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1.
千岛湖水华发生与主要环境因子的相关性分析   总被引:13,自引:0,他引:13  
藻类水华的发生通常被认为是水体富营养化的结果或表征。然而这种对水华发生机制的经典理解却不能很好地解释千岛湖在营养盐较高时没有发生水华而在较低时却发生了水华的现实。通过对千岛湖发生水华前后与其相关的主要生态因子所做的调查和分析结果表明,千岛湖发生大面积水华时的水体营养盐(TN和TP)含量、水位和银鱼生物量等指标均没有与水体历年(1993~1997年)未发生水华时的相应指标存在显著差异(P>0.05);同时也有证据表明,水体浮游动物密度在水华发生前后出现显著差异的可能性很小,且水体也仍处于中营养程度。只有鲢鳙生物量在发生水华时显著小于没有发生水华时的历年生物量平均值。此外,温度也常被认为是诱发水华暴发的一个重要环境因素,但分析认为,水温是周期性变动因子,千岛湖历年的水温并没有显示1998和1999年有任何异常。综合上述分析后认为,千岛湖1998、1999年大面积水华的发生,可能与水体中鲢鳙生物量的显著减少有密切关系。但银鱼的大量存在,遏制了浮游动物的数量,使低鲢鳙生物量和低浮游生物量同时出现成为可能,从而也可能成为导致水华发生的原因之一。  相似文献   

2.
Laminaria japonica, Undaria pinnatifida, Ulva lactuca, Grateloupia turuturu and Palmaria palmata are suitable species that fit the requirements of a seaweed-animal integrated aquaculture system in terms of their viable biomass, rapid growth and promising nutrient uptake rates. In this investigation, the responses of the optimal chlorophyll fluorescence yield of the five algal species in tumble culture were assessed at a temperature range of 10 - 30℃. The results revealed that Ulva lactuca was the most resistant species to high temperature, withstanding 30℃ for 4 h without apparent decline in the optimal chlorophyll fluorescence yield . While the arctic alga Palmaria palmata was the most vulnerable one, showing significant decline in the optimal chlorophyll fluorescence yield at 25℃ for 2 h. The cold-water species Laminaria japonica, however, demonstrated strong ability to cope with higher temperature (24 -26℃ ) for shorter time (within 24 h) without significant decline in the optimal chlorophyll fluorescence yield . Grateloupia turuturu showed a general decrease in the optimal chlorophyll fluorescence yield with the rising temperature from 23 to 30℃ , similar to the temperate kelp Undaria pinnatifida. Changes of chlorophyll fluorescence yields of these algae were characterized differently indicating the existence of species-unique strategy to cope with high light. Measurements of the optimal chlorophyll fluorescence yield after short exposure to direct solar irradiance revealed how long these exposures could be without significant photoinhibition or with promising recovery in photosynthetic activities. Seasonal pattern of alternation of algal species in tank culture in the Northern Hemisphere at the latitude of 36°N was proposed according to these basic measurements.  相似文献   

3.
The study synthesises current understanding of the predominant physical processes responsible for the seasonality of harmful algal blooms, notably Alexandrium catenella and Dinophysis spp., in the nearshore environment of Saldanha Bay on the west coast of South Africa. Saldanha Bay is one of the few naturally sheltered areas on the South African coastline suitable for in situ shellfish farming and is the major site for the production of black mussel Mytilus galloprovincialis in South Africa. Mussel farming started there in 1985 and the present level of production is some 2 700 tons per annum. Since 1994, disruption of harvesting as a result of the presence of harmful algal species has been a regular late-summer phenomenon. Toxic blooms that are ultimately advected into the bay develop on the continental shelf to the north between 32°S and St Helena Bay, a region characterized by favourable conditions for dinoflagellate growth and circulation patterns that facilitate build-up of intense blooms during late summer. Offshore dinoflagellate populations are advected shorewards and polewards in response to relaxation of upwelling at the Namaqua cell to the north. Dinoflagellate blooms are advected south from the southern Namaqua shelf during upwelling relaxation. Under such conditions, the gyre south of Elands Bay moves offshore and a barotropic flow past Cape Columbine is established. Evidence suggests that the near surface component of the flow occurs as a sudden "flood" event. These dinoflagellate-containing shelf waters are in turn advected into Saldanha Bay when upwelling relaxes, when the density gradient between the bay and the shelf drives surface inflow and bottom water outflow. These flows are reversed with the resumption of upwelling over the shelf, resulting in intrusion and entrainment of bottom water and surface outflow. Entrainment dictates that the bay acts as a net importer of bottom water and net exporter of surface waters over a synoptic cycle. This system of exchange between Saldanha Bay and the shelf curtails the duration and severity of toxic episodes in the bay relative to the shelf.  相似文献   

