951 resultados para Amur River estuary
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潮滩湿地处于海陆相互作用地带,是响应全球变化和人类活动较为敏感的生态系统 之一。潮滩湿地是海岸带一个非常重要的生态类型,作为陆地和海洋过渡区的重要组成 部分,承接来自陆地人类活动带来的大量含氮物质。潮滩湿地氮的生物循环特征不但影 响湿地系统自身的调节机制,而且其在环境介质中的特殊动力学过程也与一系列全球环 境问题息息相关。为了更深入的理解潮滩湿地氮的生物循环特征及其关键机制,论文以 黄河口滨岸潮滩翅碱蓬湿地为研究对象,通过野外样品采集、原位实验、微区试验,研 究了湿地土壤氮的时空分布与化学转化特征,探讨了湿地植物生物量与氮累积季节变化 特征以及湿地植物残体分解及分解过程氮动态特征,建立了湿地植物-土壤系统氮循环 分室模式,主要结论如下:(1)潮滩湿地土壤氮含量具有明显的水平变异和空间结构, TN、NO3 --N 和C/N 具有明显空间分布格局,其空间变异性均以向低潮滩延伸且受潮汐 涨落影响较大的方向最大;微地貌特征和潮汐微域物理扰动是导致空间异质性的两个重 要随机因素,水盐条件、土壤类型和潮汐物理扰动是三个重要结构因素;(2)潮滩湿地 土壤氮含量在不同时期的垂直分布均存在较高变异性,主要与有机质分布、潮汐影响、 水分条件以及陆源影响程度有关;潮滩湿地土壤的氮含量具有明显季节变化特征,主要 与水分状况及受潮汐影响的程度有关;(3)潮滩湿地土壤氮的净矿化/硝化速率均呈波动 变化,并受生物固持、反硝化、温度、水分、C/N 和pH 等因素影响;潮滩湿地0~15cm 土壤的净矿化量和净硝化量分别介于0.33~27.81kg·hm-2 和1.19~15.99kg·hm-2,高潮滩湿 地维持无机氮的能力明显强于中潮滩和低潮滩湿地;(4)两种表现型翅碱蓬的生物量 均具有明显季节变化和空间结构分形特征,二者的地上生物量具有自相似性,分别遵从 D=2.012 和2.366 的分形生长过程;(5)沉积强度显著影响翅碱蓬种子的出苗和幼苗存 活,适度沉积可刺激幼苗生长,重度沉积对幼苗生长则具有抑制作用;沉积可促使幼苗 被埋部分发育为根系,反映了其对潮滩较强沉积环境的特殊适应对策;(6)两种表现 型翅碱蓬根、茎和枯落物的TN 含量均呈递减变化,符合指数衰减模型,叶是二者重要 氮储库,分配比高达46.91±16.97%和55.21±9.79%;中潮滩植被的N/P 为9.87±3.47<14, 其生长受N 限制,低潮滩植被的N/P 为15.73±5.00<16,其生长同时受N、P 限制,但 更受P 限制;(7)潮滩湿地植物残体在水盐含量较高或沉积较强条件下的失重率和分解 速率一般较高,反之则较低;温度、水分、盐分和pH 是影响残体相对分解速率的重要 摘 要 II 因素;(8)当分解环境的养分状况不发生较大改变时,残体相对分解速率在很大程度上 取决于基质质量,当养分状况因潮汐养分交换、潮汐物理扰动、沉积物矿化等发生较大 改变时,残体相对分解速率在很大程度上取决于分解环境养分供给状况;(9)潮滩湿地 植物残体在不同水盐梯度和沉积强度下的氮含量、C/N 的变化模式整体较为一致,水盐 条件和沉积强度对残体氮绝对量的变化具有重要影响,C/N 对分解过程中氮养分的调控 作用更为重要;(
Spring Diatom Blooming Phases in a Representative Eutrophic Bay of the Three-Gorges Reservoir, China
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We investigated dynamics of the phytoplankton community and abiotic factors in Xiangxi Bay of the Three-Gorge Reservoir, China, by daily sampling, a specific site during a spring algal bloom (February 23-April 28, 2005). Among the 76 taxa observed, Asterionella formosa and Cyclotella spp. were the dominants, accounting for 47.2% and 29.9% of the total abundance, respectively. We determined the five distinct developing phases of the bloom by analyzing the dissimilarity of physicochemical parameters. Simultaneously, six phytoplankton community groups were distinguished by TWINSPAN classifications. The pattern for algal community succession was similar to that for the bloom phase shift, and the structural complexity of communities significantly decreased over time. Water temperature and silicate were the main factors that related to the development of the bloom and the shifts of the phytoplankton community.
