共查询到19条相似文献,搜索用时 171 毫秒
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污损生物是影响贝类养殖业生产效率的重要因素。污损生物不仅附着在养殖网笼上,而且也大量附着在养殖生物的贝壳上。大部分污损生物是滤食性捕食者,这些污损生物与养殖生物竞争食物,氧气与空间导致贝类生长速度减慢,死亡率提高。本实验以大亚湾养殖网笼里的珍珠贝及附着的污损生物为对象,研究有污损生物附着的珍珠贝及没有污损附着的珍珠贝在滤食,耗氧及排泄上的差异,同时对网笼上附着的污损生物优势种的滤食,呼吸及排泄也进行了测定,用以说明污损生物对养殖生物滤食,耗氧和排泄的影响。研究结果表明,有污损附着的珍珠贝及没有污损附着的珍珠贝在滤食率,耗氧率和氮磷排泄率上存在明显差异,有污损附着的珍珠贝的滤食率,NH4-N和PO4-P的排泄率要高于没有污损附着的珍珠贝。同时在网笼上附着的优势污损生物的滤食,耗氧和排泄也不容忽视,他们对食物的滤食,溶氧的消耗及氮磷排泄的贡献也很大。本研究结果表明,不管是附着在养殖生物贝壳上还是附着在网笼上的污损生物与养殖生物之间存在食物及氧气的竞争,污损生物对水中氮、磷浓度的提高贡献也很大,因此在养殖中,污损生物的影响不容忽视。 相似文献
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鲍鱼养殖笼上污损生物的初步研究 总被引:10,自引:0,他引:10
海产贝类在笼内放养一定时间后,近海的一些动物就在养殖笼壁上定居下来,成为污损生物。这些生物在笼壁上占据一定空间 ,在那里运动、摄食、呼吸和排泄等 ,对贝类的生命活动造成一定的影响。郝允碧等1990年指出扇贝养殖笼上有多种污损动物和植物 ;郑东强等1990年指出珍珠贝养殖笼上的污损生物主要是海鞘等 ;曹善茂也研究了扇贝养殖笼上的污损生物 [1];王建军等1996年进行过网箱养殖场污损生物的研究。笼养鲍鱼正在我国沿海一带兴起,但尚未见有关其笼上的污损生物方面的研究报道。本文对这类污损生物的组成和数量进行了初步… 相似文献
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南海盘管虫两新种 总被引:1,自引:0,他引:1
龙介虫科Serpulidae的盘管虫Hydroides是附着生物的主要种类之一,体外有钙质栖管,营附着生活,大量附着在船底,影响航行速度,有的附着在海珍贝类如鲍、珍珠贝、扇贝等的贝壳上,妨碍其正常生长,是经济贝类养殖的敌害。1978年5月和8月,1979年6月我们先后在福建漳浦、东山和广西白龙尾的贝类养殖场,发现在解氏珠母贝Pinctada chemnitzi(Philippi)、杂色鲍Haliotis diversicolor Reeve和华贵栉孔扇贝Chlamys nobilis(Reeve)的贝壳上附着盘管虫属的两个新种,描述如下: 相似文献
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食物生产系统的碳排放占人类活动碳排放总量的 30%, 碳汇渔业是一种重要的面向人类社会高质量食物蛋白质供给 的低碳发展路径。本文基于常见的 11 种养殖贝类的固碳系数和蛋白质含量特性研究,系统评估了我国2019 年养殖牡蛎 、蛤 类、扇贝、贻贝和蚶类等在养殖周期内碳捕集特性以及对低碳发展的贡献。研究表明: (1) 11 种养殖贝类之间贝壳和软体 组织含碳量的差异并不明显,但干重比和出肉率差异显著。因此,贝类固碳量核算不能忽视种类差异。 (2)所选 11 种贝类 软体组织皆属于高蛋白食品,虾夷扇贝软体组织 (干重) 的蛋白质含量最高。针对单位质量贝类养殖,长牡蛎的碳封存贡献 度最大,而华贵栉孔扇贝提供的蛋白质最多,两者都是碳汇渔业的优势种。(3) 据估算,我国2019 年海水养殖贝类中牡蛎、蛤 类 、扇贝和蚶类总共吸收固定了约 117.98 万吨 C02,提供了 40.65 万吨蛋白质 。这些蛋白质相比于牛肉源蛋白质可减少 4 048.74 万吨 C02 当量的排放量。由于贝类固碳强度大,探索低碳可持续的贝类养殖是绿色渔业经济的重要引擎, 也是建立可持续高质量“蓝色粮仓”和生物固碳的重要路径, 将在我国低碳产业发展中发挥重要作用。 相似文献
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贝藻混养生态系统模拟实验研究 总被引:2,自引:0,他引:2
2013年4~6月,在室内采用实验生态学的方法进行了海湾扇贝(Argopecten irradias)和孔石莼(Ulva pertusavar)4种配比模式的混养实验。各实验组扇贝密度均为48只/m3,孔石莼密度分别为55、121、255和338g/m3。每周采样测定水体中营养盐(NH4-N、NO3-N、NO2-N、PO4-P)的含量及养殖生物的生长情况。扇贝与孔石莼的混养实验结果表明,在养殖系统中引入孔石莼可以改善养殖环境,扇贝和孔石莼的适宜混合比例为1︰1(贝肉湿质量:藻类湿质量)能取得较好的生态效应。 相似文献
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烟台市龙口港污损生物生态研究 总被引:1,自引:0,他引:1
于2007年03月22日至2008年03月21日在山东省烟台市龙口港附近海域,进行了为期1年的挂板试验,本次调查共记录该海域污损生物32种,优势种为内枝多管藻(Polysiphonia morrowii)、软丝藻(Ulothrix flacca.)、肠浒苔(Entermorpha intestinalis)、中胚花筒螅(Tubularia mesembryanthemum)等.该海域全年均有污损生物附着,月板平均生物量为525.18 g/m2,5-11月的生物附着量较高,最高值出现在7月;季板平均生物量为1569.39 g/m2,生物群落的种类组成和生物量变化明显,其中秋季板生物量最高,龙口海域污损生物的附着种类受季节性水温变化的影响比较明显,藻类开始附着的温度低于动物.4个季度污损生物的种群多样性指数(H忆)春季最高,均匀度指数(J)和种群丰富度指数(M)则夏季最高.统计分析表明,龙口港海域污损生物群落可大致划分为 4个组群,秋季附着的污损生物代表了试验海域的主要特征,同时揭示出污损生物附着季节、演替时间长短等是影响群落种类组成的重要因素 相似文献
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From June 1984 to May 1985, monthly and seasonal panel tests of fouling organisms were carried out on rafts at Tuoji Island. Seventy - three species were obtained. The occurring frequencies of the following species are all at least 30%: Ectocarpus confervoides, Polysiphonia urceolata, Tubularia mesembryanthmum, Cfytia edwardsi, Tubulipora pulchra, Celleporella hyalina, Mytilus edulis, Hiatella arctica, Caprella acanthogaster, Corophium crassicome, Jassa cf.falcata and Podocerus cf . inconspicuus. Large or calcareous species are not dominant ones. The wet weight is comparatively light, the yearly wet weight being 9.12 kg m-2. Attaching seasons of major species are from June to October and no bio - attachment occurs between January and April. Fouling organisms at Tuoji Island differ rather greatly from those in the harbours along the continental coast, showing the charcteristics of fouling organisms in the northern island harbours of China. 相似文献
