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1.
Nutrients, chlorophyll-a, particulate organic carbon (POC), and environmental conditions were extensively investigated in
the northern East China Sea (ECS) near Cheju Island during three seasonal cruises from 2003 to 2005. In spring and autumn,
relatively high concentrations of nitrate (2.6~12.4 μmol kg-1) and phosphate (0.17~0.61 μmol kg-1) were observed in the surface waters in the western part of the study area because of the large supply of nutrients from
deep waters by vertical mixing. The surface concentrations of nitrate and phosphate in summer were much lower than those in
spring and autumn, which is ascribed to a reduced nutrient supply from the deep waters in summer because of surface layer
stratification. While previous studies indicate that upwellings of the Kuroshio Current and the Changjiang (Yangtze River)
are main sources of nutrients in the ECS, these two inputs seem not to have contributed significantly to the build-up of nutrients
in the northern ECS during the time of this study. The lower nitrate:phosphate (N:P) ratio in the surface waters and the positive
correlation between the surface N:P ratio and nitrate concentration indicate that nitrate acts as a main nutrient limiting
phytoplankton growth in the northern ECS, contrary to previous reports of phosphate-limited phytoplankton growth in the ECS.
This difference arises because most surface water nutrients are supplied by vertical mixing from deep waters with low N:P
ratios and are not directly influenced by the Changjiang, which has a high N:P ratio. Surface chlorophyll-a levels showed
large seasonal variation, with high concentrations (0.38~4.14 mg m-3) in spring and autumn and low concentrations (0.22~1.05 mg m-3) in summer. The surface distribution of chlorophyll-a coincided fairly well with that of nitrate in the northern ECS, implying
that nitrate is an important nutrient controlling phytoplankton biomass. The POC:chlorophyll-a ratio was 4~6 times higher
in summer than in spring and autumn, presumably because of the high summer phytoplankton death rate caused by nutrient depletion
in the surface waters. 相似文献
2.
通过对2011年北部湾北部海域春季和夏季溶解氧(DO)及其他环境要素进行分析讨论,发现DO的季节性差异较大,春季DO含量(平均8.11 mg/L)明显高于夏季(平均6.05 mg/L)。夏季北部湾底层部分区域存在DO低值,该低值区常年存在,并且DO最低值逐渐降低、低值区范围逐渐扩大。利用相关性分析和灰色关联度分析的方法,对夏季底层DO低值的成因进行分析发现:夏季底层水体浮游植物产氧作用较弱,海水层化作用强,阻碍了表底层DO的交换;另外底层有机质分解的耗氧作用明显,出现了氧气的净消耗,由此导致夏季底层水体出现DO的低值。同时,由于2011年之后北部湾北部海域陆源污染排放和赤潮的频发使得该海域低氧状况加剧,潜在低氧区逐渐发展为低氧区。 相似文献
3.
~(234)U/~(238) as a potential tracer for tracking water masses mixing in the northern East China Sea
《海洋学报(英文版)》2021,(4)
The optimum multiparameter(OMP) method was often used to determine the percentages of water masses based on temperature, salinity and other parameters, like nutrient or dissolved oxygen(DO). There are a number of water masses in the East China Sea(ECS), a marginal sea of the western Pacific Ocean. However, it is difficult to clarify the proportion of water masses using traditional parameters, such as temperature, salinity, nutrient or DO because of the occurring of intensive biogeochemical processes in the near shore and shelf areas. Here, we reported the use of ~(234)U/~(238)Uactivity ratio embedded in the OMP method. The results indicate that seawater in the northern ECS mainly consisted of the estuarine water of Changjiang River(CEW), Kuroshio water(KW), and Yellow Sea Coastal Current(YSCC). In March 2017, the CEW only influenced the offshore waters shallower than30 m; the KW affected the east edge and the YSCC contributed more than 75% in the northern ECS. 相似文献
4.
