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1.
A study of the phytoplankton community and water column chemistry in Kaneohe Bay, Oahu, Hawaii, before and after the diversion of secondary treated sewage from the bay has shown that changes in total nutrient concentrations in the water column cannot be accurately predicted without taking into account water column-benthos interactions. During the first year after sewage diversion, the decomposition of about 400 tonnes of benthic organisms, primarily filter feeders, resulted in water column dissolved organic nitrogen and phosphorus concentrations roughly an order of magnitude higher than those expected in the absence of such interactions. The biomass of phytoplankton appears to have been N limited both before and after sewage diversion, with internal nutrient recycling accounting for 70–99% of phtyoplankton nutrient uptake. Both the biomass and growth rate of the phytoplankton declined as a result of the sewage diversion, with post-diversion growth rates evidently well below nutrient-saturated values. Since the principal stresses on the bay's coral reef community as a result of the sewage discharges appear to have resulted from the elevated concentrations of plankton in the water, various measures of seston concentration appear to be the most ecologically significant indicators of nutrient enrichment in this system. 相似文献
2.
三门湾悬移质输运特征 总被引:1,自引:0,他引:1
三门湾为一典型半封闭强潮海湾,平均潮差4.25m,湾内外水沙交换剧烈。根据2003年在三门湾水文泥沙测验、分析结果,湾口附近N1、N2、N3站所构成的断面上:(1)从大潮到小潮,流速递减;从N1站向N3站流速增加;春季,大多数情况下涨潮流速大于落潮流速。而秋季,大多数情况下涨潮流速小于落潮流速。(2)春、秋季,大小潮期间N1、N2、N3三个站上平均悬移质浓度都是涨潮大于落潮;中潮期间这三个站上平均悬移质浓度都是涨潮小于落潮。 相似文献
3.
利用Delft3D数学模型对长江口水动力条件、上海市现有及拟建排放口污水排放的稀释扩散场进行了模拟。模型利用潮汐数据和排放口附近的现场实测数据进行了率定和验证,分别对丰水期、枯水期的大、小潮情况下的流速场、潮位场及污水扩散场进行了研究。结果表明:长江口的水动力条件有利于污水的稀释扩散;现状排放量对长江口水环境影响不大;但如果污水在排放前不进行一定的处理,规划排放量排人长江口将会严重恶化其水质,特别是枯水期小潮时最为严重。建议根据长江口和杭州湾的环境容量,结合排放口的稀释扩散能力,合理确定污水排放方案。 相似文献
4.
本文基于TELEMAC-MASCARET数值模型系统, 将主要污染物作为示踪剂加入到二维水动力模型中, 采用模型试算法计算了湛江湾内湾环境容量, 并在环境容量计算和陆源污染调查的基础上, 提出了排污治理的措施。计算结果显示, 2019年湛江湾内湾排污口污染物COD (Chemical Oxygen Demand)、DIN (Dissolved Inorganic Nitrogen)、DIP(Dissolved Inorganic Phosphorus)和石油类的环境容量分别为11721t·a-1、1388t·a-1、141t·a-1和326t·a-1, 排污口点源污染物COD、DIN、DIP和石油类的剩余环境容量总量分别为10426t·a-1、213t·a-1、70t·a-1和314t·a-1。根据这一结果, 本文认为应削减南调街麻屈垉、龙头镇消坡垉出入水口、坡头区科技产业园官渡园区和湛江市城市污水处理有限公司坡头水质净化厂排污口超标水质因子的排放量, 同时提出了相应的排污治理对策: 污水处理、管网建设、新建污水处理厂、排污口调配。 相似文献
5.
