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1.
胶州湾海水中无机氮的分布与富营养化研究 总被引:27,自引:4,他引:23
根据2003年112月胶州湾海区12个航次海水无机氮等的调查资料,分析了该海域生态环境中无机氮的分布特征及时空变化,评价了水质的富营养化状况。结果表明,测区全年溶解无机氮的平均含量为17.70μmol/dm^3。在4个季节中,溶解无机氮以NO3-N的含量为最大,占58.2%,是氮主要存在形态,其中秋季含量最高,占溶解无机氮的64.74%。无机氮分布从东北部高含量区域向湾内及湾口方向呈逐步递减趋势。溶解无机磷的年平均含量为0.49μmol/dm^3,表层海水4个季节中N/P比平均为39.41,胶州湾海水中的磷相对于氮是匮乏的。据营养状态指数划分,胶州湾的东、北岸海域属富营养化区,夏、秋两季可能受到赤潮的严重威胁。 相似文献
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根据2015年10月(秋季)和2016年1月(冬季)对厦门海域开展的2次水质调查,研究了该海域中溶解有机氮(DON)的时空分布特征及总溶解态氮(TDN)的组成,并探讨了DON与环境要素的相关性及其来源.结果表明:厦门海域DON浓度平均值冬季大于秋季,表层高于底层,整体呈内湾、河口区较高,湾口区低的分布格局.秋季DON浓度的空间分布为同安湾西海域九龙江口邻近海域东南海域大嶝海域,冬季为西海域同安湾九龙江口邻近海域东南海域大嶝海域.该海域秋、冬季DON浓度占比(CDON/CTDN)分别为56%和53%,DON浓度占比整体呈湾口区大、河口区及内湾小的分布特征.相关性分析表明,该海域秋、冬季表、底层DON浓度与盐度均呈极显著负相关,与磷酸盐、硅酸盐含量为极显著正相关,与叶绿素a、溶解氧、p H值存在一定相关性.厦门海域DON的来源主要有九龙江河流、城市生活污水、工农业废水等陆源输入和浮游植物活动等海源生成. 相似文献
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胶州湾海水营养盐的分布及潜在性富营养化研究 总被引:2,自引:0,他引:2
根据2009年5、8、10月胶州湾海区3个航次海水营养盐的调查资料,分析了该海区海水营养盐的分布特征和时空变化,利用潜在富营养化评价模式评价水质营养状况。结果表明,溶解无机氮、活性磷酸盐以及活性硅酸盐的年均含量分别为0.335、0.028和0.725 mg/L,NO3-N是DIN的主要组成部分,占溶解无机氮含量的71.6%;8月营养盐含量高于5月和10月,营养盐的空间分布从东部河口区和北部养殖区两个高含量区向湾中心和湾口呈逐步递减之势;DIN∶P,Si∶DIN和Si∶P的比值年平均分别为53.9,2.03和57.7,活性磷酸盐为限制因素,胶州湾海域处于磷中等限制-磷限制潜在性富营养化,楼山河口和李村河口为中度营养-富营养,一旦有外界磷大量输入可能发生赤潮。 相似文献
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根据广西近岸海域2015年3、5、8、11月4个航次的海水中营养盐监测数据,分析了广西近岸海域海水中营养盐的时空分布特征,应用潜在性富营养化评价模式对整个海域水质富营养化程度进行了评价。结果表明:广西近岸海域富营养化状态总体良好,时空分布受陆源污染的影响,营养盐质量浓度呈湾内-湾口-湾外递减趋势。多数站位点氮磷比常年大于Redfield比值,处于磷限制状态。钦州湾内和大风江口是富营养化最为严重的水域,其次是防城港湾内、廉州湾内和铁山港湾,呈磷限制状态,容易在磷污染增高时,爆发富营养化,应特别加以监测与控制。 相似文献
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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。 相似文献