4.
Abstract. The energy flows of two habitats are quantified and compared by using a trophic network model. The habitats are representative of two typical subsystems of the Venice Lagoon: the seagrass meadows, which represent a mature stage in the ecological succession of lagoon environments, and the Tapes philippinarum fishing grounds, which are subjected to mechanical clam harvesting.
The results obtained for the 'seagrass habitat'are consistent with other field studies, confirming the'key-stone'role played by phanerogams in a lagoon environment. The results for the 'Tapes habitat'show that the energy flow from the sediment to the water column is extremely important. Indeed, the high T. philippinarum biomass cannot be supported solely by the primary production of the local phytoplankton. Instead, this biomass could be supported by a supply provided by the sediment resuspension caused by intensive clam fishing. These findings suggest the presence of a positive feedback between fishing effort and T. philippinarum standing crop.  相似文献   

5.
Barbamarco Lagoon (area = 7 km2) is in the Po River Delta, adjoining the Northern Adriatic Sea, and supports a commercially valuable clam (Tapes philippinarum) fishery. This study investigated interactions of the lagoon with adjacent coastal waters and inland riverine inputs by modelling both the lagoon and the Northern Adriatic Sea, using a coupled three-dimensional (3D) hydrodynamic-ecological model (ELCOM-CAEDYM) adapted to include the clam population. The clam model accounted for carbon (C), nitrogen (N) and phosphorus (P) biomass in the benthos through parameterisations for filtration, excretion, egestion, respiration, mortality, and harvesting. Multiple clam size classes were included in a new population dynamics sub-model. Output from the coupled model was validated against hydrodynamic and water quality data from intensive field sampling and routine monitoring. Time scales of tidal flushing, primary production and clam grazing were investigated with the model to demonstrate that food supply to clam populations is dominated by phytoplankton inputs from the Northern Adriatic Sea. Effects of clam cultivation on nutrient concentrations and phytoplankton biomass in Barbamarco Lagoon were primarily localised, with strong tidal flushing minimising impacts of clam filtration on lagoon-wide nutrient concentrations at current clam stocking levels. Clam populations were found to alter the cycling of nutrients in the system, causing the lagoon to become a net sink for particulate organic matter and to export dissolved organic matter to the adjacent sea via tidal flushing. Ecosystem health and sensitivity of nutrient cycles to clam cultivation are important considerations for the long term sustainable management and potential expansion of the fishery.  相似文献   

6.
为探究富营养河口水体藻华粒级结构的调控机制,本研究利用枯水期珠江口上游河水、下游海水及其等比例混合水进行培养实验,跟踪监测水体中叶绿素a和营养盐的浓度变化,并利用稀释实验估算藻类生长速率(μ)和小型浮游动物的摄食速率(m),以阐明上行控制(营养盐刺激)和下行控制(摄食影响)对藻类粒级结构的影响。结果显示:营养加富能增加藻类的生物量,藻类群落的优势粒级由超微型和微型转换为小型;加富河水中μ维持2~3 d高值后下降,速率为(1.13±0.37)d?1,加富海水中μ逐步增加,速率为(1.06±0.16)d?1,加富混合水中μ轻微波动,速率为(0.58±0.14)d?1,总体上小型藻类μ最大。3组加富水体中m总体均先增大后下降,粒级差异不明显。藻类被小型浮游动物摄食率(m/μ)随粒级增大而减小,说明富营养刺激大粒级的生长,大粒级面临的被摄食压力较小。m/μ随藻类每日的比生长速率(μChl a)降低而增加,说明藻华前期由上行控制主导,后期下行控制作用相对加强。本研究表明,富营养化不仅能够改变藻华的生物量,而且能影响其粒级结构,初步阐明了富营养河口水体中藻华粒级结构的调控机制。  相似文献   