粤东大规模海水增养殖区柘林湾表层沉积物中的含水量、有机质、氮和磷 总被引:3,自引:0,他引:3
柘林湾是粤东地区规模最大的海水增养殖区,近20年来水体富营养化情况日益加重,赤潮频繁发生。2002年7月至2003年7月对该湾9个站位表层沉积物中的含水量(W)、有机质(TOM)和不同形态的氮(TkN,NH4+)与磷(Ex-P,Fe-P,Au-P,De-P,OP)进行每月一次的周年调查。结果显示,表层沉积物中的含水量和有机质及不同形态的氮、磷均呈现极显著意义的正相关关系,今后可用含水量直接对这些指标进行粗略估算。有机质与氮、磷呈显著意义的正相关关系,表明有机质是影响氮、磷含量和分布的重要因素之一。凯氏氮(TkN)和总磷(TP)的总平均值分别为(1113.1±382.5)μg/g和(567.2±223.3)μg/g,显著高于国内外许多同类型的海湾。各形态氮、磷含量年均值的平面分布呈现湾内(除S1,S7站外)高于湾外、养殖区高于非养殖区、网箱渔排养殖区高于牡蛎养殖区的总体趋势,说明湾内大规模增养殖业对海湾富营养化进程起着重要的作用。各形态氮、磷含量均于盛夏至初秋的高温季节(7-9月)处于年度峰值,这与该季节养殖动物处于生长旺期与高死亡率所造成的生物碎屑增多和有机质分解加速有关。与2002年7月相比,2003年7月的TkN和TP均出现大幅升高,与水体富营养化程度不断加重的趋势相符。此外,自生磷(Au-P)年平均占TP的49.2%,是该湾沉积物中最主要的磷形态。由于水体富营养化能导致沉积物的pH降低,继而促进Au-P中的自生钙氟磷灰石和碳酸钙所结合的磷释放进入水体,因而表层沉积物中高浓度的Au-P可能成为此类海湾富营养化水平加剧和赤潮大规模暴发加剧的隐患。 相似文献
6.
INTRODUIONThe Haikou Bay is an imPOrtant hay in Hainan Pmeince. Investigatnin of water qualitywas carried out three times every y6ar to understand the vatying trend of water quality fOr tak-ing pmpr countereres. betimes we may ee comParison conclustons of poIluting degreein Water Quality Monitoring Bulletin Of HaikOu Bay. But the comParison conclusbo is notreareable because the ocean is a complicated system with the interaction of wind, current,wave, tide, biolOgy, chemistry and so … 相似文献
7.
Izmir Bay is one of the most polluted estuaries in the Mediterranean Sea. The extent of pollution due to anthropogenic inputs in the Izmir Bay is investigated on the basis of nutrients together with basic oceanographic parameters. Significant phosphate, nitrogen (N) and iron (Fe) enrichment has been found in the water of inner Izmir Bay. The situation of middle Izmir Bay is also similar but not as critical as in inner Izmir Bay, whereas outer Izmir Bay shows 'typical Mediterranean coastal marine ecosystem' characteristics. The average atomic ratios of apparent oxygen utilization (AOU) and nutrient fractions (N and phosphorous [P]) have been found as AOU:P (49:1), AOU:N (48:1) and N:P (5:1). A comparative evaluation of these ratios leads to the conclusion that they are too low; e.g. such a low AOU:P ratio supports fairly high P enrichment. Principal component analysis (PCA) indicates that 31% of the variation in the data is related to enrichment parameters, i.e. dissolved inorganic phosphate, NH4+, reactive Fe, 15% is related to NO3-, pH and 13% is related to temperature and total Fe. Additionally, PCA shows that the middle Izmir Bay has an ecological transient character between the inner and outer Izmir Bay. 相似文献
8.
Wenrui Huang 《Estuarine, Coastal and Shelf Science》2010,86(3):526-534
This paper presents an integrated hydrodynamic modeling and probability analysis approach to assess the long-term effects of changing river inflows on the estuarine ecosystem. The probability analysis method, which is popularly used in advanced hydrological frequency analysis of river flows and rainfalls, has been applied to analyze the effects of changing inflow on salinity and thus on oyster ecology in Apalachicola Bay. Long-term salinity data were predicted through the application of a calibrated 3D hydrodynamic model under two river inflow conditions over a 10-year period. The first flow represents the historic flow. The 2nd flow condition, called Scenario-1, represents a regulated flow scenario to account for the potential increasing upstream water demands. Two stations, Mid Bay and Dry Bar, in the bay were selected to examine the estuarine responses. Under the historic flow condition, the maximum probability salinity at Dry Bar in the rich oyster reef is near 24 ppt, within the optimal salinity range for oyster growth of 16–26 ppt (Harned et al., 1996); the maximum probability salinity at Mid Bay station is 27 ppt, beyond the optimal salinity for oyster growth in mid-bay area where there is no oyster reef around. While it is difficult to examine the difference between two scenarios by conventional time series analysis of river flows and salinity, probability analysis reasonably characterizes and quantifies the changes of river flow and salinity patterns over the 10-year period. The Scenario-1 has caused the increase of the probability in low flows. Higher probability of low flows for the regulated flow scenario shortens the period of optimal salinity in the oyster reef, and cause substantial increase of exceedance probability of higher salinity in the oyster reef to the level beyond the optimal salinity range for oyster growth. The probability analysis approach has demonstrated its advantage for the risk assessments of the long-term estuarine ecohydrological effects under various regulated inflow scenarios to support estuarine water resources managements. 相似文献
9.