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根据1982-04、06、07和10月胶州湾水域调查资料,探讨和研究胶州湾重金属Hg的水质、平面分布、垂直分布、季节变化以及来源.结果表明:Hg在胶州湾水体中的质量浓度范围为:0.006~0.049 μg/L,在胶州湾整个水域,没有受到Hg的污染.在胶州湾西南沿岸水域,地表径流直接输送Hg入海,其质量浓度都非常低;在胶州湾东部沿岸水域,河流输送Hg入海,其质量浓度相对较高.Hg的表、底层水平分布证实了Hg的水域迁移过程和水域迁移机制.Hg质量浓度的垂直分布展示了胶州湾表层水质受到陆地地表径流输送Hg的影响,而胶州湾底层水质受到累计沉降的效应.通过胶州湾Hg的时空分布,发现控制Hg的排放得到实施,输入胶州湾水域的Hg大为减少. 相似文献
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近年来快速城镇化和人类活动导致沿海地区营养盐含量显著增加,导致海湾富营养化现象日趋严重。了解水体营养盐含量分布特征与陆源污染之间的关系,是对海湾进行有效环境管理的前提。本研究以2010—2019年福建省厦门湾近岸海域水质监测数据为基础,分析长期性、季节性水质空间分布特征,并利用富营养化指数法对海湾富营养化状态进行评价,为氮、磷污染物治理提供措施建议。结果表明:厦门湾自2013年以来无机氮、无机磷含量波动降低,但同安湾无机磷含量近年来有明显增加。春季和秋季无机氮、无机磷含量明显高于夏季,不同季节氮、磷含量均呈现由湾内向湾外递减的分布趋势,反映出典型的陆源输入特征。硝酸盐氮是厦门湾无机氮的最主要成分,其与无机磷的比值普遍高于Redfield比值。无机氮、无机磷是导致九龙江口、西海域、同安湾富营养化指数较高的主要因子,受径流调控明显,无机磷在秋季还受到沿岸排污口的显著影响。厦门湾亟需加强对所有入海河流氮、磷污染的总量控制,建议强化沿岸排污口的管控。 相似文献
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为了解胶州湾水体和表层沉积物营养环境状况及其主要影响因素,于2019年8月在胶州湾30个站位点采集了海水和表层沉积物样品,并于2021年5月在胶州湾沿岸采集了18个站位点的水样,对水体溶解无机态营养盐浓度和组成以及表层沉积物中总有机碳、总氮、总磷及生物硅含量和碳、氮稳定同位素(δ13C、δ15N)进行了分析。结果表明,胶州湾内水体和沿岸水体中溶解无机氮、溶解无机磷和溶解硅酸盐浓度空间分布相近,高值均位于湾东北部,主要受到河流输入和沿岸污水排放的影响,低值主要出现在湾中部和湾口处。结合近30年来的历史数据分析发现,胶州湾夏季营养盐浓度在1990?2008年期间呈持续上升的趋势,政府实施的污染物总量控制措施以及河流径流量下降使得2006年以来营养盐浓度呈现下降的趋势,该变化在空间上主要体现为大沽河氮、磷输入量的减少及其对应的湾西部营养盐高值的消失。胶州湾氮、磷营养盐输入的不平衡使得“磷限制”在2000年后逐渐加剧。胶州湾表层沉积物中总有机碳、总氮、总磷含量高值均集中于东北部和东部沿岸,结合生物硅和水体营养盐含量分析显示,这主要是河流与排污输入及其带来的高初级生产力造成的,沉积物生源要素与水体营养盐在空间分布上存在较好的耦合关系。沉积物粒度较粗对有机质保存的不利影响以及湾口较强的水动力作用共同导致了湾西部、中部以及湾口的生源要素含量较低。δ13C以及二端元混合模型显示,胶州湾表层沉积物有机质来源总体以海源为主,平均占比为64%,东部沿岸受陆源输入影响较明显。δ15N的空间分布显示,胶州湾表层沉积物中氮元素受到了海水养殖与污水排放的共同影响。水体和沉积物营养环境现状共同表明,对东北部河流和沿岸污水排放的控制是后期胶州湾污染治理的关键。 相似文献
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胶州湾营养盐结构变化的研究 总被引:40,自引:5,他引:40
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 相似文献
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LI Keqiang WANG Xiulin LIANG Shengkang SHI Xiaoyong ZHU Chenjian CHEN Hu 《海洋学报(英文版)》2008,27(5):98-110
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. 相似文献
13.