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We used polyurethane foam units (PFUs) to collect persistent organic pollutants (POPs) from four sites in Baiyangdian Lake in July 2003. Following extraction from the PFUs, relative concentrations of seven organochlorine pesticides (OCPs) and ten polychlorinated biphenyls (PCBs) were determined by gas chromatography. OCPs and PCBs were detected in the microbial communities from all the four sampling stations. In terms of the total concentration of POPs (OCPs+ PCBs), two river estuary stations had more POP (18.45 mu g/L and 9.77 mu g/L) than the two mid-lake stations (4.75 mu g/L and 5.21 mu g/L), indicating that Baiyangdian Lake was significantly impacted by inflow from the Fu River and Baigou River.
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The authors reviewed the aquacultural history of Acipenseriformes in China, related the legal status and examined the current status of the cultured species or hybrids, origins of seedlings, quantities of production, geographic distribution in farming, and the sustainability for both restocking programmes and human consumption. The census shows that since 2000, the production of cultured sturgeons in China appears to have become the largest in the world. As of 2000, the rapid growth of sturgeon farming in China mainly for commercial purposes has shifted harvests in the Amur River from caviar production to the artificial culture of sturgeon seedlings. This dramatic development has also caused a series of extant and potential problems, including insufficient market availability and the impact of exotic sturgeons on indigenous sturgeon species. Annual preservation of sufficient higher-age sturgeons should be a national priority in order to establish a sustainable sturgeon-culture industry and to preserve a gene pool of critically endangered sturgeon species to prevent their extinction.
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Iron in seawater is an essential trace metal for phytoplankton that plays an important role in the marine carbon cycle. But most studies focused on oceanic iron fertilization in high nutrient low chlorophyll (HNLC) seawaters. A study of inorganic carbon (IC) forms and its influencing factors was presented in Liaodong Gulf sediments, and especially the influence of iron was discussed in detail. Inorganic carbon in Liaodong Gulf sediments was divided into five forms: NaCl, NH3·H2O, NaOH, NH2OH·HCl and HCl. The concentration of NaCl and NaOH forms were similar and they only occupied the minority of total inorganic carbon (TIC). However, NH3·H2O, NH2OH·HCl and HCl forms were the principal forms of TIC and accounted for more than 80% of TIC. Especially, the percentage of NH3·H2O form was much higher than that in the Changjiang River Estuary and Jiaozhou Bay sediments. All forms of inorganic carbon were influenced by organic carbon,pore water, iron, pH, redox potential(Eh) and sulfur potential(Es) in sediments, moreover, the influences had different characteristics for different IC forms. However, the redox reactions of iron affected mainly active IC forms. Iron had little effect on NH2OH·HCl and HCl forms of IC which were influenced mainly by pH. Iron had a stronger influence on NaCl, NaOH and NH3·H2O forms of IC; the influence of Fe2+ was higher than Fe3+ and its effect on NH3·H2O form was stronger than on NaCl and NaOH forms.
