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海洋浮游生态系统连续介质动力学的模型的建立 总被引:3,自引:0,他引:3
运用质点、连续介质和状态变量等观点来描述海洋浮游生态系统,根据生物生命运动、生化反应、水动力学和物质守恒等基本规律,建立海洋浮游生态系统动力学的模型方程,推广地球流体力学的湍流二阶闭合理论,建立实用的雷诺平均生态系统动力学模型方程及其二阶相关项的闭合模型方程,将生态动力学状态变量的湍扩散参数化,本文还讨论了该模型与通常的N-P-Z-D模型的关系,提出了其适用范围。 相似文献
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海洋浮游生态系统连续介质动力学模型的建立 总被引:3,自引:0,他引:3
运用质点、连续介质和状态变量等观点来描述海洋浮游生态系统,根据生物生命运动、生化反应、水动力学和物质守恒等基本规律,建立海洋浮游生态系统动力学的模型方程。推广地球流体力学的湍流二阶闭合理论,建立实用的雷诺平均生态系统动力学模型方程及其二阶相关项的闭合模型方程,将生态动力学状态变量的湍扩散参数化。本文还讨论了该模型与通常的N-P-Z-D模型的关系,提出了其适用范围。 相似文献
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“全球海洋生态系统动力学”(CLOBEC)研究计划目前已被国际地圈与生物圈计划(IGBP)接纳为核心计划之一,并且可能成为今后10a内最大的国际海洋学研究计划。其主要目的是要了解海洋生态系统对全球变化特别是物理环境变化的响应。浮游动物是研究海洋环境变化对生态系统胁迫反应理想的研究对象,其数量变动是监测海洋生态系统动态的理想指标,因此GLOBEC计划特别强调对浮游动物的研究。海洋浮游桡足类的种类多、数量大、分布广,在繁殖盛季往往超过其他种类而在浮游动物中占据优势[1],因此海洋浮游桡足类的研究是浮游动物研究的重要组成部分… 相似文献
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海洋异养浮游细菌生物量及生产力的制约因素 总被引:15,自引:0,他引:15
根据海洋异养浮游细菌既是分解者,又是生产者的特点,从生态学方面探讨了海洋异养浮游细菌在海洋生态系统中的作用、研究现状及细菌生物量和生产力的制约因素。认为具有重要生态学意义的海洋异养浮游细菌生物量和生产力的主要影响因素有溶解性有机碳的性质及含量、无机营养盐浓度、海水温度、微量金属元素(如铁)含量、海洋异养浮游动物的摄食能力和噬菌体的感染等。 相似文献
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海洋浮游细菌生长率和被摄食的研究综述 总被引:2,自引:0,他引:2
海洋浮游细菌利用海水中的溶解有机碳合成自身物质,是海洋浮游生态系统的二次生产者。微型浮游动物是细菌的主要摄食者,也是细菌生产向较高营养级传递的中介。研究海洋浮游细菌的生长率和被(微型浮游动物的)摄食率对理解海洋浮游生态系统的功能具有重要作用。本文综述了利用改变海水中生物类群组成(或功能)的培养方法研究海洋浮游细菌生长率和被摄食率的历程和现状,为我国的同类研究提供借鉴。改变海水中生物类群组成(或功能)进行培养的方法有海水分粒级培养、海水稀释培养和添加选择性抑制剂培养。这些方法各有其局限性,应用并不广泛。细菌及其主要摄食者异养鞭毛虫群落在自然海区和实验室内都有生长周期,鞭毛虫的生长周期落后于细菌,因此细菌的生长率有时会小于被摄食率,有时会大于被摄食率。我国这方面的研究相对落后,应值得引起重视,建议从海水稀释培养法入手开展相关研究。 相似文献
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浮游动物在海洋生态系统中发挥重要作用,也是海洋食物链的主要环节。为科学保护和评价海洋生态环境和渔业资源,文章基于2016年春、秋季宁德市东部海域的相关调查结果,采用多样性指数、丰富度指数、均匀度指数和优势度指数以及去趋势对应分析法和冗余分析法,分析浮游动物群落及其与温度、pH值、溶解氧、无机氮、无机磷和化学需氧量6个水环境因子的关系。研究结果表明:春、秋季调查共鉴定浮游动物12类67种,季节和站位差异不大,均以水母类、桡足类和浮游幼虫为主;共出现优势种18种,春、秋季分别以桡足类和水母类为主,相同优势种仅有2种;3种指数分布无明显季节差异,但秋季指数总体较高;春、秋季浮游动物种类分别与各水环境因子呈正相关或负相关关系,其中温度是影响浮游动物种类的最主要水环境因子。 相似文献
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通过对目前生态动力学模型的总结和综合,以生态系统中氮、磷营养盐循环为主线,建立了适用于海洋围隔浮游生态系统的多变量的营养盐迁移-转化动力学模型.该模型包括浮游植物、浮游动物、溶解无机态营养盐、溶解有机态营养盐和生物碎屑5个模块,涉及溶解无机氮、磷酸盐、溶解有机氮、溶解有机磷、浮游植物、浮游动物和生物碎屑7个状态变量.分别利用1999年秋季和2000年夏季胶州湾围隔生态实验数据进行了模型和验证工作,成功地模拟了富加营养盐条件下围隔浮游生态系统中氮、磷营养盐生物化学迁移-转化过程,并确定了20余个参数的量值. 相似文献
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The state-of-the-art in modelling the marine ecosystem of the greater North Sea is reviewed, providing an overview especially about three-dimensional models that describe and predict how the marine ecosystem of the greater North Sea area functions and how concentrations and fluxes of biologically important elements vary in space and time, throughout the shelf and over years, in response to physical forcing. Articles with a strong concentration on modelling were selected from the available literature, and all articles around the existing “ecological modelling groups” dealing with the area of the North Sea were sorted in chronological order of their appearance in the literature. We found eleven of such groups and described their different modelling efforts. Selecting the seven three-dimensional models (NORWECOM, GHER, ECOHAM, ERSEM, ELISE, COHERENS and POL3dERSEM), we characterized the complexity of the models, by comparing the resolution in time and space, and the resolution of the trophic structure by discussing the number and kind of state variables and of the processes relating these state variables to each other.The review of biogeochemical/ecological modelling for the greater North Sea shows that important findings by model simulations have either confirmed existing knowledge derived from field work or have given new insight into the mechanisms of the functioning of the North Sea system: the temporal and spatial development and magnitude of primary production, its spreading from the coasts to the north-west over the open North Sea, its mechanisms of limitation, the functioning of the pelagic small food web and of the benthic web, the mechanisms of nutrient regeneration, the effects of riverine and atmospheric nutrient inputs causing eutrophication of coastal waters, the extent of eutrophication in the North Sea, and the budgets for nitrogen, phosphorus, and silicon. The three-dimensional ecological models of the greater North Sea have provided consistent distributions and dynamics of the lower trophic levels on their regional, annual and decadal scales which cannot be derived to this degree of coverage by observations.The state-of-the-art in validation for these models is presented in part 2 相似文献