7.
A model was developed for Typha, to examine the effects of latitudinal changes in temperature and radiation on the partitioning of total biomass during the growing season into rhizomes, roots, flowering and vegetative shoots, and inflorescences.Regardless of initial rhizome biomass, both above and belowground biomasses converge on a equilibrium value, with the balance between total production and metabolic loss being latitude-specific. If aboveground biomass is harvested just once, then both above and belowground biomasses return to equilibrium values after several years. If the aboveground biomass is harvested annually, then both above and belowground biomasses converge on smaller equilibrium values, which are determined by the balance between the sum of production prior to harvesting and after harvesting, and the sum of annual metabolic losses and a loss due to harvesting.The model could be used in wetland management activities to predict the potential growth of Typha in given conditions as well as the responses of Typha stands to harvesting over a wide range of latitudes for times ranging from a season to several years.  相似文献   

8.
Spring blooms of phytoplankton composed of centric diatoms developed in late February, March, and April in Otsuchi Bay on Sanriku ria coast, Japan. During this period, associated with prolonged seasonal west wind (>1 day), intense exchange of waters occurred between inside and outside the bay: outflow of nearsurface brackish water over inflow of oceanic water at depth. This circulation interrupted formation of the blooms, and transported phytoplankton populations seaward. By such water movements, a significant amount of nutrients in the bay was carried out, otherwise replenished into the bay, depending on water masses located outside the bay. Owing to irregular features of wind events, a bloom lasted from several days to a week. From February to April, supply of nutrients seemed to be replete except for the latter half of the bloom period, and estimates of the critical depth exceeded the depth of the bottom consistently. Thus, net growth of phytoplankton was expected throughout the observation period, and potentially blooms could be formed. However, the blooms were only formed under calm weather. We hypothesize that the exchange of waters dilutes populations in the bay, and that formation of the bloom, that is, accumulation of biomass depends on a balance between the growth of phytoplankton and the dilution of bay water.  相似文献   

9.
An increased intensity of cyanobacterial blooms and their potentially harmful effects have attracted the attention of environmental agencies, water authorities and the general public worldwide. Reliable operational monitoring methods of coastal waters, lakes and ponds are needed. Mapping of the surface extent of cyanobacterial blooms with remote sensing is straightforward, but recognizing waters dominated by cyanobacteria throughout the water column and quantitative mapping of cyanobacterial biomass with remote sensing is more complicated. Unlike most algae, cyanobacteria can regulate their buoyancy and move vertically in the water column. We used the Hydrolight 4.2 radiative transfer model and the specific optical properties of three species of cyanobacteria to study the impact of vertical distribution of cyanobacteria on the remote sensing signal. The results show that the vertical distribution of cyanobacteria in the water column has a significant impact on the remote sensing signal. This result indicates that developing remote sensing methods for quantitative mapping of cyanobacterial biomass is much more complex than quantitative mapping of an algal biomass that is uniformly distributed in the top mixed layer of water column.  相似文献   