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Concentrations and carbon isotopic (C-14, C-13) compositions of black carbon (BC) were measured for three sediment cores collected from the Changjiang River estuary and the shelf of the East China Sea. BC concentrations ranged from 0.02 to 0.14 mg/g (dry weight), and accounted for 5% to 26% of the sedimentary total organic carbon (TOC) pool. Among the three sediment cores collected at each site, sediment from the Changjiang River estuary had relatively high BC contents compared with the sediments from the East China Sea shelf, suggesting that the Changjiang River discharge played an important role in the delivery of BC to the coastal region. Radiocarbon measurements indicate that the ages of BC are in the range of 6910 to 12250 years old B. P. (before present), that is in general, 3700 to 9000 years older than the C-14 ages of TOC in the sediments. These variable radiocarbon ages suggest that the BC preserved in the sediments was derived from the products of both biomass fire and fossil fuel combustion, as well as from ancient rock weathering. Based on an isotopic mass balance model, we calculated that fossil fuel combustion contributed most (60%. 80%) of the BC preserved in these sediments and varied with depth and locations. The deposition and burial of this "slow-cycling" BC in the sediments of the East China Sea shelf represent a significant pool of carbon sink and could greatly influence carbon cycling in the region.
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Global warming has become a notable trend especially since an abrupt climate change in 1976. Response of the East China Sea (ECS) to the global warming trend, however, is not well understood because of sparse long-term observation. In this paper, hydrographic observation data of 1957-1996 are collected and reviewed to study climatological variability in northern ECS. Significant warming trends are found in both summer and winter. In summer, the average SST is about 0.46A degrees C higher during the period of 1977-1996 than that of 1957-1976, and the Taiwan Warm Current Water (TWCW) was strengthened. In winter, despite of the cooling effect in the coastal areas adjacent to the Changjiang (Yangtze) River Estuary (CRE), the average SST increase was about 0.53A degrees C during the same period. The causes of this SST warming up in summer are different from in winter. The warming trend and intensification of the TWCW in summer were primarily influenced by the strengthening of the Kuroshio transport, while the warming in winter was mainly induced by the variability of the climate system.