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Michael J Kingsford 《新西兰海洋与淡水研究杂志》2013,47(3):294-312
Abstract Plankton includes the primary producers and consumers that are critical for healthy ecosystem function in the marine realm. My objective was to identify the major contributions of the Leigh Marine Laboratory to our broader understanding of planktonic assemblages. Significant contributions were made prior to 1990 on the ecology of larval fishes. From the 1990s the focus changed to the sensory biology of larval invertebrates and fishes, with a strong emphasis given to the role of reef sound in attracting potential settlers. Both early and post 1980s research has been highly influential in a paradigm shift away from passively drifting larvae that have little control over their fate. Important contributions have also been made on the dynamics of nutrient–phytoplankton interactions, larval development and aquaculture. Opportunities abound for future research on the dynamics of planktonic assemblages in shelf waters and in changing seas. 相似文献
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Trophic network model of the Northern Adriatic Sea: Analysis of an exploited and eutrophic ecosystem
Alberto Barausse Alessandro Duci Carlotta Mazzoldi Yuri Artioli Luca Palmeri 《Estuarine, Coastal and Shelf Science》2009,83(4):577-590
A quantitative model of the trophic network of Northern Adriatic Sea marine ecosystem during the 1990s has been constructed, with the goal of analysing its trophic structure, identifying the key trophic groups and assessing the anthropogenic impacts on the ecosystem using the Ecopath modelling protocol. The Northern Adriatic Sea is an eutrophic, shallow basin, and one of the most heavily fished areas in the Mediterranean Sea. The network aggregation into discrete trophic levels sensu Lindeman shows that low trophic levels dominate biomass and energy flows, with 40% of the total system throughput flowing out from trophic level 2. Instead, upper trophic levels appear bottom-up controlled, highly depleted and not exerting any control on the trophic network, as shown by mixed trophic impact-based analyses. Microbial loop is comparable to grazing with respect to the magnitude of flows involved, as 66% of the trophic network flows originate from detritus, which is mainly consumed by bacteria. Key trophic groups are plankton groups, macro-crustaceans and detritus, and other r-selected organisms like squids and small pelagics, which have a great influence on the ecosystem. In particular, zooplankton acts as a bottleneck for energy flows, limiting the energy from the low trophic levels effectively reaching the upper food web. The high pelagic production caused by eutrophication sustains high fishery landings and impressive discard quantities, as well as the benthic compartment. Overall, the ecosystem appears quite productive and in a stressed and developmental status. Model results and comparisons with few existing historical data suggest that the low maturity and stressed state of the Northern Adriatic Sea are not only due to natural characteristics, but mainly to anthropogenic pressures. 相似文献
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大型底栖动物是海洋生态系统的重要组成部分,在生态系统物流和能流中占有重要地位。定量估算海洋大型底栖动物次级生产力在其功能研究中具有重要意义。本文综述了海洋大型底栖动物次级生产力估算模型研究的3个阶段:起步阶段(1979-1990)、发展与完善(1990-2001)、成熟并广泛应用(2001-至今)。国内关于海洋大型底栖动物次级生产力估算基本都采用Brey(1990)经验公式,采用经验公式的方式可分为3类:逐种计算、按站位计算和按类群计算,逐种和按类群计算最符合Brey(1990)给出的参考步骤。不同方法估算同一海域次级生产力结果不同,同一估算方法估算不同生境不同群落次级生产力结果偏差也不同。今后的工作应注重种群次级生产力研究,积累大量基础数据,以便建立适宜我国特定海域的大型底栖动物次级生产力估算模型。 相似文献
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Suam Kim Chang-Ik Zhang Jin-Yeong Kim Jae-Ho Oh Sukyung Kang Jae Bong Lee 《Ocean Science Journal》2007,42(3):179-192
Understanding in climate effects on marine ecosystem is essential to utilize, predict, and conserve marine living resources
in the 21s t century. In this review paper, we summariz ed t h e past history and current status of Korean fisheries as well
as the changes in climate and oceanographic phenomena since the 1960s. Ocean ecosystems in Korean waters can be divided into
three, based on the marine commercial fish catches; the demersal ecosystem in the Yellow Sea and the East China Sea, the pelagic
ecosystem in the Tsushima Warm Current from the East China Sea to the East/Japan Sea, and the demersal ecosystem in the northern
part of the East/Japan Sea. Through the interdisciplinary retrospective analysis using available fisheries, oceanographic,