10.
The seasonal occurrence of 94 benthic algal species, including Cyanophyta, was observed on a monthly basis over one year in the Patos Lagoon estuary (32°S, 52°W), Brazil, and showed three patterns of algal periodicity. An aseasonal group of 46 species was present throughout the year and two groups of 24 species each occurred either during summer and fall or winter and spring. The seasonal growth of 55 green, brown and red algae was correlated with monthly variations of salinity, water temperature, daylength and light radiation energy, which were measured daily in the estuary. Summer/fall peak growth was observed in 15 algae most of which correlated significantly with high salinities alone or in combination with other factors during this period. Growth peak of 11 species in winter/spring was principally a function of low water temperatures alone or together with a reduced light regime.Both periodicity of benthic algae and their seasonal growth, as a more sensitive measure of their floristic affinity, demonstrated the presence of cool temperate and tropical elements in this flora typical for warm temperate biogeographic regions. Correlations between seasonal variation of algal growth and selected environmental parameters aided in the evaluation of causal factors for algal seasonality.  相似文献   

11.
黄海浒苔绿潮及其溯源研究进展   总被引:7,自引:0,他引:7  
2007-2012年,黄海连续6a暴发了大规模绿潮。分析了过去5a国内外对黄海绿潮以及绿潮形成种浒苔的研究进展,并总结了对黄海绿潮浒苔溯源的主要观点。结合国内外对绿潮浒苔生物学研究结果,深入分析了大规模黄海绿潮暴发的关键要素(绿潮形成种、近海海水富营养化和其它海洋环境因子)以及生物生态学机制,根据已知的结果推演黄海绿潮全年发生发展过程。据此,认为黄海绿潮大暴发与江苏省近岸海域海水富营养化密切相关,辐射沙洲的浒苔微观繁殖体(孢子、配子及其不同发育程度的显微个体)在绿潮暴发过程中扮演重要角色。  相似文献   

12.
Based on systematized physical, chemical, and biological modules, a multi-species harmful algal bloom (HAB) model coupled with background ecological fields was established. This model schematically embod-ied that HAB causative algal species and the background ecological system, quantified as total biomass, were significantly different in terms of the chemical and biological processes during a HAB while the inter-action between the two was present. The model also included a competition and interaction mechanism between the HAB algal species or populations. The Droop equation was optimized by considering tempera-ture, salinity, and suspended material impact factors in the parameterization of algal growth rate with the nutrient threshold. Two HAB processes in the springs of 2004 and 2005 were simulated using this model. Both simulation results showed consistent trends with corresponding HAB processes observed in the East China Sea, which indicated the rationality of the model. This study made certain progress in modeling HABs, which has great application potential for HAB diagnosis, prediction, and prevention.  相似文献   

13.
Seasonal variations in primary production, phytoplankton biomass, chlorophyll-a, dissolved inorganic phosphorus and nitrogen concentrations in the upper 10 m of the Kattegat were analysed by means of monitoring data from 1993–1997. Spatial optimal analysis, based on a stochastic model, was used to reconstruct weekly constituent fields onto a spatial grid. The reconstructed fields were spatially integrated, resulting in a relatively smooth seasonal variability of the average variables. A simple dynamical model, set up as a periodical boundary problem, is suggested for the average phytoplankton concentration, dissolved inorganic nitrogen and entrainment depth as state variables. The model is forced by the solar radiation, nitrogen load from the land sources and atmosphere as well as by nitrogen supply from the lower nutrient-rich layer. The latter process is modelled proportional to the water entrainment into the upper euphotic layer and is driven by atmospheric forcing, river runoff and the Baltic water inflow. Four model coefficient values were fitted by minimising the root mean square difference between the integrated monitoring data and the model output. The suggested diagnostic model reflects the main features in seasonal variability of phytoplankton and nitrogen concentrations by average values, including the magnitude and timing of such dynamic events as the spring and late summer phytoplankton blooms. The importance of different forcing factors is quantified and estimates of unobserved components such as new primary production can be computed.  相似文献   