Inna Valentinovna Stonik 《Ocean Science Journal》2009,44(1):21-26
The species composition and seasonal dynamics of the population density and biomass of the prasinophycean algae of the genus Pyramimonas were investigated in the Russian waters of the East/Japan Sea. According to literature data and the results of our observations, eight species of the prasinophycean algae were identified, and some of them were new for the Russian waters of the East/Japan Sea as follows: P. aff. amylifera Ñonrad, P. aff. cordata McFadden, Hill et Wetherbee, and P. nansenii Braarud. An analysis of their seasonal dynamics showed that the most conspicuous winter peak of the population density of Pyramimonas species in the Amurskii Bay was clearly distinguishable in February. In winter and early spring, the prasinophycean algae made a considerable contribution of 28 to 60% into the total population density on the background of a relatively low biomass, 1.1–14.4% of the total phytoplankton biomass in the Amurskii Bay. In the Golden Horn Bay, the summer peak of the population density of Pyramimonas species was most intensive in June. In summer, during the period of mass development of the algae of the genus Pyramimonas in the Golden Horn Bay, the prasinophycean algae contributed up to 71% of the total population density and up to 84% of the total microalgal biomass. An increase was noted in the density and biomass of the Pyramimonas species in the polluted waters near the sewage water outlets in the Amurskii and Golden Horn bays. 相似文献
10.
夜光藻(Noctiluca scintillans)藻华是我国近海常见的生态灾害,其暴发机制尚不明确。为探究营养条件在其形成机制中的作用,本文分析了几种常见饵料藻与同海域硅藻培养下夜光藻的种群增长,同时探究模拟海水混合与营养盐水平对其种群增长的影响。结果发现,不同饵料藻培养下,夜光藻种群增长有着显著差异,其中亚心形扁藻(Platymonas subcordiformis)组中夜光藻的平均增长率为(0.151±0.001)d?1,远高于其他饵料藻。海水混合对夜光藻种群增长有一定的促进作用,模拟海水混合时,部分实验组中夜光藻增长率显著高于静置实验组,其中微小海链藻(Thalassiosira minima)培养下的夜光藻种群增长率为(0.136±0.001)d?1,远高于除亚心形扁藻以外的其他实验组。随着营养盐水平的增加,与亚心形扁藻共培养的夜光藻种群增长出现明显的先增强后减弱的趋势,拟合结果表明,其种群增长符合Boltzmann模型,并与营养盐水平相关。结果表明,海水混合与营养盐输入引起的平潭海域微藻的快速繁殖在当地夜光藻藻华的形成机制中可能起着重要的作用。 相似文献
11.
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
12.
未来黄、东海营养盐浓度变化情景预测 总被引:1,自引:0,他引:1
本文基于FGOALS(Flexible Global Ocean-Atmosphere-Land System model)对未来气候情景的预测结果,结合千年生态评估的未来两个情景下的河流营养盐载荷特征,利用黄、东海水动力模型和生态模型并采用降尺度的方法对未来黄、东海营养盐的分布特征进行情景预测。结果表明,两个情景下未来河口邻近海区营养盐浓度将显著增加,富营养化加剧;GO(Global Orchestration)情景下,河流无机氮载荷增幅较大,夏季黄海中部无机氮浓度明显升高;AM(Adapting mosaic)情景下,由于河流无机磷载荷增幅较大,海区氮磷比有所下降,夏季黄海中部表层无机氮浓度降低,而在底层升高。通过敏感性实验并结合收支分析对各海区水动力条件未来变化、河流载荷变化的相对贡献进行了评估:相对于水温和水动力环境改变,河流营养盐排放量的增长是未来营养盐浓度增加的主要原因。营养盐收支分析表明,未来对流和混合输运的变化有助于黄海营养盐浓度的增加,夏季生物量升高造成更多碎屑沉降并在底层矿化使得层化季节冷水团底部营养盐浓度增长;长江口邻近海区营养盐浓度增长主要受冲淡水羽流的影响;净初级生产增加加剧了营养盐的消耗。 相似文献
13.