The optimum multiparameter (OMP) method was often used to determine the percentages of water masses based on temperature, salinity and other parameters, like nutrient or dissolved oxygen (DO). There are a number of water masses in the East China Sea (ECS), a marginal sea of the western Pacific Ocean. However, it is difficult to clarify the proportion of water masses using traditional parameters, such as temperature, salinity, nutrient or DO because of the occurring of intensive biogeochemical processes in the near shore and shelf areas. Here, we reported the use of 234U/238U activity ratio embedded in the OMP method. The results indicate that seawater in the northern ECS mainly consisted of the estuarine water of Changjiang River (CEW), Kuroshio water (KW), and Yellow Sea Coastal Current (YSCC). In March 2017, the CEW only influenced the offshore waters shallower than 30 m; the KW affected the east edge and the YSCC contributed more than 75% in the northern ECS. 相似文献
5.
黄海和东海是西北太平洋重要的边缘海,复杂的海洋环流和丰富的陆源物质输入共同影响着海域环境和生态系统。为了解黄、东海浮游植物群落组成、分布状况及其影响因素,本研究于2015年8—9月期间,通过流式细胞仪和形态学观察等方法,调查了该海域微型真核藻类、微微型真核藻类、聚球藻(Synechococcus)、原绿球藻(Prochlorococcus)以及浮游植物优势种的组成、丰度与分布情况,并基于浮游植物种类和丰度状况进行了聚类分析。结果表明,黄、东海浮游植物群落组成存在明显差别,黄海海域微型浮游植物丰度高于东海,而微微型浮游植物丰度低于东海,原绿球藻主要分布在东海海域。黄、东海海域浮游植物群落组成及分布状况与海域环境特征密切相关。夏季黄海海域相对封闭,受黄海冷水团控制,表层海水中高丰度的微型真核藻类主要出现在冷水团西侧边缘锋面区。东海海域受到长江冲淡水和黑潮水向岸入侵的强烈影响,在长江口邻近海域出现硅藻赤潮,而原绿球藻呈现出自外海向近岸输送的分布态势。相关结果可望为进一步探讨陆源物质输入和邻近大洋对我国近海生态系统的影响及机理提供依据。 相似文献
6.
基于2021年4~12月山东半岛烟台-威海北部海洋牧场区域4处连续观测站的长期观测数据, 研究了该海域底层溶解氧(dissolved oxygen, DO)浓度的季节变化特征, 并探讨了物理机制。该海域底层DO从春季到夏季逐渐降低, 而从夏季到秋季逐渐升高, 主要受温度控制; 各观测站DO均在8月达到最低值, 受垂向层结增强和底层生物化学耗氧增多的共同影响。底层DO浓度在东西方向差异较小, 而在南北方向上差异明显; 在春季和秋季DO浓度南高北低, 是由于层结较弱, 海水垂向混合向底层提供DO, 且南边水深更浅, DO更容易达到饱和或过饱和状态, 而水深更深处DO仍处于不饱和状态; 夏季DO浓度南边大于北边是季节性层结强度的空间差异所致, 同时南边底层DO浓度下降更快, 使其南北差异在夏季有所减小。在11月中旬, 近岸3个观测站底层DO快速增多, 可能是由于此前的大风过程引起浮游植物繁殖, 晴朗天气促进其光合作用使海水中DO增多, 之后海水层结消失, 海水充分垂向混合使丰富的DO到达底层。 相似文献
7.
黑潮入侵深刻影响东海生态环境,但对其如何影响浮游植物群落组成与分布仍知之甚少。为此,于2011年四季对东海(26°~33°N,121°~128°E)共164个站位进行浮游植物拖网采集和环境因子测定,分析了浮游植物丰度和优势种组成及其对黑潮入侵的响应。调查共检出浮游植物9门509种(含变种、变型和未定种),其中硅藻305种、甲藻154种,蓝藻、定鞭藻、金藻、裸藻、绿藻、隐藻和黄藻种类数较少。秋季浮游植物细胞丰度最高(30 496.91×103 cells/m3),高值区位于黑潮与长江冲淡水交汇形成的锋面处;夏季次之(28 911.28×103 cells/m3),高值区分布与秋季相似;春季较少(19 180.76×103 cells/m3),高值区位于舟山群岛东南部;冬季最低(472.36×103 cells/m3),高值区位于东海南部。冬季受黑潮表层水入侵影响,主要优势种为铁氏束毛藻(Trichodesmium thiebautii);春、夏季主要优势种为骨条藻(Skeleto... 相似文献
8.