14.
Phytoplankton biomass and primary production were examined in their environmental context, for a semi-enclosed bay (Tokyo Bay, Japan) using data from monthly samples collected over a three-year period. Heavy precipitation and high surface temperatures in the late spring and summer gave rise to a highly-stratified water-column and stimulated a series of phytoplankton blooms, whereas during the winter, a weakly-stratified and deeply-mixed water-column led to a rapid decline in phytoplankton biomass under light-limited growth conditions. By incorporating pigment, photophysiological and optical data into a primary production model we show that daily, water-column primary production ranges from ∼160 mg C m−2 d−1 to 7600 mg C m−2 d−1. High water turbidity and deep vertical mixing, both separately and in concert, limit the light available for algal growth over much of the year. Annual primary production varied from 370 to 580 g C m−2 y−1. The relative influences of nutrient limitation and light limitation are assessed. A model is developed that describes this in an explicit manner using photophysiological parameters.  相似文献   

15.
The relative importance of tropical pelagic algal blooms in not yet fully appreciated and the way they are induced not well understood. The tropical Atlantic supports pelagic blooms together equivalent to the North Atlantic spring bloom. These blooms are driven by thermocline tilting, curl of wind stress and eddy upwelling as the ocean responds to intensified basin-scale winds in boreal summer. The dimensions of the Pacific Ocean are such that seasonal thermocline tilting does not occur, and nutrient conditions are such that tilting might not induce bloom, in any case. Divergence at the equator is a separate process that strengthens the Atlantic bloom, is more prominent in the eastern Pacific, and in the Indian Ocean induces a bloom only in the western part of the ocean. Where western jet currents are retroflected from the coast off Somalia and Brazil, eddy upwelling induces prominent blooms. In the eastward flow of the northern equatorial countercurrents, positive wind curl stress induces Ekman pumping and the induction of algal blooms aligned with the currents. Some apparent algal bloom, such as that seen frequently in CZCS images westwards from Senegal, must be due to interference from airborne dust.  相似文献   

16.
Barbamarco Lagoon is a small lagoon adjoining the Northern Adriatic Sea and is the site of a commercially valuable clam (Tapes philippinarum) fishery. A three-dimensional (3D) coupled hydrodynamic–ecological model was applied to the lagoon with the objective of assessing impacts on clam food supply, commercial harvests and water quality of different clam rearing strategies, lagoon morphologies and flow regimes. Harvest and net growth to seeding ratios, total harvest value, clearance efficiencies and clam satiety were used to quantify the commercial success of different management strategies, while bottom dissolved oxygen concentrations were used as an indicator of ecosystem health. Increasing exchange with the Northern Adriatic Sea or increasing freshwater inputs into the lagoon improved clam food supply and increased both harvest production and ecosystem health in model simulations of the system. Results indicated that the high spatial and temporal variability of clam production and water quality responses must be considered for a holistic assessment of the outcomes of strategies in the context of ecological and production carrying capacity.  相似文献   

17.
南黄海浮游植物季节性变化的数值模拟与影响因子分析   总被引:25,自引:1,他引:25  
用三维物理-生物耦合模式研究南黄海浮游植物(以叶绿素a为指标)的季节变化.对于物理模式采用Princeton ocean model(POM),对于生物模式考虑溶解无机营养盐(氮、磷、硅)、浮游植物、食草性浮游动物和碎屑.给定已知的初始场和外加边界强迫,模拟了观测到叶绿素a的主要时、空分布特征,如浮游植物的春、秋季水华和夏季次表层叶绿素a极大值现象等.研究表明,浮游植物春季水华最先发生于黄海中央海域,主要原因是该海域透明度较高,流速较小.春季水华开始于垂直对流减弱和层化开始形成之前(约3月底至4月上旬),显著地依赖水层的稳定性.水体层化以后(约5~9月)叶绿素a浓度高值区分布在南黄海的南部和锋区.夏季的南黄海中央海域,由于上混合层营养盐几乎耗尽,限制了浮游植物的生长,在紧贴温跃层下部的真光层,具有丰富的营养盐和合适的光照,次表层叶绿素a极大值得以形成.秋季(约9~11月份,略迟于海表面开始降温的时间,随地点不同而异)随垂直混合的增强,有利于营养盐向上输运,浮游植物出现一次较小的峰值.  相似文献   