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近年来,东中国海赤潮灾情严重,且74.7%的赤潮集中在 30°30′~32°00′N、122°15′~123°10′E的“赤潮高发区”。在研究该区赤潮成因时,长江口沿岸上升流的影响越来越受到人们的关注,并被一些专家观测和研究。但目前为止,针对该区营养盐动力学特征及其对叶绿素a影响的研究较少,且不系统。 本文根据2004年四个季度月的调查资料,系统地探讨了长江口上升流区营养盐动力学特征;估算了上升流的营养盐通量,并和陆源输入通量进行了比较。初步探讨了上升流对该区营养盐结构和浮游植物生长的影响。为深入研究长江口富营养化和赤潮形成机制提供了参考。 结果表明春季在122°20′~123°00′E,31°00′~32°00′N以北海域存在低温、高盐、低溶解氧的沿岸上升流。它不但可把底层高含量磷酸盐输送到10m层以上海区,而且还为上层海区输入了相对低含量硝酸盐和硅酸盐,从而改善了上层营养盐结构,使得营养盐比值接近Redfield Ratios,同时还改善了上层的透明度;从而有利于浮游植物的繁殖。夏季上升流受到强大的长江冲淡水压制,表现不如春季明显,主体水团出现在122°20′~123°00′E,31°15′~31°50′N海区10m层以下。 在秋、冬季,上升流现象被更强的对流现象所掩盖,表现为台湾暖流表层水的入侵。表、底层水域不仅温、盐度分布十分接近,而且营养盐结构差异也较小。冬季台湾暖流水中的磷酸盐含量远比秋季高,与春、夏季上升流水团中磷酸盐含量接近。硝酸盐和硅酸盐含量比秋季稍高,比春、夏季上升流水团中的含量稍低。 叶绿素a季节性分布表明,在春、夏季的10m层以下水域,叶绿素a受到透明度限制,含量相差不大;而在表层和10m层之间,春季叶绿素a的含量远高于夏季,说明春季的营养盐结构和自然条件更有利于浮游植物的繁荣生长。在秋季台湾暖流水影响的区域,表层叶绿素a含量较夏季稍低。而冬季该区叶绿素a含量则是最低的。 对长江口上升流水团春季营养盐通量的计算结果表明,上升流水团中磷酸盐输送通量远远高于长江径流输入,是其径流通量的两倍以上,可能会成为影响该海区磷酸盐分布以及浮游植物生长的一个值得关注的因素。 关键词:上升流,营养盐动力学,营养盐结构,叶绿素a,长江冲淡水
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南海是我国海洋灾害地质条件最为复杂、潜在地质灾害危险性最大的海区。南海北部尤其是珠江口地区的地理位置尤为重要,是我国经济开发的门户地区。本文使用GeoSwath Plus多波束系统对南海北部珠江口外海面进行了水深测量,通过系统配套软件对多波束数据的精细处理,得出高密度的水深数据以及旁扫声纳数据,经过对数据以及相关成图图件的分析,利用对灾害地貌的加权统计模型对该地区的地质灾害进行定量评定。目前国内使用的多波束型号较多,根据其频率的不同可分为浅水、中水、深水多波束系统。根据波束形成原理(数控法和相干法)的不同可分为传统多波束和具有相干特点的多波束系统,这两种多波束系统由于其原理的差异,在各种性能表现上都存在不同之处,本文从原理及其各种不同的性能表现上对该多波束系统与传统多波束系统进行了详细对比论证。 在对调查区区域地质、第四纪地质充分调研的基础上,通过对调查区地形的概况和相关影响因素的论述(诸如水动力条件、构造特征等),结合水深图、地形图和多条地形剖面的分析,得出该海域在工程施工方面海底地形上的影响因素。 通过对本区所发现的地貌类型,结合海洋地质灾害类型分析,通过对相关地质灾害类型的统计说明,得出该地区地质灾害的影响因素及其潜在危害程度。通过提取南海北部的灾害地质因素和对调查区灾害地质环境的充分研究,以灾害地质因素为评价因子,采用加权统计模型对研究区的海底稳定性进行分区定量评价。利用评价结果,确定了调查区基于地貌类型区划的海底稳定性级别。
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本文主要利用ECOMSED模式对长江口及邻近海域的水文、泥沙过程进行三维数值模拟,并结合实测资料分析其水动力、泥沙输运、底床冲淤等特征;然后利用欧拉二相流模型模拟小尺度条件下长江口底床上圆桩周围的水流和泥沙冲刷、输运规律。 通过资料分析和ECOMSED数值模拟结果比较,我们得出:长江口口门内为非正规半日潮流区,潮流运动形式多为往复流,落潮流占优。落潮流速大于涨潮流速,流速垂向分布从表层到底层递减。悬沙浓度与流速关系密切,一般来说,流速越大,悬沙浓度越高;一个潮周期过程中会出现两次、三次或四次泥沙再悬浮,分别是涨急、落急、涨转落、落转涨时刻;盐水楔结构对粘性与非粘性悬沙浓度的分布起决定性作用,转流时泥沙再悬浮主要是由于这时会出现盐水楔,并形成垂向环流,使床面大量未被固结的泥沙再悬浮,形成峰值。悬浮泥沙垂向分布可分为垂线型,斜线型,抛物线型和L型。流场和底床冲淤变化与水深关系密切:深水区,流速较大,底床冲淤变化也较大。其中,受径流影响区表现为淤积,受潮流影响区表现为冲刷;浅水区基本表现为淤积。 从模式运行结果和实测资料比较可以看出,该模型可以较好的模拟长江口水流、悬浮泥沙分布与变化;能够再现在径流入海口处,盐水楔结构及其诱生的垂向环流从形成到发展,又到消失的完整过程;也能够展示底床的冲淤变化。对于我们模拟长江口背景流场,了解该区域内水动力变化、悬浮泥沙输运、底床冲淤等有重要意义。 在欧拉二相流模型对长江口底床上圆桩周围的水流和局部冲刷数值模拟过程中,我们不仅考虑水流和泥沙之间的作用,还引入泥沙颗粒之间的相互影响。模拟结果较合理的展示了圆桩周围的流场类型和底床冲刷变化:在圆桩前方,流速减小并形成垂向涡旋,从而产生局部冲刷;在圆桩两侧,水流加速,挟带上游泥沙向下输送,并在内侧堆积;而在圆桩后面,存在流速分离区。在该分离区内流速很小,并且当流速较大时,会产生回流,形成两个对称的漩涡。流速越大,圆桩前由垂向涡旋引起的局部冲刷就越明显;而当底床泥沙粒径变小时,泥沙临界起动流速变小,底床也更容易被冲刷。悬浮泥沙浓度分布受流场的影响,并且当粒径小而流速大时,能悬浮到更高的深度。
