Factors influencing nutrient dynamics in the eutrophic Jiaozhou Bay, North China

We conducted studies of nutrients and water mass movements in a semi-enclosed bay in northern China to understand nutrient dynamics under varying tidal regimes. Four cruises were conducted under varying tidal regimes in Jiaozhou Bay, two at neap tide and one at spring tide in August and one at spring tide in October 2001. In addition to transect surveys, drift experiments and an anchor station were employed to show current and tidal effects. Samples for nutrient evaluation were taken from the five major tributary rivers in March (dry season) and August (flood season) of 2002 to estimate nutrient transport by rivers, and wastewater samples were collected to evaluate nutrients in wastewater discharge. Benthic nutrient fluxes were determined by (1) incubation of sediments with overlying seawater on board the boat and (2) calculated by Fick’s First Law from nutrient pore water profiles. Nutrient concentrations were high in the north, especially the northeast and northwest sectors, reflecting human activities. Jiaozhou Bay was characterized by high nitrogen, but low phosphorus and silica concentrations compared to Chinese coastal seas. Based on nutrient atomic ratios, the limiting elements for phytoplankton growth in Jiaozhou Bay were silica and phosphorus. The fluxes of nutrients between sediment and overlying water varied depending on the specific nutrient, the site and redox conditions. Benthic nutrient fluxes based on sediment incubations were all lower than the estimated diffusive fluxes, implying that the nutrients released from sediment pore waters were probably utilized by benthic microalgal and bottom-water primary production. A preliminary estimate of nutrient budgets demonstrated that riverine and wastewater inputs were greater than atmospheric deposition into Jiaozhou Bay, except that nitrate from wastewater inputs was less than atmospheric deposition. Concentrations of nitrogen and phosphorus increased while silica decreased in the last four decades, similar to other eutrophicated estuaries. The resulting shift in nutrient composition in Jiaozhou Bay affects phytoplankton composition, trophic interactions, and sustainability of living resources.     

Preliminary study on different nutrient pools supplies for the phytoplankton growth in the Jiaozhou Bay in China in the fall of 2004

The source and significance of two nutrients, nitrogen and phosphorous, were investigated by a modified dilution method performed on seawater samples from the Jiaozhou Bay, in autumn 2004. This modified dilution method accounted for the phytoplankton growth rate, microzooplankton grazing mortality rate, the internal and external nutrient pools, as well as nutrient supplied through remineralization by microzooplankton. The results indicated that the phytoplankton net growth rate increased in turn from inside the bay, to outside the bay, to in the Xiaogang Harbor. The phytoplankton maximum growth rates and microzooplankton grazing mortality rates were 1.14 and 0.92 d-1 outside the bay, 0.42 and 0.32 d-1 inside the bay and 0.98 and 0.62 d-1 in the harbor respectively. Outside the bay, the remineralized nitrogen (Kr=24.49) had heavy influence on the growth of the phytoplankton. Inside the bay, the remineralized phosphorus(Kr=3.49) strongly affected the phytoplankton growth. In the harbor, the remineralized phosphorus (Kr=3.73) was in larger demand by phytoplankton growth. The results demonstrated that the different nutrients pools supplied for phytoplankton growth were greatly in accordance with the phytoplankton community structure, microzooplankton grazing mortality rates and environmental conditions. It is revealed that nutrient remineralization is much more important for the phytoplankton growth in the Jiaozhou Bay than previously believed.     

