共查询到19条相似文献,搜索用时 125 毫秒
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衡水湖国家级自然保护区是集调节气候、科学研究、生态旅游、工农业用水为一体的湿地系统。通过衡水湖流域污染调查,分析衡水湖水体营养盐的主要来源,从营养物质、水量交换和浮游植物三个方面对该水库的富营养化特征进行讨论,提出水体富营养化的改善对策,为衡水湖综合治理提供科学依据。 相似文献
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中大西洋营养盐富集实验中浮游植物生长的营养盐限制作用 总被引:1,自引:0,他引:1
唐松 《矿物岩石地球化学通报》2008,27(2)
借助中国首次环球科学考察航次,在中大西洋航段现场对表层海水进行了添加N、P、Si的营养盐富集实验,通过实验过程中水体营养盐浓度、叶绿素a(Chl-a)浓度以及温度等参数的分析,探讨了实验海区浮游植物生长的营养盐限制作用。结果表明,添加N、P、Si都可造成实验水体中Chl-a浓度明显增大,且N对浮游植物生长的限制作用最明显,其次为P,Si的作用最弱。实验过程中水体N/P值的变化同叶绿素a浓度及浮游植物生长速度(R)没有可对比性,N/P值与后两者之间的相关性都差,可以认为水体中N/P值并不能单独限制浮游植物生长。实验水体温度同Chl-a浓度和R值间也缺乏相关性,表明水体温度同样不能控制浮游植物生长。 相似文献
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采用底泥掩蔽技术,选取天然红土,添加适量的粉煤灰及石灰粉作为掩蔽覆盖物,对滇池富营养化水体进行现场修复实验。结果表明:用天然矿物材料减小底泥内源营养盐负荷的释放修复富营养化水体的效果良好;红土是有效的底泥覆盖材料,添加粉煤灰和石灰粉有助于消减底泥中TP、TN的释放量,还可提高对藻类等浮游植物繁殖的营养基础和对藻、藻细胞及其胚胎上浮生长的控制效率,最终达到除藻的目的,为滇池及类似湖库富营养化水体的修复提供了崭新的思路。 相似文献
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水体富营养化与水体沉积物释放营养盐 总被引:10,自引:0,他引:10
水体富营养化已经成为世界水环境面临的最为重要的问题.简要介绍了中国水体富营养化的现状和水体富营养化的成因.着重阐述了在截断外源污染后,水体沉积物对营养盐的释放及其主要影响因素,并提出了目前存在的问题和未来的发展方向,为水体富营养化的研究、预防和治理工作提供了系统、科学的理论依据. 相似文献
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分布式采集了玄武湖底长期暴露的底泥,分析了底泥营养物的分层分布及其理化特性对湖泊水质的影响强度。通过动态换水试验,研究了复水过程中暴露底泥营养盐的释放过程和上覆水总磷、总氮浓度变化对水土界面物质交换的作用关系以及对水体富营养化程度的影响机制。实验及模拟表明:由于湖泥表层长期暴露,有机及结合态营养盐降解为无机态营养盐,即使复水过程中使用清水,但由于干涸湖床沉积物总磷T-P、总氮T-N的垂直分布,也将严重导致内源营养盐释放总量持续增加,在相对长时间内,上覆水总磷浓度仍维持在较高(01mg/L)水平。研究成果为实施生态修复,治理复水后湖体富营养化提供了理论和实验依据。 相似文献
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浮游植物动力学模型及其在海域富营养化研究中的应用 总被引:10,自引:2,他引:10
浮游植物动力学模型用来研究特定海域浮游植物生物量的时空分布规律,定量确定各种物理,生物过程的贡献,对解决浮游植物生物量异常增加导致的富营养化问题具有至关重要的作用,综述了国内外海洋浮游植物动力学模型研究的发展过程和现状,介绍了几种不同时空尺度浮游植物动力学模型的特点和性能,此类模型在发达国家的海域富营养化研究和环境管理中已取得了相当的进展,而我国目前虽已开展了海洋生态模型的初步研究,但面临一些困难,其中不仅需要获取特定海域的过程参数,而且急需对海域的强迫过程和边界过程加强认识。 相似文献
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《吉林大学学报(地球科学版)》2015,(Z1)
<正>通过控制外源营养盐流入可以降低水体营养盐浓度,抑制蓝藻爆发。目前一些外源控制措施已经用于富营养化水体的修复,并取得一定成效。但是仅仅控制外源污染并不能抑制蓝藻爆发,底泥中营养物质的释放(内源污染)受到人们广泛关注。目前关于富营养化水体内源污染治理机制是抑制底泥中营养物质向上覆水迁移,如:底泥覆盖和底泥疏浚、生态修复等。但是这些措施成本高、时间长,难以大规模应用。本文基于磷是富营养化水体控制因子,研究铜绿微囊藻增值与底泥磷释放关系及其对底泥形态结构的改 相似文献
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太湖富营养化与蓝藻水华引起的饮用水危机——原因与对策 总被引:58,自引:0,他引:58
[ZW(*][HT6H]〓收稿日期:.