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东海西南近岸海域污损生物群落特征 总被引:3,自引:0,他引:3
于2013年12月~2014年11月在东海西南近岸海域进行污损生物周年挂板试验,全年共记录污损生物10门49科69属84种,群落组成以近岸暖水种为主,为典型的亚热带内湾型群落,附着盛期为4–9月,夏季污损生物的附着强度最高。固定生活类型的悬浮物食者是该近岸海域污损生物群落的附着主体,网纹藤壶(Amphibalanus reticulatus)是最主要的优势种和代表种,其它优势种还有长鳃麦杆虫(Caprella equilibra)、中胚花筒螅(Ectopleura crocea)、太平洋侧花海葵(Anthopleura nigrescens)、今岛柄涡虫(Stylochus ijimai)、克氏无襟毛虫(Spirobranchus kraussii)、近江牡蛎(Crassostrea rivularis)、翡翠贻贝(Perna viridis)、廉形叶钩虾(Jassa falcata)、强壮板钩虾(Stenothoe valida)、光辉圆扇蟹(Sphaerozius nitidus)和大室别藻苔虫(Biflustra grandicella)等。污损生物群落个体间因附着空间和食物竞争而存在着相互依存或互相制约的关系,又依照对环境因子的适应性而存在着一定的时空分布规律。温度是决定污损生物地理分布的最主要环境因素,物种的温度属性是不同气候带污损生物群落组成差异的本质体现,污损生物的种类数、附着期和附着量与水温有着密切的关系;另外,盐度、水流、光、水产养殖等自然环境或人为因素也是影响污损生物附着的重要影响因子。 相似文献
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本文根据1984年3月至1985年2月在厦门港中挂放杉木、松木和柯木试板,研究该港船蛆Teredo navalis数量的时空变化,并讨论了不同污损生物、水温、盐度等对船蛆密度的影响。 相似文献
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Monthly and seasonal panel experiments were carried out in the Yongxing Island from September 1979 to August 1981. Altogether 119 species of fouling organisms are collected, of which, Hydroides elegans, Serpula vermicular is, Scrupocellaria longispinosa, Amathia distant, Enteromorpha spp. and Ostrea spp. are dominant species. Fouling of organisms may occur all the year round with evident seasonal variations, Species succession in the process of community formation is very evident and the climax has arrived after two years. Great variation exists between fouling organisms in different years and at different stations. 相似文献
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Besides exercising grazing control over phytoplankton populations, suspension-feeding bivalves can also stimulate carrying capacity by regeneration of nutrients. This study provides new data on nutrient uptake and release dynamics, and potential implications for availability and stoichiometry of nutrients, for Mytilus edulis spat collectors in the Netherlands. Uptake and release rates were measured in situ on intact spat collector ropes in a eutrophic macrotidal system in relation to development of ropes in terms of mussel biomass and associated components (fauna, flora, and organic material).There was a good fit between uptake/release rates and mussel weight based on allometric scaling functions, despite the occurrence of a substantial biomass of associated fauna, flora and organic matter on ropes. On a unit biomass basis, nutrient release rates were much higher than reported in other studies, which we attribute to greater activity of small mussels. Accounting for greater weight-specific activity of small mussels, spat collectors released more P than reported for other systems. We show that spat collectors can affect relative availabilities of N, P and Si, and we show that SMCs (Seed Mussel Collectors) likely stimulated phytoplankton production through regeneration of N and of Si, which were at limiting concentrations at different points in time. In the case of Si, stimulation would be restricted to diatoms. We conclude that SMCs are able to stimulate phytoplankton production rates, and thereby carrying capacity, and are able to influence phytoplankton composition. 相似文献