南黄海冷水团海域溶解氧和叶绿素最大现象值及营养盐累积的季节演变 总被引:7,自引:0,他引:7
基于2006-2007年在南黄海冷水团海域开展的4个季度月的调查资料, 重点研究了该海域溶解氧(DO)、叶绿素a(Chl a)最大值现象和营养盐累积的季节演变规律。结果表明:春至秋季黄海冷水团海域DO和Chl a最大值层深度具有先加深后变浅的趋势, 出现最大值层的海域面积呈现出先增大后缩小的变化过程, DO和Chl a最大值层的深度及面积在夏季均达到最大, 至冬季DO和Chl a最大值现象消失;夏季冷水团海域深水区DO最大值处的氧含量整体高于春季, 而冷水团边界附近氧最大值处的氧含量整体低于春季;春至秋季冷水域深水区次表层Chl a最大值处的Chl a含量先降低后升高, 于夏季时最低, 入秋后开始升高, 而一年四季中冷水域边界附近Chl a最大值处的Chl a含量却在夏季时最高, 而且显著高于深水区。黄海冷水团海域的底层营养盐储库具有一定的空间异质性, 冷水域底层通常分别在深水区和西部边界处存在营养盐高值核心, 其中位于深水区的高值核心位置季节变化不明显, 而位于冷水域西部边界附近的高值核心位置则呈现出自春季至夏季向西移动、入秋后又向东部移动的季节变化特征。水文物理因素和生物化学过程对DO、Chl a最大值及营养盐储库的季节演变具有重要的调控作用。 相似文献
9.
以2000年夏季胶州湾东北部养殖海域(女姑山)的现场调查为基础,结合前3年的调查结果和相关的历史资料,对该海域夏季营养盐含量分布特征及其对浮游植物生长的可能限制因子进行了分析和探讨。研究结果表明,胶州湾东北部典型养殖海域夏季表层水体各种营养盐含量高于胶州湾全湾夏季及全年的平均值,铵氮是总溶解态无机氮的主要组成形态,硝态氮次之。该海域的环境因素适宜浮游植物的生长,相关分析显示:叶绿素a与pH及DO呈显著正相关,与PO4、SiO3、NH4、DIN呈负相关。通过分析营养盐对浮游植物生长的限制因素发现,该海域各种营养盐含量相对较高,无机氮不会成为浮游植物生长的限制因素,磷酸盐有限制的可能性,而浮游植物生长受控于硅酸盐的几率最大。 相似文献
10.
《Deep Sea Research Part I: Oceanographic Research Papers》2007,54(7):1025-1041
Microzooplankton species composition and grazing rates on phytoplankton were investigated along a transect between ∼46 and 67°S, and between 140 and 145°E. Experiments were conducted in summer between November 2nd and December 14th in 2001. The structure of the microbial food web changed considerably along the transect and was associated with marked differences in the physical and chemical environment encountered in the different water masses and frontal regions. On average microzooplankton grazing experiments indicated that 91%, 102%, and 157%, (see results) of the phytoplankton production would be grazed in the <200, <20 and <2 μm size fractions, respectively, indicating microzooplankton grazing was potentially constraining phytoplankton populations (<200 μm) along most of the transect. Small ciliates in general and especially oligotrich species declined in importance from the relatively warm, Southern Subtropical Front waters (6.8 μg C/L) to the colder waters of the southern branch of the Polar Front (S-PF), (∼0.5 μg C/L) before increasing again near the Antarctic landmass. Large changes in microzooplankton dominance were observed, with heterotrophic nanoflagellates (HNF), ciliates and larger dinoflagellates having significant biomass in different water masses. HNF were the dominant grazers when chlorophyll a was low in areas such as the Inter-Polar Frontal Zone (IPFZ), while in areas of elevated biomass such as the S-PF and Southern Antarctic Circumpolar Current (SACC), a mix of copepod nauplii and large heterotrophic and mixotrophic dinoflagellates tended to dominate the grazing community. In the S-PF and SACC water masses the tight coupling observed between the microzooplankton grazers and phytoplankton populations over most of the rest of the transect was relaxed. In these regions grazing was low on the >20 μm size fraction of chlorophyll a, which dominated the biomass, while smaller diatoms and nanoplankton in the <20 μm size fraction were still heavily grazed. The lack of grazing pressure on large phytoplankton contributes to this region's potential to export carbon with larger cells known to have higher sinking rates. 相似文献
11.