菲律宾蛤仔(Ruditapesphilippinarum)是重要的海洋经济贝类和海水养殖品种,具有较强的表型可塑性特点,不同地理群体之间存在表型差异。本研究根据实测数据建立了胶州湾与天鹅湖菲律宾蛤仔壳长(SL)与壳高(SH)、壳宽(SW)和活体重(W)的回归方程,定量分析了两个地理群体的形态学差异。由于其近似圆形的形态使得所能测量的外部指标较少,限制了传统形态测量学在其地理群体判别中的应用。本研究提出了将传统形态测量学和广义线性模型(GLM)相结合的方法,建立了判别菲律宾蛤仔地理群体的逻辑斯蒂(Logistic)回归方程。结果表明:菲律宾蛤仔的天鹅湖群体比胶州湾群体具有更高的SH/SL和SW/SL比值,壳形椭圆较圆且隆起程度高,"凸"形明显;基于GLM模型的Logistic回归能够快速准确地判别菲律宾蛤仔的地理群体归属,判别正确率高达94.23%。本研究为双壳类物种地理群体判别提供了新的分析方法和技术手段。 相似文献
14.
在2004–2019年间,人类通过大规模围填海以及陆源排污等活动对钦州湾造成了不可逆转的深远影响。本文基于卫星遥感影像和海图资料,利用非结构网格有限体积海洋模型建立的高精度钦州湾水动力–水质模型,分析了十几年来人类活动的累积效应对钦州湾水质的影响。受围填海和陆源排污两者的影响,钦州湾内化学需氧量(COD)的浓度略有下降(0.976 mg/L下降到0.909 mg/L),但湾内无机氮(DIN)和无机磷(DIP)的浓度分别从0.146 mg/L和0.023 mg/L增加到0.230 mg/L和0.027 mg/L,无机氮的浓度增加较为显著;统计结果表明,湾内超四类水质海域面积和重度富营养化水域面积大幅度增加,水质环境状况不容乐观。此外根据钦州湾内排污的特点,利用分担率法计算了不同时期下钦州湾的环境容量,结果表明湾内排污量远超最大允许排污量,茅岭江、钦江两条河流的排污量亟需削减;由于围填海导致的海湾面积减小和水交换能力降低,钦州湾环境容量较2008年有明显下降。对茅尾海局部采用排海通量最优法的计算表明,茅岭江应当分担比钦江更多的排污量,才能有利于茅尾海内的水质改善。通过估算发现双重人为压力共... 相似文献
15.
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... 相似文献
16.
The chemical and biological characteristics of surface waters in Jinhae Bay were investigated over four seasons to understand water quality in light of the growing industrialisation occurring within this area. Jinhae Bay includes four smaller bays: Masan; Hangam; Jindong; and Gohyun. The water quality in Jinhae Bay varied spatially and seasonally. The water quality of both Hangam Bay and Masan Bay was highly degraded, demonstrating high concentrations of ammonia, nitrate, chlorophyll a and particulate organic carbon. Contamination from sewage was the dominant cause of the water quality deterioration in these bays. Conversely, the water quality in Jindong Bay and Gohyun Bay was not as severely affected as that of the above two bays. Water quality in Jinhae Bay was particularly poor in summer when nutrient loading was highest due to the run-off associated with high precipitation. Principal component analysis indicated that nitrogen contamination was a major factor influencing the water quality of Jinhae Bay. The effective reduction in high-nitrogen discharges is essential to improve water quality in Jinghae Bay. 相似文献
17.
Based on a coupled ocean-sea ice model, this study investigates how changes in the mean state of the atmosphere in different CO_2 emission scenarios(RCP 8.5, 6.0, 4.5 and 2.6) may affect the sea ice in the Bohai Sea, China,especially in the Liaodong Bay, the largest bay in the Bohai Sea. In the RCP 8.5 scenario, an abrupt change of the atmospheric state happens around 2070. Due to the abrupt change, wintertime sea ice of the Liaodong Bay can be divided into 3 periods: a mild decreasing period(2021–2060), in which the sea ice severity weakens at a nearconstant rate; a rapid decreasing period(2061–2080), in which the sea ice severity drops dramatically; and a stabilized period(2081–2100). During 2021–2060, the dates of first ice are approximately unchanged, suggesting that the onset of sea ice is probably determined by a cold-air event and is not sensitive to the mean state of the atmosphere. The mean and maximum sea ice thickness in the Liaodong Bay is relatively stable before 2060, and then drops rapidly in the following decade. Different from the RCP 8.5 scenario, atmospheric state changes smoothly in the RCP 6.0, 4.5 and 2.6 scenarios. In the RCP 6.0 scenario, the sea ice severity in the Bohai Sea weakens with time to the end of the twenty-first century. In the RCP 4.5 scenario, the sea ice severity weakens with time until reaching a stable state around the 2070 s. In the RCP 2.6 scenario, the sea ice severity weakens until the2040 s, stabilizes from then, and starts intensifying after the 2080 s. The sea ice condition in the other bays of the Bohai Sea is also discussed under the four CO_2 emissions scenarios. Among atmospheric factors, air temperature is the leading one for the decline of the sea ice extent. Specific humidity also plays an important role in the four scenarios. The surface downward shortwave/longwave radiation and meridional wind only matter in certain scenarios, while effects from the zonal wind and precipitation are negligible. 相似文献
18.