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中国沿岸海域是上升流的多发区. 渤、黄海域,东海陆架区,台湾海峡,以及南海沿岸都存在众多的上升流区. 上升流有利于穿越陆架的物质输运,可以把下层海水中的营养物质带至真光层,促进浮游植物生长,为赤潮爆发提供有利条件. 长江口外和浙江沿岸上升流区连续几年爆发大规模赤潮,该海域已成为我国近海赤潮严重的区域之一. 同时上升流也是该海域海洋渔场形成的重要动力因子. 因此,对长江口外及浙江沿岸上升流的研究具有重要的意义. 本文基于Blumberg等(1996)的ECOMSED模式,对长江口外海区域夏季的上升流现象进行了数值模拟研究. 为了提高对长江口外海区域上升流模拟的准确性和可靠性,模式综合考虑了径流,风应力,环流,热通量和M2,S2,K1,O1四个主要分潮的作用. 本文首先进行控制实验,综合考虑各种动力因子,模拟长江口外南部冷水区的上升流现象,再单独考虑各个动力因子做数值实验,并对各种数值实验结果进行分析对比来研究产生该区域上升流现象的主要原因. 我们设计了3个数值实验:不考虑风应力和热通量、不考虑环流、仅考虑温盐和潮因子. 方便起见,将综合考虑各种动力因子的数值模拟称作控制实验. 各种实验结果的分析表明,长江口外水下河谷的南边(杭州湾口门中心东侧),上升流主要是由向北流动的台湾暖流通过底Ekman效应和陆坡的抬升共同作用产生的. 夏季偏南风对长江口外水下河谷西侧上升流的产生有一定影响,但作用不大. 此外,潮汐潮流对上升流的产生也起着一定的作用,但在本文关注的上升流区潮作用影响不大.
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During late spring and early summer of 2005, large-scale (> 15 000 km(2)), mixed dinoflagellate blooms developed along the the coast of the East China Sea. Karenia mikimotoi was the dominant harmful algal bloom species in the first stage of the bloom (late May) and was succeeded by Prorocentrum donghaiense approximately 2 wk later. Samples were collected from different stations along both north-south and west-east transects, from the Changjiang River estuary to the south Zhejiang coast, during 3 cruises of the Chinese Ecology and Oceanography of Harmful Algal Blooms Program, before and during the bloom progression. Nitrogen isotope tracer techniques were used to measure rates of NO3-, NH4+, urea, and glycine uptake during the blooms. High inorganic nitrogen (N), but low phosphorus (P) loading from the Changjiang River led to high dissolved inorganic N:dissolved inorganic P ratios in the sampling area and indicate the development of P limitation. The rates of N-15-uptake experiments enriched with PO43- were enhanced compared to unamended samples, suggesting P limitation of the N-uptake rates. The bloom progression was related to the change in availability of both organic and inorganic N and P. Reduced N forms, especially NH4+, were preferentially taken up during the blooms, but different bloom species had different rates of uptake of organic N substrates. K mikimotoi had higher rates of urea uptake, while P. donghaiense had higher rates of glycine uptake. Changes in the availability of reduced N and the ratios of N:P in inorganic and organic forms were suggested to be important in the bloom succession. Nutrient ratios and specific uptake rates of urea were similar when compared to analogous blooms on the West Florida Shelf.