浒苔绿潮消亡腐败过程中的营养盐释放及其对近海环境的影响

为探讨浒苔绿潮消亡腐败过程中的营养盐释放规律以及浒苔绿潮聚积腐烂对海水水质的影响，在室外模拟近岸浒苔绿潮聚积腐烂过程，并于2018年6月在浒苔绿潮靠岸前开始对主要浒苔绿潮聚积地(鳌山湾、鳌山湾口的海参池、石老人海域)进行观测，实时记录浒苔腐烂状况及对周边环境的影响。模拟实验结果表明:各形态氮、磷营养盐在浒苔腐烂分解过程中升高明显，且以溶解有机态、颗粒态为主。其中生物量为5 g/L实验组溶解有机氮(Dissolved Organic Nitrogen，DON)、颗粒态氮(Particulate Nitrogen，PN)、溶解有机磷(Dissolved Organic Phosphorus，DOP)、颗粒态磷(Particulate Phosphorus，PP)的浓度在浒苔腐烂分解过程中达本底浓度的5～10倍以上。现场调查结果显示，随着浒苔绿潮在青岛近岸聚积，各调查站点的溶解无机氮(Dissolved Inorganic Nitrogen，DIN)、DON、DOP受浒苔绿潮吸收影响均降至最低值，后随着浒苔绿潮腐烂逐渐上升，水质恶化。其中鳌山湾受浒苔绿潮腐烂影响最为严重，在调查期间水体甚至劣于二类水质。PN、PP为调查区内营养盐的主要赋存形式，其中鳌山湾海域PP变化最为明显，随着浒苔绿潮聚积腐烂达到最高值(2.02 μmol/L)。相比于鳌山湾，石老人海域海水交换能力强且在浒苔绿潮靠岸后进行了及时拦截打捞，受浒苔绿潮消亡腐烂影响较小。浒苔绿潮靠岸聚积腐烂，使海域内营养盐含量与结构明显变化，影响海域浮游植物群落结构的稳定,可能引发赤潮等次生生态灾害。因此需要及时清理聚积在青岛近岸的浒苔，避免其腐烂对周边环境造成影响。     

大亚湾夏季浮游植物群落结构的长期变化及其与环境因子的关系

本文分析了1999?2017年大亚湾夏季浮游植物群落结构的长期变化及其与环境因子的关系,结果显示,大亚湾海域海水温度呈显著下降趋势,盐度呈显著上升趋势;溶解无机氮浓度出现较大幅度提升,2008?2017年间大亚湾溶解无机氮浓度平均值比1999?2007年提升了72.73%;大亚湾浮游植物种类数变化趋势不明显,主要优势种没有发生明显变化,柔弱伪菱形藻（Pseudonitzschia delicatissima）为区域第一优势种,其次为中肋骨条藻（Skeletonema costatum）;浮游植物总丰度、硅藻丰度、甲藻丰度以及主要种类中的柔弱伪菱形藻、中肋骨条藻和叉角藻（Ceratium furca）丰度均呈现显著上升趋势;浮游植物生物多样性指数（H′）和均匀度（J）均呈下降趋势。人类活动所引起的溶解无机氮浓度大幅升高以及外海水入侵加强所引起的海水温度降低和盐度上升导致了浮游植物丰度的上升、优势种的单一化和生物多样性指数的下降。     

The effects of spring-neap tide on the phytoplankton community development in the Jiaozhou Bay, China

The development of the phytoplankton community was studied in the Jiaozhou Bay during the spring to neap tide in August 2001, through three cruises and a 15 d continuous observation. This investigation indicates that diatom cell abundance increased sharply following the end of a spring tide, from 9 cells/cm^3 to a peak of 94 cells/cm^3. The dominant species composition and abundance show a quick species sequence from spring to neap tide, and the dominant species at the start phase is Skeletomena costatum, then changes to Chaetoceros curvisetus, finally it changes to Eucampia zodiacus. Silicate concentration increases during spring tide, as a result of nutrient replenishment from the water-sediment interface, its initial average concentration in neap tide is 1.39μmol/dm^3 and reached the peak average concentration of 8.40μmol/dm^3 in spring tide. But the nitrogen concentration dropped due to dilution by the low nitrogen seawater from the Huanghai Sea, its initial average concentration in neap tide is 67μmol/dm^3 and decreased to the average concentration of 54μmol/dm^3 in spring tide. The degree of silicon limitation was decreased and phytoplankton, especially diatoms, responds immediately after nutrient replenishment in th ewater column. Skeletonmea costatum, as one of the dominant species in the Jiaozhou Bay, shows a quicker response to nutrient availability than Eucampia zodiacus and Chaetoceros curvisetus. It is proposed that dominant species composition and water column stability synchronously determine the development of phytoplankton summer blooms in the Jiaozhou bay.     