近些年来,夏季黄海浒苔大规模暴发,并在青岛近岸海域大面积聚集,引起了广泛的关注。本文基于在夏季和冬季所获得的多学科调查资料,重点研究了青岛近海的水文-生物地球化学过程及其生态影响,阐明了该海域物理-化学-生物等多参数之间的耦合响应。研究显示,夏季黄海冷水团的边界可扩展至青岛近岸海域,并在局部涌升至上层水体,形成沿岸上升流;该上升流可对上层营养盐产生一定的补充,进而促进浮游植物的繁殖,并于底层海域对应形成溶解氧(DO)和pH的低值。夏季青岛近海的上升流可能还有利于随南风漂移至此的浒苔的生长,并在一定程度上引起浒苔的局地旺发;同时,夏季该海域特定的锋面系统对浒苔聚集的影响也不容忽视。冬季黄海暖流在苏北浅滩外侧向山东半岛南部海域延伸,扩展至青岛近海的暖水舌与近岸低温水之间的锋面特征明显,而且在向岸暖水与近岸冷水间还对应形成了明显的营养盐和叶绿素(Chl-a)锋面。该项研究从多学科交叉的视角,增进了对青岛近海物理、化学和生物过程之间耦合关系的认识。 相似文献
12.
Studies on aggregate formation and size distribution in relation to bottom water composition and flow regime were carried out in November 1994 at two transects in the inner and outer Mecklenburg Bight (Baltic Sea). The bottom water sampler ‘BIOPROBE' (BWS) was used to collect 10-dm3 water samples at 5, 10, 20 and 40 cm above the seabed. The outer transect samples tended to be more influenced by the open western Baltic Sea, whereas the inner transect samples were more affected by the coastal hydrography. Aggregate size distribution was investigated using a newly developed particle camera allowing identification of particles down to 150 μm size. Increasing concentrations of total particulate matter (TPM), particulate organic carbon (POC) and chlorophyll pigment equivalents (CPE) towards the seafloor together with a low proportion of POC/TPM (<5%) implied that the material was of resuspended origin. Aggregate size in both transects was positively correlated with TPM, transparent exopolymer particles (TEP) and bacterial cell abundance. Higher particle concentrations and aggregate numbers in the outer transect indicated a higher resuspension frequency, or lateral advection processes. The higher concentration of aggregates at the outer transect may reflect the larger amount of near-bottom transported material. 相似文献
13.
2009—2011年东海陆架海域网采浮游植物群落的季节变化 总被引:3,自引:0,他引:3
根据2009年7、8月(夏季)、12月到翌年1月(冬季)、2010年11月(秋季)和2011年4、5月(春季)共4个航次在东海陆架区进行的现场多学科综合调查,报道了4个季节在整个东海海域的浮游植物的空间分布及群落结构特征,并探讨了影响其分布格局的环境因子效应。结果表明,东海浮游植物群落主要由硅藻、甲藻组成。共检出浮游植物5门88属299种(含未定种)。调查区夏季细胞丰度达最高,平均为(8 659.572±28 937.27)cell/L,其次是秋、冬季,春季最低,分别为(4 413.726±12 534.573)cell/L、(421.773±647.532)cell/L和(218.479±265.897)cell/L。硅藻细胞丰度在夏、秋、冬3个季节占总平均丰度的95%以上,甲藻细胞丰度在春季最高,占总浮游植物细胞丰度的69%。调查海区浮游植物丰度高值区主要集中在长江口海域,并向外海呈递减趋势。不同群落间存在季节更替和演替现象。物种丰富度自春夏秋冬逐渐升高。香农指数(Shannon-Wiener index)和均匀度指数(Pielou index)分布较为一致,物种丰富度指数(Margalef index)呈现时空分布差异。Pearson相关分析结果表明:不同季节的物种间更迭与海区特定的物理化学参数显著相关。 相似文献
14.