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Phytoplankton growth rates and mortality rates were experimentally examined at 21 stations during the 2017 spring intermonsoon(April to early May) in the northern and central South China Sea(SCS) using the dilution technique, with emphasis on a comparison between the northern and central SCS areas which had different environmental factors. There had been higher temperature but lower nutrients and chlorophyll a concentrations in the central SCS than those in the northern SCS. The mean rates of phytoplankton growth(μ_0) and microzooplankton grazing(m) were(0.88±0.33) d~(–1) and(0.55±0.22) d~(–1) in the central SCS, and both higher than those in the northern SCS with the values of μ_0((0.81±0.16) d~(–1)) and m((0.30±0.09) d~(–1)), respectively.Phytoplankton growth and microzooplankton grazing rates were significantly coupled in both areas. The microzooplankton grazing impact(m/μ_0) on phytoplankton was also higher in the central SCS(0.63±0.12) than that in the northern SCS(0.37±0.06). The microzooplankton abundance was significantly correlated with temperature in the surface. Temperature might more effectively promote the microzooplankton grazing rate than phytoplankton growth rate, which might contribute to higher m and m/μ_0 in the central SCS. Compared with temperature, nutrients mainly affected the growth rate of phytoplankton. In the nutrient enrichment treatment,the phytoplankton growth rate(μn) was higher than μ_0 in the central SCS, suggesting phytoplankton growth in the central SCS was nutrient limited. The ratio of μ_0/μn was significantly correlated with nutrients concentrations in the both areas, indicating the limitation of nutrients was related to the concentrations of background nutrients in the study stations. 相似文献
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Phytoplankton physiologies are dynamic and have sensitive responses to the ambient environment. In this paper,we examine photosynthetic physiologies of phytoplankton communities with Phyto-PAM in the eastern equatorial Indian Ocean during the spring inter-monsoon. Environmental parameters were measured to investigate the coupling between phytoplankton photosynthetic physiologies and their habitats. During the cruise, the water column was highly stratified. The mixed layer extended to about 75 m and was characterized by high temperature(28°C) and low nutrient level. The F_v/F_m values and chlorophyll a(Chl a) concentrations were lower at the surface, as consequences of nutrient depletion and photo-inhibition. Subsurface Chl a maximum(SCM) occurred between 75 and 100 m, and had the highest F_v/F_m values. The formation of SCM was a balance between nutrient availability and light limitation. The SCM may contribute significantly to pelagic food web and primary production in the water column. Phytoplankton in different layers encountered different light, trophic and hydrographic dynamics and evolved distinct photosynthetic characteristics. Despite of co-limitation of nutrient limitation and photo-inhibition, phytoplankton in the surface layer showed their acclimation to high irradiance, had lower light utilization efficiencies(α: 0.061±0.032) and could exploit a wide range of light irradiance. Whereas, phytoplankton in the SCM layers presented the highest light utilization efficiencies(α:0.146±0.48), which guaranteed higher photosynthetic capacities under low light level. These results provide insights into phytoplankton photo-adaption strategies in this less explored region. 相似文献