值区主要出现在廉州湾、铁山港和茅尾海三个区域;夏季磷酸盐在雷州半岛与涠洲岛之间出现高值;冬季3类营养盐在调查海区内分布均匀且为一年最低值。对该海区营养盐结构分析表明,硅在该海区过剩,溶解无机氮基本能满足浮游植物的生长需要,但在春季溶解无机氮和磷浓度都较低,属于寡营养型;夏季该海区磷浓度充足,在秋冬两季磷为该海区的限制性元素。 相似文献
19.
The European Regional Seas Ecosystem Model (ERSEM) has been coupled with a two-dimensional depth-averaged transport model of the Humber plume region and run to simulate 1988–1989. Simulations of the spatial and temporal variations in chlorophyll-a, nitrate, phosphate and suspended particulate matter distributions in winter, spring and summer show how the development of the spring bloom and subsequent maintenance of primary production is controlled by the physicochemical environment of the plume zone. Results are also shown for two stations, one characterised by the high nutrient and suspended matter concentrations of the plume and the other by the relatively low nutrient and sediment concentrations of the offshore waters. The modelled net primary production at the plume site was 105 g C m−2 a−1 and 127 g C m−2 a−1 offshore. Primary production was controlled by light limitation between October and March and by the availability of nutrients during the rest of the year. The phytoplankton nutrient demand is met by in-situ recycling processes during the summer. The likely effect of increasing and decreasing anthropogenic riverine inputs of nitrate and phosphate upon ecosystem function was also investigated. Modelling experiments indicate that increasing the nitrogen to silicate ratio in freshwater inputs increased the production of non-siliceous phytoplankton in the plume. The results of this model have been used to calculate the annual and quarterly mass balances describing the usage of inorganic nitrogen, phosphate and silicate within the plume zone for the period of the NERC North Sea survey (September 1988 to October 1989). The modelled Humber plume retains 3.9% of the freshwater dissolved inorganic nitrogen, 2.2% of the freshwater phosphate and 1.3% of the freshwater silicate input over the simulated seasonal cycle. The remainder is transported into the southern North Sea in either dissolved or particulate form. The reliability of these results is discussed. 相似文献
20.
Concentrations of dissolved Ni, Cu, Zn, Cd and Pb were measured in water samples collected during a cruise with R.V Pelagia (29-6/14-7-1993) in the northern North Sea and N.E. Atlantic Ocean. At least six depths (0–90 m) were sampled with modified Go-Flo samplers from a rubber zodiac. In the study area, the first 25 m were well mixed and stratification occurred below this depth. The local bloom of Emiliania huxleyi hardly affected the trace metals concentration, except for some removal of Cd as seen from its correlation with nitrate. The mean dissolved concentrations were for Ni (3.66 nM), Cu (1.61 nM), Zn (4.5 nM), Cd (48 pM) and Pb (108 pM). These concentrations are among the lowest reported for the North Sea and are of similar magnitude to those found in the eastern North Atlantic at the same latitude. Zn was the only exception with values 10 times higher compared to those in the Atlantic Ocean, suggesting external inputs, mainly atmospheric and possibly from surrounding land masses. The observed ratio Zn:Cd in the North Sea and estuaries is in between the high ratio 600–900 for continental sources and the low ratio 5–10 for oceanic waters. Latter low ratio is consistent with the 21-fold stronger inorganic complexation of Cd in seawater which, in combination with the preferential biological uptake of Zn, may lead to the observed about hundredfold fractionation of Zn versus Cd in the marine system. Other processes may play a role but would need further investigation. The dissolved Pb values tend to be lower than found before in the North Sea, indicating decreasing inventories due to reduced anthropogenic emissions. 相似文献