Hypoxia in the East China Sea: one of the largest coastal low-oxygen areas in the world 总被引:18,自引:0,他引:18
Anoxia and hypoxia have been widely observed in estuarine and coastal regions over the past few decades; however, few reports have focused on the East China Sea (ECS). In June and August 2003, two cruises sampled at stations covering almost the entire shelf of the ECS to examine hypoxic events and their potential causes. In August, DO concentrations <2-3 mg l(-1) covered an area estimated at greater than 12,000 km(2) (or 432 km(3) volume). In contrast, water column DO concentrations exceeded 4 mg l(-1) throughout most of the shelf region. A sharp density gradient was observed under the mixed layer in August, restricting vertical re-aeration across this strong pycnocline. Oxygen depletion events, such as that described here for the ECS shelf, are fueled by decomposition of newly produced marine and river-borne biogenic substances (as well as older residual organic matter) deposited to the bottom waters. 相似文献
15.
Seasonal, sub-seasonal and spatial fluctuations in bottom dissolved oxygen (DO) were examined in St Helena Bay, South Africa’s largest and most productive embayment, between November 2013 and November 2014. Alongshore bay characteristics were assessed through comparison of variables along the 50-m depth contour. A mean coefficient of variation of 0.35 provided a measure of the relative variability of near-bottom DO concentrations along this contour. Consistently lower DO concentrations in the southern region of the bay in summer and autumn are attributed to enhanced retention. Across-shelf transects captured the seasonal development of hypoxia in relation to the distribution of phytoplankton biomass. Exceptional dinoflagellate blooms form extensive subsurface thin layers preceding the autumn DO minima in the south of the bay, prior to winter ventilation of the bottom waters. The seasonal decline in DO concentrations in the bottom waters was marked by sub-seasonal events of hypoxia, and ultimately anoxia linked to episodic deposition of organic matter, as indicated by increases in bottom chlorophyll-a concentrations. Seasonal changes in bottom water macronutrient concentrations followed trends in apparent oxygen utilisation (AOU), both of which mirrored DO concentrations. In the south of the bay, nitrogen loss through denitrification/anammox in suboxic waters was indicated by a dissolved inorganic N deficit in the bottom waters, which was most pronounced in autumn. 相似文献
16.
重点分析了南黄海冷水域西部溶解氧(DO)垂直分布中的最大值现象,并对DO浓度与主要环境因子的相关性进行了研究.结果表明:DO垂直分布最大值现象是调查海域DO分布的显著特征,且与SCM现象相伴生;DO垂直分布的最大值深度和量值具有较为明显的区域差异;温、盐是DO最大值层以上水体中氧含量的主要控制因素;一定强度的温跃层形成之后,DO最大值层出现在跃层的下界附近,且其氧含量受控于跃层厚度和生物化学作用,并与跃层厚度呈正相关;底层较低的DO含量是底层水及沉积物中有机物分解耗氧的结果.同时,还成功解释了DO最大值处与次表层叶绿素最大值层位置不吻合且量值不相关的原因,并提出了"DO净积累效应"的观点,不仅从时间跨度以及动态的角度上对DO最大值的形成机制进行了分析,而且从理论上探讨了DO最大值层氧含量(或来源)的构成,指出自DO最大值层开始产生至观测之时该层之下、真光层以内水体中的生物化学作用(或Chl-a总产出)才与氧最大值密切相关.总体来看,水体层化和生物化学作用明显影响着夏季南黄海冷水域西部DO的垂直分布. 相似文献
17.
Seasonal changes in the dissolved oxygen (DO) content in water were analyzed based on long-term observations (2006–2013) in the Eastern Bosporus Strait (Peter the Great Bay, Sea of Japan). It was found that the monthly average DO concentrations at the bottom of the strait were significantly lower in summer than the average annual long-term data. The minimum DO contents were recorded during four months, from July to October. It was shown that the DO content in water depended on changes in current directions in the strait: lower DO contents resulted from hypoxic water inflow, mostly from Amur Bay. 相似文献
18.