〓作者简介:[HT6SS](1963 ),男,江苏苏州人,研究员,主要从事水环境研究.[WT6HZ]E mail:[WT6BZ]qinbq@niglas.ac.cn[ZW)]
[HT4F][HT5K]()[JZ)]
[HT5H][GK2]
摘〓要:[HT5K]2007年5月份发生在无锡太湖蓝藻水华引起的自来水危机事件进一步凸现我国湖泊富营养化的严峻局面和蓝藻水华频发的现状。从分析太湖富营养化发生、发展,蓝藻水华爆发的原因和机制入手,提出湖泊富营养化治理和蓝藻水华控制的途径和措施。研究表明,太湖富营养化之所以如此严重而且治理起来异常艰难,主要是由于太湖发育于长江中下游洪泛平原,营养本底高;由于水浅和沉水植被的退化使得频繁的风浪扰动造成内源营养盐负荷维持在一个非常高的水平;而流域内社会经济的高速发展,进一步加剧了太湖富营养化进程。蓝藻水华爆发一方面与蓝藻本身的生理特征有关,如固碳、伪空泡、光吸收及营养盐利用的能力;另一方面则与系统内物理、化学、生物环境有关,如独特的浅水湖泊水下光场结构和低的捕食压力。太湖的富营养化治理需遵循控源截污、湖泊生态修复和流域管理的原则,具体措施包括前置库和人工湿地的面源污染物控制技术;物理机械和生物去除内源营养盐削减技术;沉水植被恢复的湖泊生态修复技术。而蓝藻水华的控制技术则包括围隔拦截和导流的物理工程方法、絮凝沉降和抑藻物添加的化学工程方法以及生态浮床和生物操纵的生态工程方法。具体使用时,需要先诊断、后治理。
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根据陆海相互作用的观点,黄河流域、黄河干流、河口三角洲及其邻近海区的生态环境相互联系,组成了一个有机的生态系统链,可称为黄河-渤海生态系统。黄河流域的降水量、土壤植被条件使黄河干流具有水少沙多、水沙异源和水资源缺乏的特征。干流入海水、沙通量变化影响了黄河三角洲地区的侵蚀、堆积和发育过程。黄河物质入海后在河口及邻近海域形成了具有高生产力的生态环境和著名的渔场。据此绘出了黄河-渤海生态环境内各环节相互联系的概念模式图,并提出了黄河流域大面积水土保持和南水北调工程逐步展开等新环境下,本区陆海相互作用的研究方向。 相似文献
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Despite a recent review concluding that there is little or no reason to expect that the production of fish and other animals will increase with nutrient enrichment or eutrophication, there is a variety of evidence that anthropogenic nutrients can stimulate secondary production in marine ecosystems. Unique multiple-year fertilization experiments were carried out over fifty years ago in Scottish sea lochs that showed dramatic increases in the abundance of benthic infauna and greatly enhanced growth of fish as a result of inorganic nitrogen (N) and phosphorus (P) additions. These experiments appear to have provided a good qualitative model for the responses of the Baltic Sea to nutrient enrichment and resulting eutrophication. Historical comparisons by others have shown that the weight of benthic animals per unit area above the halocline in the Baltic is now up to 10 or 20 times greater than it was in the early 1920s and that the total fish biomass in the system may have increased 8 fold between the early part of the 1900s and the 1970s. While there are no similar data for the highly enriched central and southern North Sea, there is convincing evidence that the growth rates of plaice, sole, and other species have increased there since the 1960s or 1970s. Cross-system comparisons have also shown that there are strong correlations between primary production and the production and yield of fish and the standing crop and production of benthic macrofauma in phytoplankton-dominated marine ecosystems. Concerns over the growing nutrient (especially N) enrichment of coastal marine waters are clearly valid and deserve the attention of scientists and managers, but the recent demonizing of N ignores the fact that nutrients are a fundamental requirement for producing biomass. Decisions regarding the amount of N or P that will be allowed to enter marine ecosystems should be made with the full knowledge that there may be tradeoffs between increases in water clarity and dissolved oxygen and the abundance of oysters, clams, fish, and other animals we desire. 相似文献
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Emily J. Douglas Conrad A. Pilditch Andrew M. Lohrer Candida Savage Louis A. Schipper Simon F. Thrush 《Estuaries and Coasts》2018,41(7):1994-2008