胶州湾沉积物中高生源硅含量的发现--胶州湾浮游植物生长硅限制的证据

从研究胶州湾沉积物中生源硅入手,利用对比分析对其限制的原因进行了探讨.研究表明,相对于邻近的黄海和渤海沉积物,胶州湾沉积物中的生源硅含量较高,在湾内外的三个站表层沉积物中生源硅的含量分别为1.58%、1.44%、1.48%,在整个柱状样中的平均含量分别为1.54%、1.48%和1.39%,属于高生源硅含量区.沉积物中BSi∶TN远远大于1,BSi∶TP也远远大于16,与水体中Si∶TN〈1,BSi∶16P〈1相反,同时沉积物中的OC∶BSi值远远小于Redfield比值（106∶16）,表明沉积物中有机质的分解速率远大于BSi的分解速率,生源硅分解的较慢.研究还发现,生源硅和有机碳的含量有明显的正相关关系,二者共同作用的结果是造成相当大的一部分BSi被埋藏,不能参与再循环,从而水体中的硅被永久地“清除”,造成水体硅的缺乏,这可能是造成胶州湾浮游植物生长硅限制的根本原因.湾外BSi较湾内低的主要原因是湾外的沉积物因其有机质含量低,且沉积物的颗粒粗而造成BSi的溶解速率比湾内的高.根据沉积物中生源硅的沉积通量和初级生产力的对比可推知,由硅藻形成的生源硅在沉降过程中平均只有15.5%被分解重新进入水体,其余的84.5%可被埋葬而形成沉积物.而胶州湾沉积物中的硅通过沉积物-海水界面返回到水体中的速率也小于生源硅的沉积速率,这进一步证明了海水中的硅不断向沉积物迁移,导致水体中硅含量持续的低水平,进而使Si成为浮游植物生长限制因子的主要原因.     

胶州湾海域浮游植物和赤潮物种的生物多样性研究进展

胶州湾是我国的一个典型近海海湾,也是近海生态系统的缩影。历史上胶州湾海域赤潮频发,因此也是研究赤潮暴发机制(包括赤潮物种组成、时空动态变化及对环境因子响应)的理想实验场所。迄今,几代科学家对胶州湾浮游植物和赤潮物种开展了长期而系统的调查研究,获得了大量的研究成果。为了系统跟踪胶州湾海域浮游植物群落组成,尤其是赤潮物种的组成变化,本文对近84年间(1936—2019年)胶州湾海域涉及浮游植物调研的54个调查数据结果进行了系统的统计和比较分析。文献共报道了549种浮游植物,包括硅藻326种、甲藻164种、绿藻21种、金藻9种、隐藻9种、淡色藻6种、定鞭藻5种、蓝藻3种、黄藻3种、下睫虫2种、裸藻1种和针胞藻1种。其中只有不到一半(40.29%)的浮游植物的全长18S rDNA序列得到解析,表明分子标记数据库需要继续完善,促进宏条形码分析的有效应用。胶州湾海域的优势浮游植物随时间的推移发生了较大变化,但是报道的甲藻与硅藻物种数的比例没有显著的变化。统计表明,研究者在胶州湾共鉴定到153种赤潮物种,包括硅藻79种、甲藻67种、定鞭藻2种、金藻2种、淡色藻1种、黄藻1种和针胞藻1种。胶州湾海域的典型优势浮游植物均为赤潮物种,包括中肋骨条藻、短角弯角藻、旋链角毛藻、加氏星杆藻、日本星杆藻、星脐圆筛藻和尖刺拟菱形藻,其中短角弯角藻和中肋骨条藻是胶州湾海域的"常驻"赤潮物种。本文通过系统综述胶州湾浮游植物和赤潮物种的生物多样性,为利用宏条形码和宏基因组等方法跟踪研究胶州湾和其他海域的浮游植物和赤潮物种的演化奠定了基础。     

胶州湾营养盐结构变化的研究

于１９８５年８月－１９８６年１２月和１９９１年５月－１９９３年１１地胶州湾表层海水营养盐的调查，根据Ｊｕｓｔｉｃ等建立的浮游植物生长的化学计量及可能营养盐限制因素标准，并结合海洋硅藻正常所需的Ｓｉ，Ｎ，Ｐ之间的原子比，用数学统计的方法研究了胶放湾表层海不营养盐结构，结果表明，含有丰富溶我机氮和磷的胶州湾，Ｓｉ：Ｐ的值有显著的下降，同时Ｓｉ：ＤＩＮ和ＤＩＮ：Ｐ的值也表现出下降的趋势，使胶州湾水域营养     

胶州湾氮、磷浓度的三维数值模拟

考虑了近岸海域影响氮、磷含量、时空分布的主要物理、生物化学过程,建立了胶州湾海域非保守物质(氮、磷)的水质预测模型。模型将氮、磷及与其相关的浮游植物、浮游动物作为状态变量,模拟了胶州湾海域夏季各状态变量浓度的时空分布。结果表明胶州湾北部氮、磷浓度最高,湾中央及湾口海域水质较好,各变量垂向分布均匀。数值模拟结果与监测结果及历史资料较为符合。     

