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The Jiaozhou Bay is a semi-enclosed bay, Qingdao, China. More than 10 rivers enter the bay, of which most take wastes from industrial and household discharges. According to historical seasonal investigations in May, August, November 1979, the content, distribution, and development of heavy metal mercury are analyzed as a historical reference. Water samples were taken from the surface and bottom. The results revealed clear seasonal and regional changes in both horizontal and vertical directions, and close relation with major discharging rivers and plankton production. The seawater was polluted more seriously in spring than in any other seasons. However, it was the cleanest in winter during which least waste was input with low plankton production. According to historical data, the state of mercury pollution in seawater was worsening in the period, and has been improving in recent years. Terrestrial contamination was the main reason for mercury pollution in the bay. 相似文献
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Desertification has been notably expanding in China in the recent decade, especially in North China where dust/sand storm (DSS) frequently assaulted local communities. Analyses in marine ecology found that the earth ecosystem could be able to complement nutrient silicon for keeping sustain- able development of marine ecosystem, and decreasing CO2 concentration in the atmosphere; as a result, the area of desertification would be enlarged. Modern human being activities have resulted in constant changes in the amount of silicon transport from land into sea, leading to oversupply of nitrogen and phosphorus but silicon in seawater. The proportion of nitrogen, phosphorus and silicon was seriously im- balanced and the limitation of silicon for phytoplankton growth has become more serious. The silicon de- ficiency has damaged the marine ecosystem in coastal regions and slowed down the carbon sedimentation in the atmosphere of the world. The authors believe that the continual discharge of CO2 into the atmos- phere is the cause for the global warming including marine water temperature rise. Consequently, the earth ecosystem would have to trigger its complementary action to resume to the silicon balance by algae bloom in seawater for reducing air and water temperatures. In order to complement nutrient silicon into the sea, the ecosystem would transport silicon via the atmosphere; therefore, the desertification in the in- ner land is a natural reaction. As marine phytoplankton booming can reduce the CO2 concentration in the atmosphere and further ease the green-house effect, during this process, a large amount of silicon are de- manded by the ecosystem, which human being are unable to stop desertification from happening but slow down the progress and ease the risk. Therefore, as an important role in earth ecosystem, people should reduce the CO2 discharge into the atmosphere first; then, the normal function of river transporting silicon must be restored. In this way, the CO2 in the atmosphere can be kept in balance, the global warming slowed down, marine ecosystem development sustained, the drought in inner land eased, and the desert gradually under-controlled. 相似文献
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INTRODUCTIONTheproductionofphytoplanktonisthefirsttacheintheproductionbymarineorganismsandinthemarinefoodchain .Knowledgeofprimaryproductioninmarinewatersisprerequisiteforexploitationandmanagementoftheocean’slivingresources.Theprimaryproductioninmarin… 相似文献
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桑沟湾水体中有机磷农药残留组成与分布 总被引:2,自引:1,他引:1
采用气相色谱-质谱法定量测定桑沟湾海域水体中有机磷农药残留,分析了其组成与分布特征。2009年4月(春季)和10月(秋季)桑沟湾海域水体中8种有机磷农药的含量测定结果表明:桑沟湾有机磷农药的总浓度水平是春季小于秋季,有机磷农药的总浓度范围为0.001~0.265μg/L,均值为0.061μg/L。该海域水体中共检出6种有机磷农药,马拉硫磷和对硫磷是桑沟湾水体中主要的有机磷农药污染物。有机磷农药分布特征大致呈现春季表层水体中近岸高,离岸低,由湾口向湾内递减,底层水体中在湾口处浓度最高;秋季表层水体中由西北岸、东北湾口向湾中央渐增,底层水体中呈现由湾内向湾口递增的趋势。本研究提供的数据可为了解该海域的有机磷农药污染分布情况提供参考。 相似文献
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材料表面性质对微生物附着行为的影响 总被引:1,自引:0,他引:1
利用荧光显微镜计数法,研究了微生物在4种不同材料表面的初始附着行为,对微生物附着进行了定量描述,初步获得以下结果:(1)不同材料表面,细菌的附着量呈现如下差异:316L不锈钢>PVC>玻璃,在有机硅材料(道康宁T2)表面的附着变动性很大;(2)同种材料表面,不同细菌的附着量也不同,表现为:Shewanella oneidensis MR-1菌株和Pseudomonas aeruginosa PAO1菌株均大于Escherichia coli JM 109菌株.并由此对其附着差异和影响因素进行了讨论. 相似文献
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胶州湾水域有机农药六六六春、夏季的含量及分布 总被引:2,自引:2,他引:0
根据1981年的胶州湾水域调查资料,分析了有机农药六六六(HCH)在胶州湾水域的分布、迁移和季节变化.结果表明,胶州湾水域在夏季HCH的污染较重,而春季较轻.在时间分布上,在整个胶州湾夏季的表层和底层水体中的HCH含量几乎都高于春季.在空间分布上,胶州湾的东北部水域海泊河、李村河和娄山河的入海口,为湾的东北部近岸水域提供了河流输送的HCH.因此认为,污染源是面污染源,由入湾河流形成的.通过HCH的陆地迁移过程和水域迁移过程的分析发现,HCH的表层含量高,经沉降,HCH的底层含量就高,而且,HCH入海后沉降较快.根据HCH的表、底层的垂直分布和水平分布,提出了在春、夏季的HCH在胶州湾水域迁移过程的模型框图,表明了HCH的运动轨迹,清楚的展现了HCH在春、夏季的表、底层分布规律. 相似文献