As coastal catchment land use intensifies, estuaries receive increased nutrient and sediment loads, resulting in habitats that are dominated by muddy organic-rich sediments. Increased mud (i.e. silt-clay (particles <?63 μm)) content has been associated with negative effects on soft sediment biodiversity and ecosystem functioning, but the simultaneous impact of nutrient enrichment on ecosystem response is unclear. Nutrient recycling and denitrification in estuarine soft sediments represent important ecosystem functions regenerating nutrients for primary producers and regulating the ability to remove excess terrestrially derived nitrogen. To test the effect of sedimentary environment on ecosystem resilience to nutrient perturbation, we experimentally enriched sediments with slow release fertiliser across an intertidal sedimentary gradient (0–24% mud content). The enrichment successfully elevated pore water ammonium concentrations (median 36?×?control) to levels representative of enriched estuaries. Findings show that the sedimentary environment can influence ecosystem function response to nutrient stress. In particular, denitrification enzyme activity was suppressed by nutrient enrichment, but the effect was greater as sediment mud content increased. Furthermore, compared with sandy sediments, sediments with high mud content may restrict nutrient processing (release, uptake or transformation of organic nutrients by the benthos) facilitating ecosystem shifts toward eutrophication. These results show the value of investigating the impacts of stressors in different environmental settings and demonstrate that land use practices that increase the proportion of muddy habitats in estuaries may reduce denitrification which in turn may reduce ecosystem resilience to eutrophication. 相似文献
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Climate change impacts on U.S. Coastal and Marine Ecosystems 总被引:1,自引:0,他引:1
Donald Scavia John C. Field Donald F. Boesch Robert W. Buddemeier Virginia Burkett Daniel R. Cayan Michael Fogarty Mark A. Harwell Robert W. Howarth Curt Mason Denise J. Reed Thomas C. Royer Asbury H. Sallenger James G. Titus 《Estuaries and Coasts》2002,25(2):149-164
Increases in concentrations of greenhouse gases projected for the 21st century are expected to lead to increased mean global air and ocean temperatures. The National Assessment of Potential Consequences of Climate Variability and Change (NAST 2001) was based on a series of regional and sector assessments. This paper is a summary of the coastal and marine resources sector review of potential impacts on shorelines, estuaries, coastal wetlands, coral reefs, and ocean margin ecosystems. The assessment considered the impacts of several key drivers of climate change: sea level change; alterations in precipitation patterns and subsequent delivery of freshwater, nutrients, and sediment; increased ocean temperature; alterations in circulation patterns; changes in frequency and intensity of coastal storms; and increased levels of atmospheric CO2. Increasing rates of sea-level rise and intensity and frequency of coastal storms and hurricanes over the next decades will increase threats to shorelines, wetlands, and coastal development. Estuarine productivity will change in response to alteration in the timing and amount of freshwater, nutrients, and sediment delivery. Higher water temperatures and changes in freshwater delivery will alter estuarine stratification, residence time, and eutrophication. Increased ocean temperatures are expected to increase coral bleaching and higher CO2 levels may reduce coral calcification, making it more difficult for corals to recover from other disturbances, and inhibiting poleward shifts. Ocean warming is expected to cause poleward shifts in the ranges of many other organisms, including commercial species, and these shifts may have secondary effects on their predators and prey. Although these potential impacts of climate change and variability will vary from system to system, it is important to recognize that they will be superimposed upon, and in many cases intensify, other ecosystem stresses (pollution, harvesting, habitat destruction, invasive species, land and resource use, extreme natural events), which may lead to more significant consequences. 相似文献