胶州湾海域浮游植物和赤潮物种的生物多样性研究

胶州湾是我国一个典型的近海海湾,也是近海生态系统的缩影。历史上胶州湾海域赤潮频发,因此也是研究赤潮暴发机制(包括赤潮物种组成、时空动态变化及对环境因子响应)的理想实验场所。迄今,几代科学家对胶州湾浮游植物和赤潮物种开展了长期而系统的调查研究,获得了大量的研究成果。为了系统跟踪胶州湾海域浮游植物群落组成,尤其是赤潮物种的组成变化,解读基于分子标记的宏条形码分析结果,本文对近84年间(1936年-2019年)胶州湾海域涉及浮游植物调研的54个调查数据进行了系统的统计和比较分析。文献共报道了549种浮游植物,包括硅藻326种、甲藻164种、绿藻21种、金藻9种、隐藻9种、淡色藻6种、定鞭藻5种、蓝藻3种、黄藻3种、下睫虫2种、裸藻1种和针胞藻1种。其中只有不到一半(40.29%)的浮游植物的全长18S rDNA序列得到解析,表明分子标记数据库需要继续完善,促进宏条形码分析的有效应用。胶州湾海域的优势浮游植物随时间发生了较大变化,但是甲藻与硅藻数目的比例没有显著的变化。统计表明,胶州湾共鉴定到153种赤潮物种,包括硅藻79种、甲藻67种、定鞭藻2种、金藻2种、淡色藻1种、黄藻1种和针胞藻1种。胶州湾海域典型的优势赤潮物种包括中肋骨条藻、短角弯角藻、旋链角毛藻、加氏星杆藻、日本星杆藻、星脐圆筛藻和尖刺拟菱形藻。本文通过系统综述胶州湾浮游植物和赤潮物种的生物多样性,为利用宏条形码和宏基因组等方法跟踪研究胶州湾和其他海域的浮游植物和赤潮物种的演化奠定了基础。     

胶州湾营养盐的长期变化及其生态效应

依据改革开放40 a来胶州湾营养盐状况历史资料以及2018—2019年的现场调查,对胶州湾营养盐历史变化过程及其生态效应进行了系统分析。结果表明:营养盐的浓度变化大致以2008年为分界节点,在2008年前胶州湾溶解无机氮(DIN)浓度呈现持续上升趋势,而溶解无机磷(DIP)、活性硅酸盐(DSi)浓度则先略有减少后快速增加;2008年后胶州湾3种营养盐浓度均快速减少。营养盐限制状况由20世纪80年代初期的氮限制、20世纪90年代的硅限制转变为目前的磷限制。胶州湾Chl a年均质量浓度一直在3μg·L^-1上下波动但近年来则呈下降趋势,浮游动物生物量1994年后大幅度增加。分析发现,入湾营养盐通量的增加和海域面积缩小是2008年前胶州湾营养盐浓度增加的主要原因,而近十几年来胶州湾环境综合整治措施的大力实施则是氮、磷营养盐浓度减少的主要原因。2010年以前贝类养殖是控制胶州湾浮游植物生物量的主要因素,但近年来溶解无机磷浓度的减少和浮游动物生物量的增加是Chl a质量浓度呈下降趋势的主要原因。     

胶州湾中肋骨条藻赤潮与环境因子的关系

1998年7月3－8日胶州湾女增养残海域发生一次中肋骨条藻（Skketonemacostatum)赤潮，对该次赤潮生消全过程环境因子变化的监测分析表明，该养殖海域表层水体解态无机氮，无机磷，可溶性铁和锰含量高，为赤潮的发生提供了必需的营养基础，6月30日－7月1日较强的降雨过程使不体在以后两天中形成了高温，低盐，富营养的环境，有利于中肋骨条藻快速增殖拉导致了赤潮的爆发，7月3－8日天气持续的高温和静风使赤潮得以维持，随后磷，硅的耗尽使赤潮逐步走向消亡，应用相关分析和主成分分析，研究了赤潮与环境因子的关系，结果表明，影响本次赤潮的重要环境因子有：盐度，水温，硅酸盐，磷酸盐。     

