饲料投喂及清淤对养殖库湾水环境的影响

为探究缩减饲料投喂量及清淤对养殖库湾水环境的影响,在鲢、鳙放养密度均为20 g/m~3的基础上,设置4个处理组库湾,分别为B1(不清淤、饵料投喂减半)、B2(清淤、不投饵)、B3(清淤、饵料投喂减半)和B4(不清淤、饵料投喂正常),实验周期为9个月。结果显示:4个库湾的总氮浓度、总磷浓度、高锰酸盐指数、藻类生物量从低到高分别为B2、B4、B1、B3,B2、B1、B4、B3,B2、B1、B4、B3,B2、B1、B3、B4(P0.05),浮游动物生物量之间无显著性差异(P0.05)。由此可见,B2无论是在营养盐的控制还是在藻类的控制方面均取得了最佳的效果。作为养殖库湾,其主要功能是得到更高的鱼产量。在达到养殖水质要求的情况下,为了得到更高的鱼产量,应合理地利用饵料。因此,对于养殖用水的处理,要根据具体的水质条件,采用合理的修复方式,实现水质改善和养殖生产的双赢。     

高密度黄颡鱼—鳙养殖池塘浮游生物种群与理化因子的变化研究

以高密度的黄颡鱼(Pelteobagrus fulvidraco)-鳙(Aristichthys nobilis)分隔养殖池塘为研究对象,分析养殖期间(2013年4月—10月)池塘浮游生物和水体理化因子的变化情况。结果显示,池塘水体温度、p H、DO和总氮指标在养殖期间存在显著差异(P0.01)。Duncan's多重比较显示,温度在6—8月显著高于其他时间(P0.05);总氮在7—9月的含量显著升高(P0.05);氨氮和亚硝态氮在8—10月的含量明显升高(P0.05)。池塘浮游生物的变化表现为:枝角类和桡足类物种数随养殖时间的延长而逐渐减少,其中秀体溞属(Diaphanosoma)占优势;轮虫物种数呈上升趋势,其中臂尾轮虫属(Brachionus)占优势;原生动物物种数在各月份之间差异不明显,以球吸管虫属(Sphaerophrya)为优势种;藻类物种数呈先上升再下降的趋势,其中绿藻门(Chlorophyta)种类占优势,其次为裸藻门(Euglenophyta)种类。基于Dice相似系数的UPGMA聚类和Pearson相关系数的MDS排序均显示池塘水体中浮游生物群落在整个养殖期间可分为2大类,4、5、6、7月各样本聚在一起,8、9、10月各样本聚在一起,表现为前4个月(4—7月)相似性高,而后3个月(8—10月)相似性高;说明池塘浮游生物的群落结构随养殖时间延续发生了改变。     

四明湖水库浮游生物现状调查及评价

2006-2007年分4次对余姚四明湖水库水质理化指标、浮游生物群落结构进行了调查,并进行了多样性指数分析及渔产潜力估算。结果表明,四明湖水库浮游植物种类共计8门、47种（属）,其中以绿藻为最优势类群,占总密度的36.2%;浮游动物共计3大类、30种,其中原生动占40%;浮游植物年均生物量为10.20mg/L,浮游动物年均生物量2.36mg/L。从水体理化指标数据来看,四明湖水库水质属于II～IV类;从浮游植物群落结构和多样性指数分析结果来看,水库属于富营养水平;根据相关公式估算四明湖水库的鱼产潜力为20     

A model‐based meso‐zooplankton production index and its relation to the ocean survival of juvenile coho (Oncorhynchus kisutch)

The ocean survival of coho salmon (Oncorhynchus kisutch) off the Pacific Northwest coast has been related to oceanographic conditions regulating lower trophic level production during their first year at sea. Coastal upwelling is recognized as the primary driver of seasonal plankton production but as a single index upwelling intensity has been an inconsistent predictor of coho salmon survival. Our goal was to develop a model of upwelling‐driven meso‐zooplankton production for the Oregon shelf ecosystem that was more immediately linked to the feeding conditions experienced by juvenile salmon than a purely physical index. The model consisted of a medium‐complexity plankton model linked to a simple one‐dimensional, cross‐shelf upwelling model. The plankton model described the dynamics of nitrate, ammonium, small and large phytoplankton, meso‐zooplankton (copepods), and detritus. The model was run from 1996 to 2007 and evaluated on an interannual scale against time‐series observations of copepod biomass. The model’s ability to capture observed interannual variability improved substantially when the copepod community size distribution was taken into account each season. The meso‐zooplankton production index was significantly correlated with the ocean survival of hatchery coho salmon from the Oregon production area, although the coastal upwelling index that drove the model was not itself correlated with survival. Meso‐zooplankton production within the summer quarter (July–September) was more strongly correlated with coho survival than was meso‐zooplankton production in the spring quarter (April–June).     

