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胶州湾沉积物中氮与磷的来源及其生物地球化学特征 总被引:25,自引:9,他引:25
通过对比分析和相关分析对沉积物中氮、磷含量、OC∶TN、TN∶TP进行了研究,探讨了胶州湾沉积物中氮、磷的来源及其生物地球化学特征.研究表明,胶州湾表层沉积物中总氮、总磷的变化趋势一致,即从湾内到湾外含量依次降低,其中总氮依次为0.41、0.25、0.20mg/g,总磷的含量依次为0.29、0.24、0.22mg/g.在整个柱状样中总氮、总磷平均含量的变化也和表层基本一致,有机氮在大部分层次占总氮的50%-70%,无机磷所占总磷的比例一般大于60%.根据沉积物OC∶TN比、氮、磷的垂直分布可以判断湾内和湾口沉积物中的氮主要是陆源的,海洋自生的氮分别占28.9%和13.1%,湾外的氮主要是自生的,海洋自生的氮占62.1%.与氮相比,磷主要是陆源的,但在湾外海洋自生磷的比例明显高于湾内.悬浮颗粒物的组成也证明了湾内沉积物中氮、磷主要是陆源的.沉积物中OC∶TN值的垂直变化也反映了近年来胶州湾物质来源的变化特征,即河流来沙急剧减少,沿岸倾倒垃圾不断增多,后者已经取代前者成为胶州湾主要的沉积物来源.另外,沉积物中TN和TN∶TP的垂直变化也和近年来胶州湾水体中营养盐含量的变化相一致.胶州湾不同地区氮、磷的沉积通量相差很大,湾口的沉积通量最大,而湾外的沉积通量最小;在表层沉积物中,氮的矿化速率高于磷,有机磷的矿化速率大于无机磷,但有机氮的矿化速率并不一定大于无机氮.OC、pH、Eh、Es等环境因素影响氮、磷的矿化,但在不同海区影响程度并不相同. 相似文献
86.
为了探讨广东雷州珍稀海洋生物国家级自然保护区海域水体和沉积物中石油类的含量及其分布特征,文章于2017年和2018年分别对保护区海域的石油类进行了调查。结果表明,保护区表层水体石油类含量为0.003~0.066mg/L,平均含量为0.015mg/L,平均污染指数为0.30,保护区水体中的石油类基本符合一类海水水质标准。保护区表层沉积物中石油类含量为3.0~54.8mg/kg,平均值为11.109mg/kg,符合海洋沉积物第一类质量标准。保护区水体和沉积物中石油类含量的变化规律基本相似,但是沉积物中石油类含量的变化更大。根据调查数据分析,保护区水体中石油类的主要来源是保护区社区小型渔船航行排放的石油类,以及保护区周边渔船在航行过程排放的石油类扩散到保护区海域。 相似文献
87.
潮河口邻近海域氨基脲污染现状调查研究 总被引:9,自引:1,他引:8
采用超高效液相色谱-串联质谱法,对山东东营潮河入海口邻近海域海水、沉积物及贝类体内氨基脲污染状况进行了调查研究。结果表明,潮河入海口邻近海域海水中氨基脲的浓度为0.18—70.6μg/L,沉积物中浓度为0.26—18.9μg/kg,生物体内含量为0.82—6.46μg/kg,与作者调查的其它海域相比,污染最为严重。氨基脲在潮河口邻近海域海水、沉积物和生物体内浓度都沿潮河向下呈放射性递减分布,说明潮河是污染的主要来源。本研究同时对不同品种生物体对氨基脲富集差异进行了比较,发现不同品种生物体对氨基脲的富集能力不尽相同。 相似文献
88.
Wave overtopping nearshore coastal structures, such as shore-parallel breakwaters, can significantly alter the current circulation and sediment transport patterns around the structures, which in turn affects the formation of tombolos and salients in the nearshore area. This paper describes the implementation of a wave overtopping module into an existing depth-averaged coastal morphological mode: COAST2D and model applications to investigate the effect of wave overtopping on the hydrodynamics and morphodynamics around a group of shore-parallel breakwaters. The hydrodynamic aspects of the model were validated against a series of laboratory conditions. The model was then applied to a study site at Sea Palling, Norfolk, UK, where 9 shore-parallel segmented breakwaters including 4 surface-piercing and 5 low-crested breakwaters are present, for the storm conditions in Nov 2006. The model results were compared with laboratory data and field measurements, showing a good agreement on both hydrodynamics and morphological changes. Further analysis of wave overtopping effect on the nearshore hydrodynamics and morphodynamics reveals that wave overtopping has significant impacts on the nearshore circulation, sediment transport and the resulting morphological changes within such a complex breakwater scheme under the storm and macro-tide conditions. The results indicate the importance of including the wave overtopping in modelling nearshore morphodynamics with the presence of coastal structures. 相似文献
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Methylmercury production in sediments of Chesapeake Bay and the mid-Atlantic continental margin 总被引:3,自引:0,他引:3
Methylmercury (MeHg) concentration and production rates were studied in bottom sediments along the mainstem of Chesapeake Bay and on the adjoining continental shelf and slope. Our objectives were to 1) observe spatial and temporal changes in total mercury (HgT) and MeHg concentrations in the mid-Atlantic coastal region, 2) investigate biogeochemical factors that affect MeHg production, and 3) examine the potential of these sediments as sources of MeHg to coastal and open waters. Estuarine, shelf and slope sediments contained on average 0.5 to 1.5% Hg as MeHg (% MeHg), which increased significantly with salinity across our study site, with weak seasonal trends. Methylation rate constants (kmeth), estimated using enriched stable mercury isotope spikes to intact cores, showed a similar, but weaker, salinity trend, but strong seasonality, and was highly correlated with % MeHg. Together, these patterns suggest that some fraction of MeHg is preserved thru seasons, as found by others [Orihel, D.M., Paterson, M.J., Blanchfield, P.J., Bodaly, R.A., Gilmour, C.C., Hintelmann, H., 2008. Temporal changes in the distribution, methylation, and bioaccumulation of newly deposited mercury in an aquatic ecosystem. Environmental Pollution 154, 77] Similar to other ecosystems, methylation was most favored in sediment depth horizons where sulfate was available, but sulfide concentrations were low (between 0.1 and 10 μM). MeHg production was maximal at the sediment surface in the organic sediments of the upper and mid Bay where oxygen penetration was small, but was found at increasingly deeper depths, and across a wider vertical range, as salinity increased, where oxygen penetration was deeper. Vertical trends in MeHg production mirrored the deeper, vertically expanded redox boundary layers in these offshore sediments. The organic content of the sediments had a strong impact on the sediment:water partitioning of Hg, and therefore, on methylation rates. However, the HgT distribution coefficient (KD) normalized to organic matter varied by more than an order of magnitude across the study area, suggesting an important role of organic matter quality in Hg sequestration. We hypothesize that the lower sulfur content organic matter of shelf and slope sediments has a lower binding capacity for Hg resulting in higher MeHg production, relative to sediments in the estuary. Substantially higher MeHg concentrations in pore water relative to the water column indicate all sites are sources of MeHg to the water column throughout the seasons studied. Calculated diffusional fluxes for MeHg averaged 1 pmol m− 2 day− 1. It is likely that the total MeHg flux in sediments of the lower Bay and continental margin are significantly higher than their estimated diffusive fluxes due to enhanced MeHg mobilization by biological and/or physical processes. Our flux estimates across the full salinity gradient of Chesapeake Bay and its adjacent slope and shelf strongly suggest that the flux from coastal sediments is of the same order as other sources and contributes substantially to the coastal MeHg budget. 相似文献