and meteorological information in three important fish communities, the trend patterns in major commercial catches and the
relationship between climate/ environmental variability and responses of fish populations were identified. Much evidence revealed
that marine ecosystems, including the fish community in Korean waters, has been seriously affected by oceanographic changes,
and each species has responded differently. In general, species diversity is lessening, and mean trophic level of each ecosystem
has decreased during the last 3~4 decades. Future changes in fisheries due to global warming are also considered for major
fisheries and aquaculture in Korean waters. 相似文献
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Realistic modelling of marine ecosystems is necessary for improving our understanding of the ocean’s biogeochemical state and for predicting their response to anthropic perturbations. An essential step in achieving this task is the use of mechanistic formulations to describe the biogeochemical processes involved in the dynamics of marine pelagic ecosystems. This study provides a review on some modelling strategies for some of the key processes involved in the dynamics of phytoplankton. It encompasses the most advanced work in terms of mechanistic understanding and, therefore, mainly deals with photosynthesis (including photoacclimation and photoinhibition), respiration, and nutrient uptake (including multi-limitation of algal growth by nutrients). We highlight, that in many ecosystem models, phytoplankton processes are still described more or less empirically, mainly due to a lack of biochemical knowledge, or if a mechanistic formulation exists, the parameters are often difficult to assess experimentally. As a result of this investigation, a preliminary structure for a generic phytoplankton model is delivered in the last section of this paper. This model includes a mechanistic representation of photosynthesis/photoinhibition based on photosystem II status, as well as new formulations for photoacclimation and dissolved organic matter exudation processes. The model sensitivity analysis with regard to its parameters and a comparison with chemostat experimental data are presented in a companion paper [Baklouti, M., Faure, V., Pawlowski, L., Sciandra, A., 2006. Investigation and sensitivity analysis of a mechanistic phytoplankton model implemented in a new modular numerical tool (Eco3M) dedicated to biogeochemical modelling. Progress in Oceanography]. Finally, this new class of multi-element, multi-species phytoplankton models will provide the basis for future studies on ecosystem modelling. 相似文献
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S. Allen Macklin George L. Hunt Jr. James E. Overland 《Deep Sea Research Part II: Topical Studies in Oceanography》2002,49(26)
Two Bering Sea marine research programs collaborated during the final years of the 1990s to forge advances in understanding the southeastern Bering Sea pelagic ecosystem. Southeast Bering Sea Carrying Capacity, sponsored by NOAA Coastal Ocean Program, investigated processes on the middle and outer shelf and the continental slope. The Inner Front Program, sponsored by NSF, investigated processes of the inner domain and the front between the inner and middle domains. The purposes of these programs were to (1) increase understanding of the southeastern Bering Sea ecosystem, including the roles of juvenile walleye pollock, (2) investigate the hypothesis that elevated primary production at the inner front provides a summer-long energy source for the food web, and (3) develop and test annual indices of pre-recruit pollock abundance. The observations occurred during a period of unusually large variability in the marine climate, including a possible regime shift. Sea-ice cover ranged from near zero to one of the heaviest ice years in recent decades. Sea-surface temperatures reached record highs during summer 1997, whereas 1999 was noted for its low Bering Sea temperatures. Moreover, the first recorded observations of coccolithophore blooms on the shelf were realized in 1997, and these blooms now appear to be persistent. The programs’ results include an archive of physical and biological time series that emphasize large year-to-year regional variability, and an Oscillating Control Hypothesis that relates marine productivity to climate forcing. Further investigations are needed of the confluences of interannual and even intra-seasonal variability with low-frequency climate variability as potential producers of major, abrupt changes in the southeastern Bering Sea ecosystem. 相似文献