广西北海半岛夏季营养盐及水质状况分析 总被引:1,自引:0,他引:1
近年北部湾藻华灾害频发,为了解与藻华暴发密切相关的营养盐及水质状况,2020年8月作者对北部湾北海半岛铁山港、营盘、涠洲岛、斜阳岛及涠洲岛西部远岸海域共21个站位采集表层海水,分析营养盐含量和结构特征,并利用富营养化指数和有机污染指数对该海域水质进行等级划分与评价。结果表明:北海半岛海域DIN、PO4-P和SiO3-Si均值分别为0.210、0.021和0.270 mg/L。其中,铁山港营养盐由港内至港外呈递减趋势,营盘海域由近岸至远岸,DIN和SiO3-Si含量先递减再增加,PO4-P则表现为递增,涠洲岛海域及远岸各站位营养盐分布无明显特征。北海半岛海域N/P、Si/N和Si/P均值分别为11.8、1.7和14.6,显示47.6%海域为潜在N限制,而潜在P限制和Si限制海域均为9.5%;叶绿素a仅与COD显著相关,相关系数为0.475。调查海域富营养化指数均值1.82,以铁山港港内富营养化程度最高,由港内严重富营养至港外贫营养递减,营盘近岸7号站位中度富营养,其余76.2%调查站位仍处于贫营养水平;有机污染指数均值1.85,良好和较好水质共占38.1%,其余61.9%水质受到不同程度有机污染,亦以铁山港水质污染最为严重,重度污染仅在该海域发现。可见,北海半岛夏季表层海水以潜在N限制为主,铁山港和营盘近岸富营养化和有机污染较严重,其余站位基本良好,影响表层水体叶绿素a含量的主要因素是有机质,可能与海域微生物强烈降解作用相关。本研究可为北部湾海洋环境保护和赤潮研究提供基础环境数据。 相似文献
19.
Examining bathymetric and seismic reflection data collected from the deep-sea region between Taiwan and Luzon in 2006 and
2008, we identified a connection between a submarine canyon, a deep-sea channel, and an oceanic trench in the northern South
China Sea. The seafloor of the South China Sea north of 21°N is characterized by two broad slopes: the South China Sea Slope
to the west, and the Kaoping Slope to the east, intersected by the prominent Penghu Canyon. This negative relief axis parallels
the strike of the Taiwan orogen, extends downslope in an approx. N–S direction, and eventually merges with the northern Manila
Trench via a hitherto unidentified channel. The discovery of this channel is pivotal, because it allows connecting the Penghu
Canyon to the Manila Trench. This channel is 80 km long and 20–30 km wide, with water depths of 3,500–4,000 m. The progressive
morphological changes recorded in the aligned canyon, channel, and trench suggest that they represent three distinct segments
of the same longitudinal sediment conduit from southern Taiwan to the northern Manila Trench. Major sediment input would be
via the Kaoping Canyon and Kaoping Slope, with a smaller contribution from the South China Sea Slope. We determined the northern
end of the Manila Trench to be located at about 20°15′N, 120°15′E, where sediment accumulation has produced a bathymetry shallower
than 4,000 m, thereby abruptly terminating the trench morphology. Comparison with existing data reveals a similarity with,
for example, the Papua New Guinea–Solomon Sea Plate convergent zone, another modern analog of a mountain source to oceanic
sink longitudinal sediment transport system comprising canyon–channel–trench interconnections. 相似文献
20.
Sepetiba Bay is located at 23 degrees S, 44 degrees W in Rio de Janeiro State, Brazil. Water samples were taken at eight locations adjacent to the north shore of the Bay, near to villages and towns without sewage treatment provision. The samples were analysed and total and faecal coliform concentrations determined. A hydrodynamic model of the Bay was used together with a species dispersion model based on an adaptive quadtree mesh to predict faecal concentrations in the Bay. Effluent sources used in the model were defined using population data from census returns with flow and concentration values estimated using standard values recommended by the World Bank (WB) and the World Health Organisation (WHO). Sufficient agreement was obtained between the measured and predicted concentrations to support the use of WB and WHO summary statistics to estimate sources of sewage. 相似文献