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长江口海域悬浮颗粒有机物的稳定氮同位素分布及其生物地球化学意义 总被引:4,自引:0,他引:4
对2006年2,5,8,11月份长江口海域表层水体中的悬浮颗粒物(SPM)进行稳定氮同位素分析,根据不同季节、不同区域内其1δ5N值的变化研究水体中氮的迁移、转化等生物地球化学过程,揭示其环境行为,从而对该海域的氮循环机制进行探索。研究发现:该海域悬浮颗粒有机物的稳定氮同位素组成(1δ5Np)分布范围较宽,在0.6‰~8.2‰之间,具有明显的时空分布特点,反映了不同程度的陆源输入和氮的生物地球化学过程的影响。口门内,表层水体中1δ5Np的变化主要受长江径流的陆源输入影响,生物地球化学作用影响较弱;最大浑浊带,水体中的悬浮颗粒有机氮受微生物的降解活动影响明显,各季节均存在不同程度的颗粒物分解作用;外海区,陆源输入减弱,悬浮颗粒物的δ15Np值主要受微藻的同化吸收作用以及一定程度的颗粒物分解作用影响。 相似文献
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提要以长江口海域2005年4个季度的现场调查为基础,测定了不同季节表层水体中悬浮颗粒有机物的δ15N值(δ15Np),初步分析了δ15Np的时空分布特点以及表层水体中δ15Np指示水体富营养化的可行性。结果显示,长江口海域表层水体中平均δ15Np偏低,δ15Np离散程度较大,农业化肥、大气沉降对该海域氮来源贡献较大,陆源氮输入变化及氮分馏作用程度较大。δ15Np的空间分布具有季节性差异,陆源氮输入变化及氮分馏作用导致的长江口近岸海域δ15Np的季节变化是其主要原因。5月份δ15Np与DIN具有显著正相关性,一定程度上δ15Np可以指示海域氮富营养化程度。 相似文献
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基于水动力ROMS与BOX耦合模型的长江口及邻近水域水通量及水体交换特性 总被引:1,自引:0,他引:1
本研究将水动力模型ROMS(regional oceanic modeling system,区域海洋模式系统)与箱式(box)模型结合,详细阐述了长江口及邻近水域四个季节的水通量特征及水体交换特性。研究发现:总的水通量整体受季风控制,季风的作用在于使水体在南北方向上交替输送,而台湾暖流对春夏季底层水南向输运具有重要作用;直接进入123.5°E以东外海区域的水通量很小,而是先从南边界流出研究区域,然后通过海洋环流系统进入外海。在强烈季风下,水体更新依赖于季风方向的水平通量,主要是同层水体而不是表底层水体之间的交换。虽然水体更新时间较长的区域与缺氧区基本一致,但本研究认为该区域底层水体缺氧的本质原因是跃层阻隔了表底层水体之间的交换。 相似文献
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Effects of modified clay flocculation on major nutrients and diatom aggregation during Skeletonema costatum blooms in the laboratory 总被引:1,自引:0,他引:1
Harmful algal blooms(HABs) can elicit several negative effects on aquatic environment(such as depleting the oxygen, blocking the sunlight, destroying the habitats of organisms) and life health(including poisoning/killing marine mammals, birds and human). Among the various control strategies for HABs(physical manipulation needs lots of manpower and expensive equipment, chemicals treatment has some toxic byproduct and high residual, microbial agents only has limited in laboratory research), the coagulation-flocculation of HAB species by modified clay(MC) has been proven to be an effective, lowcost and environmentally friendly method that has been widely applied in the field, particularly in eastern Asia. In order to examine the long-term effects of MC treatment, this study investigated the alternations in seawater of Skeletonema costatum, a high biomass dominant HAB species along the Chinese coast, by comparing the degradation of S. costatum detritus(A1) with the application of MC treatment(A2) and MC treatment in sediment condition(A3). The low dosage of 0.25 g/L MC could efficiently remove 4×108 cells/L of S. costatum cells within 3.5 h(approximately 97% removal). In addition, the results showed that both inorganic and organic nutrients were effectively reduced from seawater by MC particles. Compared to the total nitrogen(TN) and total phosphorus(TP) concentrations in A1 seawater, 44% of TN and 93% of TP in A2 seawater, as well as 72% of TN and 93% of TP in A3 seawater were removed during the onemonth incubation period. Simultaneously, 64% of DISi in A2 and 44% of DISi in A3 significantly decreased( P 0.001). This study demonstrated that MC treatment was able to significantly increase the downward flux of nutrients and delay the release velocity of inorganic nutrient from MC-algae matrix into the overlying seawater, particularly within sediment environment. 相似文献