18.
于2017年4月至6月,沿南黄海35°N断面出现了罕见的绿潮、金潮和赤潮等有害藻华共发现象。本研究通过现场定时定速拖网等方法,对黄海35°N断面不同站位的大型漂浮藻类进行了定量观测,并对赤潮区浮游植物进行了显微镜观察。结果表明:沿35°N断面的漂浮绿藻和马尾藻生物量具有明显的时空变化特征,4月下旬漂浮绿藻和马尾藻开始零星出现,5月下旬生物量和分布范围明显增加,在6月上旬达到最大,随后在6月下旬降低。漂浮绿藻和马尾藻的分布区域存在差异,120°30''—122°30''E为两者共同分布海域,向西以漂浮绿藻为主,向东则以马尾藻为主。分别于5月下旬和6月下旬在黄海35°N断面发现了1次米氏凯伦藻(Karenia mikimotoi)赤潮和1次赤潮异弯藻(Heterosigma akashiwo)赤潮。基于现场获取的水文数据,本文对南黄海海域的环境条件及其对有害藻华分布的影响进行了讨论。沿35°N断面共发的绿潮、金潮和赤潮现象表明黄海海域正面临严峻的海洋生态问题,通过对该海域赤潮、金潮和绿潮的长期观测,可望揭示这些藻华灾害形成机制和演变规律,为针对性地开展有害藻华预报、预警和防控提供科学依据。  相似文献   

19.
近年来,随着对抑藻微生物认识的深入,利用藻-菌相互作用控制有害藻华展现出极大的应用前景。在前期改性粘土治理有害藻华方法的基础上,首次将不同种类的微生物与传统的改性粘土复合,研究了不同的复合比例、制备方式等对典型有害藻华生物——东海原甲藻(Prorocentrum donghaiense)去除效率的影响,初步探讨了其作用机制。结果表明:菌密度1.5×1010 cells/L的EM菌(effectivemicroorganisms,有效性微生物)及其滤液可以有效去除东海原甲藻;利用EM菌对粘土进行复合改性处理可以进一步提高改性粘土的除藻能力,呈现出1+12的效果。在适宜范围内,增加熟化时间与温度有利于复合改性粘土除藻效率的提升。文章进一步分析探讨了EM菌复合改性粘土的除藻机制,认为改性粘土通过富集EM菌和分泌的抑藻物质,增加了其对微藻的直接和间接除藻作用;适宜的熟化温度和熟化时间可促进EM菌的繁殖及其在改性粘土上的吸附,有利于复合改性粘土去除效率的提升。上述研究结果为改性粘土治理有害藻华技术的进一步提升和完善提供了新的探索。  相似文献   

20.
南长山岛岩岸潮间带底栖藻类群落结构的季节变化格局   总被引:4,自引:0,他引:4  
南长山岛岩岸潮间带底栖藻类群落的种类组成存在显著的季节差异,4个季节的群落共有种为8种:孔石莼、海黍子、石花菜、江蓠、叉枝藻、小石花菜、叉枝伊谷草和瘤枝凹顶藻。4个季节群落中生物量的变化为:秋季>夏季>冬季>春季。绿藻和褐藻类群主要为暖温性种类,而红藻类群比较复杂,既有暖温带、温带和亚热带性种类,也有寒温带的冷水性种类。4个季节群落的物种优势度序列存在明显的差异,海黍子在春季、夏季和冬季3个群落为第一优势种,瘤枝凹顶藻在秋季为第一优势种。不同季节群落多样性指数变化如下:物种丰富度指数,春季>秋季>冬季>夏季;物种多样性指数,冬季=秋季>春季>夏季;均匀度指数,冬季=秋季>春季>夏季。群落的多样性由红藻类群控制。  相似文献   

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