胶州湾东部水体、浮游植物和沉积物中的砷

根据胶州湾四个航次中水体的溶解态总砷c（AS）、溶解态三价砷c（AS（Ⅲ））、悬浮物总砷（Asp）、浮游植物总砷（Asph）、沉积物酸萃取态砷（SAsH）的调查数据，指出c（As）含量未超过国家一类海水水质标准，其高值区位于四方近岸，并由近岸向远岸浓度逐渐降低。由悬浮颗粒物、浮游植物和沉积物对水体中砷的富集因子，指出三者在砷的循环和迁移中起主导作用。     

Decrease in anthropogenic nutrients and its effect on the C/N/P molar ratio of suspended particulate matter in hypertrophic Dokai Bay (Japan) in summer

Biologically important nutrient concentrations in Dokai Bay have declined as a result of reductions in anthropogenic inputs of total nitrogen and total phosphorus. A decrease in nutrient concentrations affects phytoplankton growth, thereby changing the biochemical characteristics of autochthonous particulate matter. We therefore investigated changes in the C/N/P molar ratio of suspended particulate matter (SPM) in the summer, when phytoplankton growth is vigorous, before environmental quality standards (EQSs) were attained (1995–1998) and afterward (2006–2009). We found that the ratio of particulate organic nitrogen (PON) to particulate phosphorus (PP) changed in conjunction with changes in the ratio of dissolved inorganic nitrogen to dissolved inorganic phosphorus (DIP) that resulted from reductions in nutrient loading. Furthermore, we suggest that because the DIP concentration in seawater was high before EQSs were attained, inorganic phosphorus was possibly adsorbed onto SPM. After the attainment of EQSs, however, the DIP concentration fell, and PON/PP was high. Phosphorus limitation of phytoplankton growth in the mouth of the bay may explain the high PON/PP ratios after EQS attainment.     

大亚湾夏季浮游植物群落结构及对淡澳河输入的响应特征*

浮游植物是水生生态系统的基础生产者, 其群落结构直接影响到生态系统的健康和安全。河流输入是人类活动影响大亚湾水体环境最重要的途径之一, 淡水输入改变了水体温度、盐度、浊度和营养盐等环境因子, 对浮游植物群落结构产生影响。文章调查研究了2015年河流输入最强的夏季丰水期大亚湾的水体环境因子和浮游植物群落结构, 分析了在较强河流输入影响下浮游植物群落结构的动态变化及其对环境因子的响应。结果发现, 夏季大亚湾淡澳河的输入使湾顶淡澳河口区域形成层化的低盐、高温、低透明度、高营养盐的水体, 湾中部表层水体则受一定强度河流羽流影响, 而湾口和湾中部底层水体主要受外海水影响。淡澳河淡水输入是夏季大亚湾外源性氮、磷营养盐的主要来源, 而硅酸盐除河流输入外, 外海水也输入较多的营养盐使得底层水体硅酸盐浓度较高。夏季大亚湾水体营养比例失衡较严重, 溶解无机磷是限制浮游植物生长的重要因子。硅藻是大亚湾夏季浮游植物的优势类群, 调查发现3种优势种[极小海链藻(Thalassiosira minima)、中肋骨条藻(Skeletonema costatum)和圆海链藻(Thalassiosira rotula)]均为硅藻。通过聚类分析, 可将大亚湾夏季浮游植物群落主要分为3种类型, 分别为: 浮游植物丰度较大的极小海链藻藻华暴发的群落, 位于淡澳河口, 受河流输入影响明显; 中肋骨条藻占据优势的群落, 分布在受一定强度的河流及其羽流影响的湾顶和湾中部区域; 浮游植物丰度较低的群落, 无明显优势种, 主要分布在湾口海水影响区域。淡澳河口的水体环境有利于小型链状硅藻极小海链藻的快速繁殖并暴发了藻华, 藻华发生时的海水环境条件为: 温度30~31°C, 盐度17‰~31‰, 水体透明度0.45~1.2m。硅藻对不同营养盐利用的差异以及随后的生物碎屑和颗粒沉降过程导致藻华发生区域Si∶N值略降低, N∶P值显著升高。河流输入影响下, 单一物种大量生长使得浮游植物群落种类组成丰度分布极不均匀, 从而导致淡澳河口浮游植物群落的种类多样性和均匀度指数降低, 种类多样性和均匀度指数均从淡澳河口向湾口逐渐增大。     