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Blooms of some pico/nanophytoplankton have occurred frequently along the Qinhuangdao coast since 2009, and it is necessary to identify the critical environmental factors inducing them. In this study, variations in the physical and nutrient characteristics of the seawater were analyzed following the development of local blooms in 2013. The local environmental characteristics were also compared with those of the Changjiang River estuary, China, and the Long Island estuaries in the USA, which are also prone to blooms of special algal species. In Qinhuangdao the local water temperature varied seasonally and rose above 15°C in 2013 early summer, coincident with the water discoloration. The salinity was more than 28 with a variation range of 3 throughout the year. Our results suggest that the physical conditions of the Qinhuangdao coastal area were suitable for the explosive proliferation of certain pico/nanophytoplankton, e.g. Aureococcus anophageff erens. The water supporting the bloom was not in a condition of serious eutrophication, but there were relatively high concentrations of reduced nitrogen(especially ammonium), which acted as an important nitrogen source for the pico/nanophytoplankton bloom. There was also a large gap between total nitrogen(TN) and dissolved inorganic nitrogen(DIN). Although the phosphate concentration was relatively low, there was no evidence of phosphorus limitation to the growth of pico/nanophytoplankton during bloom events. 相似文献
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粘土表面改性方法是提高改性粘土絮凝有害藻华效率的关键。本文研究了超声改性法对粘土去除藻华生物效率的影响,对比分析了粘土颗粒在改性前后的粒度分布、扫描电镜图像以及表面电位等理化特征变化,进而初步探讨了超声改性的作用机制。结果显示,超声改性处理可以有效提高本研究中所试验五种粘土去除藻华生物能力。超声改性导致粘土颗粒粒径进一步减小,且超声时间越长,颗粒粒径越小;超声处理后的粘土粒度分布集中、颗粒均匀,延长超声处理时间可以有效提高增效效果。同时发现,超声改性后粘土颗粒的表面电位负电性变弱,降低了粘土颗粒与表面负电性藻细胞之间的静电斥力,从而提高了粘土对藻华生物藻细胞的絮凝去除能力。本研究探索了提高粘土去除藻华生物效率的新方法,为进一步增强改性粘土去除能力提供了参考。 相似文献
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长江口邻近海域的氮循环过程一直是近海富营养化研究领域的热点问题, 然而目前较少有针对短周期的调查研究。本文调查了该区域氮、磷、硅等主要营养盐及多种形态的氮稳定同位素的在潮周期周日变化特征。结果显示, NO_3~-、NH_4~+、PO_4~(3-)和SiO_3~(2-)的浓度范围分别为 14.09—55.85、0.21—2.26、0.82—1.08 和 16.80—33.85μmol/L, 而δ~(15)N-NO_3~-、δ~(18)O-NO_3~-、δ~(15)N_P和δ~(13)C_P 等的分布范围分别为 4.7‰—11.1‰、-2.0‰—7.8‰、-1.2‰—7.9‰和-22.9‰— -14.7‰。NO_3~-、PO_4~(3-)和SiO_2~(3-)均与盐度呈现明显的负相关特征, 说明三者的主要来源为长江冲淡水; 4NH(10)则随盐度升高而浓度增加, 且在底层高浓度出现时刻与高盐水团输入时刻一致, 说明外海输入是该区域铵盐的主要来源。另一方面, 氮稳定同位素(δ~(15)N-NO_2~-和δ~(15)N_P)未表现出随盐度的变化规律, 而δ~(18)3O-NO_3~-和δ~(13)C_P 则随盐度升高而增加, 说明淡水输入的同位素值低于海洋水平。通过对比中、高浓度叶绿素水体中NO_3~-、δ~(15)N-NO_3~-、δ~(18)O-NO_3~-的变化特征可以看出, 随NO_3~-浓度降低, δ~(15)N-NO_3~-值升高, 且呈现 6.2‰的分馏系数, 且氧同位素也随之增大, 指示水体中浮游植物对硝酸盐的同化吸收作用。而另一方面, 两种同位素的增加差值表现出△δ~(18)O︰△δ~(15)N1 , 说明硝酸盐在被消耗的同时还发生着补充作用。在较高盐度的水体中, 发现4NH(10)呈现出向硝酸盐的转化趋势并引起δ~(15)N-NO_3~-降低, 指示了底部明显的硝化过程, 与此前的研究结果一致。本文结果以期丰富对河口区氮循环和迁移转化的认知。 相似文献
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