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我国海洋生态系统服务功能及其价值评估研究计划 总被引:24,自引:0,他引:24
国家海洋局于2005年启动了为期5年“海洋生态系统服务功能及其价值评估”研究计划。该计划的目标是建立具有我国海洋生态特征,适应我国社会经济发展水平的海洋生态系统服务功能定量模型和服务价值计算方法,并基于GIS技术开发生态系统服务价值评估系统,应用于评估渤海、黄海、东海和南海四大生态系统的服务价值和11个沿海省市区的近海服务价值,同时评估赤潮、病原生物和外来种导致的海洋生态系统服务价值损失,为实现人海和谐的海洋开发产业布局和用海活动提供定量评估技术支持,为基于生态系统的海洋管理提供理论支撑。目前,该计划已经建立了我国海洋生态系统服务功能分类体系、服务功能量化指标和服务价值计算指标体系,完成评估软件系统的设计。 相似文献
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Megan B. Rothenberger Thomas Swaffield Alyssa J. Calomeni Carolyn D. Cabrey 《Estuaries and Coasts》2014,37(3):695-711
Raritan Bay, located between the states of New York and New Jersey, has a long history of cultural eutrophication and associated harmful algal blooms (HABs). Despite striking chemical and biological alterations occurring in Raritan Bay, publications in the early 1960s were the last to report consecutive measurements of both water quality parameters and plankton species composition in this system. The objectives of this study were to characterize water quality trends and plankton composition in a eutrophic estuary, compare current environmental conditions to those documented in Raritan Bay 50 years ago (i.e., at the same six sampling sites), and to further clarify the relationship among nutrients, secondary consumers, and algal bloom generation in this system using ordination techniques. This study (monthly data collected from April 2010–October 2012) indicates that Raritan Bay continues to exhibit numerous symptoms of eutrophication, including high algal biomass, high turbidity, violations of the dissolved oxygen standard to protect fish health, and blooms of potentially harmful phytoplankton species. Altered spatial and temporal patterns for nitrate and soluble reactive phosphorus (SRP) over the past 50 years may suggest new, changing, or expanding sources of nutrients. A total of 14 HAB species have been identified, including Heterosigma akashiwo, which formed a bloom in the upper Raritan Bay during summer 2012 in association with hypoxic conditions. Multivariate analyses indicate that abundance of this species is positively associated with high temperature, salinity, nitrate, and SRP and negatively associated with spring river discharge rates and total zooplankton abundance in Raritan Bay. 相似文献
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The Boughrara Lagoon located in southern Tunisia shows evidence of eutrophication and the deterioration of water quality. The large amount of water shown to exchange tidally between the lagoon and the open sea suggests that while water per se is important and observed eutrophication problems are not caused by a lack of water. Heavy metal concentrations in surface sediments of the lagoon indicate that the ecosystem degradation is most likely related to the discharge of untreated phosphogypsum. Excessive pumping from the local freshwater aquifer that previously supplied freshwater to the lagoon via sub-aquatique fractures is likely to be a significant factor contributing to the water and sediment quality degradation of Boughrara Lagoon. 相似文献