Carbon, nitrogen, phosphorus, silicon composition of cultured two different sized phytoplankton common species of Thalazsiosira rotula and Skeletonema costatum from the Jiaozhou Bay were measured. Carbon, nitrogen, phosphorus, silicon contents in cell were obvious higher in T. rotula than in S. costatum, but the percents of nitrogen, phosphorus, sihcon contents in cell dry mass in T. rotula were lower than those in S. costatum. The dry mass concentrations of nitrogen,phosphorus, silicon in S. costatum were much higher than those in T. rotula, particularly silicon, the former was 6. 4 times of the latter, showing that S. costatum could more assimilate these elements. Especially, S. costatum had competitive dominance for assimilating silicon, which is beneficial to its becoming a major dominant species in relative short silicon of the Jiaozhou Bay. There were some differences in numerical value of nutrient ratios both laboratory-cultured phytoplankton and different sized suspended particulates ( mainly phytoplankton) in the Jiaozhou Bay, which was caused by the changes of environment. High contents of carbon, nitrogon and relative low phosporus, sil- icon, high molar ratio of nitrogen to phosphorus (far higher than Redfield value) and low ratio of silicon to phosphorus and silicon to nitrogen (far lower than Redfield values) in the two diatoms and different sized suspended particulates were consistent with those in the seawater. Relative short silicon in the seawater and phytoplankton showed that silicon was possibly affectting phytoplankton growth in the Jiaozhou Bay. 相似文献
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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. 相似文献
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胶州湾的生态环境演变与营养盐变化的关系 总被引:1,自引:0,他引:1
作为我国人为影响海洋研究与海洋学基础研究的典型海域,胶州湾历经90年的科学调查和研究,获得了系统的对胶州湾海洋学的认识。本文总结归纳了近年来胶州湾的生态环境变化状况、营养物质输入以及百年来生态环境演变的主要结果和结论。近年来,胶州湾海水呈现“高氮-低磷-低硅富营养化”状况较明显,浮游生物生物量有增加的趋势,输入到胶州湾营养物质的量巨大,总溶解态氮的年输入通量为6 945.4 t/a,其中无机氮、有机氮分别为4 453.1 t/a,2 492.3 t/a。点源和河流是总溶解态氮的主要输入方式,分别占无机氮输入通量的39%和20%,有机氮输入通量的31%和41%。总溶解态磷的年输入通量为160.6 t/a,其中无机磷的输入略高于有机磷,二者分别为88.0 t/a,72.6 t/a。河流和点源是无机磷的主要输入方式,分别占无机磷输入通量的40%和30%,而对于有机磷而言,河流是其主要的输入方式,可占其输入通量的51%,而地下水和点源也分别占输入通量的24%和15%,这些大量输入的营养物质对胶州湾生态环境变化起了关键作用。胶州湾百年来经历了三个阶段的演变,20世纪70年代以前,胶州湾受人为影响很小,其化学要素水平基本呈现“背景值”且比较稳定,从20世纪80年代起,胶州湾明显受到人为活动的影响,其沉积物中的化学组分持续增加,直到20世纪90年代中到2000年达到高峰,2000年后,由于环保治理措施的加强,沉积物中的化学组分呈明显降低趋势,基本稳定在较低的水平。 相似文献
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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. 相似文献
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Geochemical records of phosphorus in Jiaozhou Bay sediments-Implications for environmental changes in recent hundred years 总被引:2,自引:1,他引:2
Phosphorus is a key element and plays an important role in global biogeochemical cycles. The evolution of sedimentary environment is also influenced by phosphorus concentrations and fractions as well as phosphate sorption characteristics of the marine sediments. The geochemical characteristics of phosphorus and their environmental records were presented in Jiaozhou Bay sediments. Profiles of different forms of phosphorus were measured as well as the roles and vertical distributions of phosphorus forms in response to sedimentary environment changes were investigated. The results showed that inorganic phosphorus (IP) was the major fraction of total phosphorus (TP); phosphorus which is bound to calcium, iron and occluded phosphorus, as well as the exchangeable phosphorus were the main forms of IP, especially calcium-phosphorus, including detrital carbonate-bound phosphorus (Det-P) and authigenic apatite-bound phosphorus (ACa-P), are the uppermost constituent of IP in Jiaozhou Bay sediments. Moreover, the lead-210 chronology technology was employed to estimate how much phosphorus was buried ultimately in sediments. And the research showed that the impacts of human activities have increased remarkably in recent years especially between the 1980s and 2000. According to research, the development of Jiaozhou Bay environment in the past hundred years can be divided into three stages: (1) before the 1980s characterized by the relatively low sedimentation rate, weak land-derived phosphorus inputs and low anthropogenic impacts; (2) from the 1980s to around 2000, accelerating in the 1990s, during which high sedimentation rates, high phosphorus abundance and burial fluxes due to the severe human activities impacted on the whole environmental system; (3) after 2000, the period of the improvement of environment, the whole system has been improved including the decreasing sedimentation rates, concentration and the burial fluxes of phosphorus. 相似文献
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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. 相似文献