我国近海区域对气候变化高度敏感,浮游植物生态的变化关系到我国近海生态安全.采用重构的遥感数据等资料,分析并综述我国近海区域浮游植物叶绿素a浓度、初级生产力和浮游植物群落结构对气候变化背景下海水升温、风场等环境因子的响应.结果表明,东(南)中国海叶绿素a浓度略有上升(下降)的趋势,但浮游植物群落结构和生物量有明显的变化;其中,微微型浮游植物和甲藻占比增加,小型浮游植物物种成为海区优势种,暖水性种分布区北扩,而这与气候变化背景下海洋热动力环境的长期变化及其对营养盐供给的影响关系密切.分析还指出了气候变化对我国近海区域海洋生态影响研究迫切需要开展的若干工作. 相似文献
19.
为了了解某核电厂周边海域的生态环境状况,筛选潜在威胁核电厂冷源安全的致灾生物,分析影响致灾生物时空分布的主要环境因素,本研究于2018年进行了4个季节的生态调查。结果表明,研究海域浮游植物密度秋季最高,春季优势种为东海原甲藻(Prorocentrum donghaiense),其他季节优势种为中肋骨条藻(Skeletonema costatum)等硅藻。浮游动物密度夏季最高,以桡足类为主,春、夏季优势种还包括球型侧腕水母(Pleurobrachia globosa)和薮枝螅水母(Obelia sp.)。底栖动物的密度和生物量在秋季最高,优势种主要为豆形短眼蟹(Xenophthalmus pinnotheroides)、长吻沙蚕(Glycera chirori)和丝异须虫(Heteromastus filiforms)。浮游植物、浮游动物和底栖动物群落均在夏季最为稳定,群落多样性水平和物种丰度较高,且分布较为均匀。浮游植物群落的细胞丰度与悬浮物和磷酸盐的浓度正相关性最高。浮游动物的密度受温度和盐度的影响较大。底栖动物的群落分布主要受悬浮物和无机营养盐的浓度影响。本研究共筛选出17种威胁该核电厂冷源安全的潜在致灾生物。海地瓜(Acaudina molpadioides)、棘刺锚参(Protankyra bidentata)、海葵(Actiniaria species)和球型侧腕水母的风险等级较高,其分布主要受温度和盐度的影响。后续工作中,该核电厂应根据潜在致灾生物与环境因子的关系加强暴发机制研究、提升监测预警能力,并优化驱赶消杀技术和干扰体系,为核电厂冷源安全提供理论和技术保障。 相似文献
20.
琼东上升流(EHU)是南海北部最强劲的上升流系统之一。它的水动力过程已经被很多研究所揭示,但是它的浮游植物群落依然不清楚。通过利用卫星遥感数据和2015年上升流季节的航次数据,我们首次阐明了琼东上升流区域(EHU)和其临近区域雷州半岛东部上升流区(ELPU)浮游植物生物量和群落的空间结构。在夏季季风的驱动下,我们在琼东沿岸发现了一个显著的低温高盐冷舌。由于雷州半岛东部大陆架宽广平缓,ELPU比EHU相对较弱。在EHU,由于受潮汐和风浪混合的影响,高溶解氧浓度 (>6.0 mg/l)几乎从表层延伸到30米深度。其次,低溶解氧的海水(<6.0 mg/l, 缺氧)被上升流从底层抽吸到上层。ELPU和EHU相比有更差的DO状况,在EHU,底层DO浓度由于大量的消耗,浓度甚至低于3.5 mg/l。在EHU,浮游植物生物量最大值出现在30米水层而不是在表层,约为1.5 mg/m3。这表明了上升流对于浮游植物生长和DO分布的影响范围。由于营养物质输入丰富, ELPU处的浮游植物生物量比EHU高很多。在EHU处,浮游植物生物量最大值可以达到4.0 mg/m3。浮游植物生物量在EHU和ELPU的沿岸区域则降低到了大约0.2~0.3 mg/m3,而这个值与远海接近。在EHU的近岸,浮游植物群落结构被硅藻所主宰,大约占了浮游植物生物量的50%。原核生物(大约40%)、绿藻(大约20%)、原绿球藻(大约20%)组成了EHU的近岸的主要群落。在ELPU,硅藻大约占了浮游植物生物量的80%,其次是绿藻,这表明与EHU相比,这个区域是一个相对不同的生态系统。 相似文献