2009年夏季胶州湾同步调查浮游植物群落结构特征

根据2009年8月17日14:00胶州湾21个大面站的同步调查资料,研究了夏季胶州湾浮游植物群落结构特征。共检出浮游植物3门35属65种,平均细胞丰度为77.2cell/m L,硅藻在物种数量和细胞丰度上占绝对优势。主要优势种为中肋骨条藻Skeletonema costatum和大洋角管藻Cerataulina pelagica。夏季胶州湾浮游植物表层细胞丰度的平面分布趋势为北部高于南部,垂直分布趋势为从表层至底层细胞丰度明显降低。表层浮游植物的Shannon-Wiener指数和均匀度指数的分布显示胶州湾西北部和南部浮游植物群落结构更加稳定。与环境因子的相关分析表明浮游植物细胞丰度与盐度呈负相关,与硝酸盐、亚硝酸盐、磷酸盐呈正相关。     

A nitrogen and phosphorus dynamic model of mesocosm pelagic ecosystem in the Jiaozhou Bay in China

A nitrogen and phosphorus dynamic model of mesocosm pelagic ecosystem was established according to the summary and synthesis of the models available, in which seven state variables （DIN, PO4-P, DON, DOP, phytoplankton, zooplankton and detritus） were included. Logically it had five modules--phytoplankton, zooplankton, dissolved inorganic nutrients, dissolved organic nutrients and detritus. The results showed that this model could simulate the variations of DIN, PO4-P, DON, DOP, POC and phytoplankton biomass in pelagic ecosystem in mesocosm properly, based on the site experiment data in the Jiaozhou Bay in the autumn of 1999 and the summer of 2000. Not only the logical structure but also the model parameters were feasible, and about 20 parameters were made to fit for the Jiaozhou Bay during the simulation. All of these are necessary to study the control mechanism of nutrients biogeochemical cycling in the Jiaozhou Bay and other China＇ s coastal waters.     

浮游植物生物量研究 Ⅰ.浮游植物生物量细胞体积转化法

在海洋生态动力学研究过程中,采用浮游植物细胞数量来估算浮游植物丰度可以说是不够精确的,因为不同种的浮游植物细胞大小差别很大,只有浮游植物的生物量才能正确反映海洋生态系中的能量分布.本文以拟合浮游植物细胞相似体积方法,基于胶州湾生态动力学研究所获资料,计算了87种中国近海常见浮游植物的细胞体积、鲜重、碳含量、氮含量.     

2001年夏季胶州湾浮游植物群落结构的特征

本文根据 2 0 0 1年 8月 2 0～ 2 2日期间对胶州湾海域进行的大面积调查资料 ,对浮游植物的群落结构进行了初步研究。结果表明 ,浮游植物群落主要由沿岸暖水性种类组成 ,以硅藻为主 ,还有少量的甲藻、金藻和绿藻。湾中央出现的种类最多 ,湾口其次 ,湾边缘最少。细胞数量的高值区出现在B断面和 A5站周围的水域 ,低值区出现 D断面和 E断面。此外 ,对群落多样性的研究表明 ,Shannon指数在湾北部的多数站位高于湾南部水域 ,在 D2和 B1站出现 2个低值区 ;Margalef指数在湾内东部和 D4站周围水域明显高于湾内西部和湾口水域 ;均匀度则在 B1和 D2站周围水域偏高。浮游植物群落同营养盐的相关分析表明 ,调查期氨盐和磷酸盐是影响浮游植物生长的主要营养盐 ,中肋骨条藻、浮动弯角藻和旋链角毛藻等几种优势种类决定了这一关系     

胶州湾围隔浮游生态系统氮、磷营养盐迁移-转化模型研究

通过对目前生态动力学模型的总结和综合,以生态系统中氮、磷营养盐循环为主线,建立了适用于海洋围隔浮游生态系统的多变量的营养盐迁移-转化动力学模型.该模型包括浮游植物、浮游动物、溶解无机态营养盐、溶解有机态营养盐和生物碎屑5个模块,涉及溶解无机氮、磷酸盐、溶解有机氮、溶解有机磷、浮游植物、浮游动物和生物碎屑7个状态变量.分别利用1999年秋季和2000年夏季胶州湾围隔生态实验数据进行了模型和验证工作,成功地模拟了富加营养盐条件下围隔浮游生态系统中氮、磷营养盐生物化学迁移-转化过程,并确定了20余个参数的量值.