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To investigate the effects of enhanced nutrient loading in estuarine waters on phytoplankton growth and microzooplankton grazing, we conducted monthly dilution experiments at 2 stations in Hong Kong coastal waters with contrasting trophic conditions. The western estuarine station (WE) near the Pearl River estuary is strongly influenced by freshwater discharge, while the eastern oceanic station (EO) is mostly affected by the South China Sea. Growth rates of phytoplankton were often limited by nutrients at EO, while nutrient limitation of phytoplankton growth seldom Occurred at WE due to the high level of nutrients delivered by the Pearl River, especially in the summer rainy season. Higher chlorophyll a, microzooplankton biomass, phytoplankton growth and microzooplankton grazing rates were found at WE than at EO. However, the increase in chlorophyll greatly exceeded the increase in phytoplankton growth rate, reflecting different response relationships to nutrient availability. Strong seasonality was observed at both stations, with temperature being an important factor affecting both phytoplankton growth and microzooplankton grazing rates. Picophytoplankton, especially Synechococcus, also exhibited great seasonality at EO, with summer abundances being 2 or 3 orders of magnitude higher than those during winter, Our results confirm that in eutrophic coastal environments, microzooplankton grazing is a dominant loss pathway for phytoplankton, accounting for the utilization of >50%, of primary production on average.
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The Bohai Sea costal area is one of the most developed zones of China and the sewage water from populous and developed cities, including Beijing, Tianjin. Qinhuangdao and Dalian is discharged into the Bohai Sea. Additionally, its semi-enclosed characteristic restricts water exchange, which leads to high accumulation of pollutants in the environment. This overview presents the residues of 6 classes of Persistent Organic Pollutants (POPs). including PAHs, DDTs. HCHs, PCBs and PCDD/Fs. in the sediments and mollusks of the Bohai Sea through analyzing previous literatures. In the sediments. the highest PAH concentrations were detected in the vicinities of Qinhuangdao, while the northeast corner of the Bohai Bay possessed the highest levels of DDTs and PCBs. The investigations on HCHs and PCDD/Fs distributions on the whole sea scale have not been reported. In mollusks, PAH concentrations were in the same order of magnitude in the whole Bohai Sea, so were DDTs. HCHs and PCBs, while the outlier maximum values of PCDDs and PCDFs occurred in Yingkou. In general, the POPs residues in mollusks collected from Shandong Province were higher than the other areas. The compositions of DDTs, HCHs and PCBs in sediments indicated their recent usage. By comparing POP concentrations in sediments with the recommended criterions, it was shown that some individual PAH compounds occasionally associated with adverse biological effects in the vicinities of the Liaodong Bay and Qinhuangdao, and the Liaohe River Estuary were heavily contaminated with DDTs, but PCBs were all below the thresholds. In order to reveal the transference and transformation of POPs in the environment, further studies concerning with their behavior, fate and bioaccumulation in the different trophic levels should be programmed. Moreover, laws and regulations should be enforced to ban the illegal usage of POPs-containing pesticides to guarantee health of the environment and human. (C) 2008 Elsevier Ltd. All rights reserved.
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Temporal and spatial variability in the kinetic parameters of uptake of nitrate (NO3-), ammonium (NH4+), urea, and glycine was measured during dinoflagellate blooms in Changjiang River estuary and East China Sea coast, 2005. Karenia mikimotoi was the dominant species in the early stage of the blooms and was succeeded by Prorocentrum donghaiense. The uptake of nitrogen (N) was determined using N-15 tracer techniques. The results of comparison kinetic parameters with ambient nutrients confirmed that different N forms were preferentially taken up during different stages of the bloom. NO3- (V-max 0.044 h(-1); K-s 60.8 mu M-N) was an important N source before it was depleted. NH4+ (V-max 0.049 h(-1); K-s 2.15 mu M-N) was generally the preferred N. Between the 2 organic N sources, urea was more preferred when K. mikimotoi dominated the bloom (V-max 0.020 h(-1); K-s 1.35 mu M-N) and glycine, considered as a dominant amino acid, was more preferred when P. donghaiense dominated the bloom (V-max 0.025 h(-1); K-s 1.76 mu M-N). The change of N uptake preference by the bloom-forming algae was also related to the variation in ambient N concentrations. Published by Elsevier B.V.