温排水对围隔生态系统各粒级海洋浮游生物的影响

为了评价电厂温排水对海洋浮游生态系统的影响，2010年10月5日—11日于象山港宁海国华电厂附近海域，根据该海域表层海水温度的变化梯度设计围隔实验，测定围隔中各粒级海洋浮游生物生物量(B)，呼吸率（R）和初级生产率(P)以及浮游生态系统的总初级生产量与总呼吸量的比值(TPP/TR)和周转率。分析结果表明,在25.20～26.40 ℃，0.25 ℃的温升对各粒级浮游生物的B，R和P的影响均不明显，0.52 ℃的温升对小型和微型浮游生物的R和P均有一定的促进作用，但对B的影响均不明显，对微微型浮游生物的B，R和P的影响不明显；在25.20～26.40 ℃，0.52 ℃的温升使该浮游生态系统的TPP/TR和周转率分别提高了1.2倍和1.5倍。本研究为评价温排水对海洋生态系统的影响提供了一定依据。     

应用DGGE技术研究扇贝养殖海域微型真核浮游生物多样性

为了研究扇贝养殖海区微型真核浮游生物群落多样性,明确养殖扇贝发病时期高丰度微型真核浮游生物种类,探讨微型真核浮游生物与栉孔扇贝急性病毒性坏死病毒(acute viral necrosis virus,AVNV)水平传播的可能关系。于2009年和2010年从青岛流清河湾扇贝养殖海区采集了9个月份的海水样品,经25和3 μm的滤膜过滤收集海水中3~25 μm的浮游生物,扩增18S rDNA可变区序列,并利用变性梯度凝胶电泳(denaturing gradient gelelectrophoresis,DGGE)技术对扩增序列进行分离以分析微型真核浮游生物多样性。结果表明,该养殖海区微型真核生物包括甲藻、纤毛虫、眼虫、定鞭藻、硅藻、盘蜷虫、隐藻、领鞭毛虫、变形虫和Cercozoan,其中甲藻类和纤毛类生物的最高相对丰度分别达41.0%和38.2%,是海区的优势种类。各月份DGGE谱带聚类分析结果表明,2009年6、7、8、9月份浮游生物群落组成较为相似。中肋骨条藻在扇贝发病前后均有分布。结合相关扇贝AVNV已有的研究结果,研究认为中肋骨条藻是AVNV水平传播的参与者之一,但海区中广泛分布的甲藻和纤毛虫与AVNV传播的关系还有必要进一步研究。     

Initial influence of fertilizer nitrogen types on water quality

Using different sources of nitrogen as fertilizers in nursery ponds may affect water quality and plankton responses. We evaluated water quality variables and plankton population responses when using different nitrogen sources for catfish nursery pond fertilization. We compared calcium nitrate (12% N), sodium nitrite (20% N), ammonium chloride (26% N), ammonium nitrate (34% N) and urea (45% N) in 190‐L microcosms at equimolar nitrogen application rates. Sodium nitrite‐fertilized microcosms had higher nitrite and nitrate levels during the first week; no other differences in the water quality were detected among fertilizer types (P>0.05). No differences in green algae, diatoms or cyanobacteria were detected among treatments; desirable zooplankton for catfish culture was increased in urea‐fertilized microcosms. Based on these results, any form of nitrogen used for pond fertilization should perform similarly without causing substantial water quality deterioration. Ammonium nitrate and urea contain a higher percentage of nitrogen, requiring less volume to achieve dosing levels. If both urea and ammonium nitrate are available, we recommend using the one with the least cost per unit of nitrogen. If both types of fertilizer have an equal cost per unit of nitrogen, we recommend using urea because of the potential advantage of increasing desirable zooplankton concentrations.     

Natural Food Selectivity Changes with Weights of Nile Tilapia,Oreochromis niloticus (Linnaeus), Reared in Fertilized Earthen Ponds

This work was carried out to study the relationship between fish weight and natural food selectivity of Nile tilapia, Oreochromis niloticus (Linnaeus) reared in earthen ponds without supplementary diet and to guide the adaptation of feeding and fertilization strategies. Fish were stocked (1.5 fish/m²) in four fertilized earthen ponds (0.1 ha) for 6 months. Fifty fish were sampled monthly to estimate individual total weight and length and evaluate stomach contents. Fish specimens were categorized into different weight classes: <25 g, 25–50 g, 50–75 g, 75–100 g, and 100–125 g. Overall, the 50–75 g weight class had the highest degree of stomach fullness. The intestinal length-fish length ratio was similar across all fish weights, ranging from 2.9–3.4. Likewise, the composition of food items found in fish stomach was ranked as phytoplankton > detritus > zooplankton. Phytoplankton contribution to gut content increased with increasing fish weight, while detritus and zooplankton contribution decreased. Zooplankton never exceeded 1% of total stomach contents. Cyanobacteria, Chlorophyceae, Bacillariophyceae and Euglenophyceae mostly represented the phytoplankton. Bacillariophyceae dominated the phytoplanktonic portion of stomach contents at small fish size (<75 g/fish), while Chlorophyceae is the dominant group at large fish size (> 75 g/fish). Fish could select Cyanobacteria and Euglenophyceae at all fish weights, meanwhile Chlorophyceae and Bacillariophyceae were eaten with slight selectivity at larger weights..     

Measuring copepod abundance in deep‐water winter habitats in the NE Norwegian Sea: intercomparison of results from laser optical plankton counter and multinet

The main purpose of this study was to assess the usefulness of the laser optical plankton counter (LOPC) as a Calanus finmarchicus monitoring tool in the NE Norwegian Sea in winter. To test this, a multinet and an LOPC were used simultaneously to sample overwintering copepods in the Lofoten basin in January 2007. Additional data from an LOPC laboratory experiment were also analyzed to help the interpretation of the field data. Both the laboratory data and the field data indicated that the presence of particles other than zooplankton generally contaminated the zooplankton signal in the LOPC data. However, reliable abundance estimates could be made from the LOPC data by choosing an appropriate size range in the LOPC size distribution. This size range was determined by comparing LOPC abundance estimates from systematically varying size ranges to multinet zooplankton abundance data. The average difference was smallest for a size range of about 900–1500 μm. As C. finmarchicus, stages IV and V, was by far the most abundant species in the NE Norwegian Sea, abundance estimates from the LOPC in this size range were in practice estimates of C. finmarchicus abundance, making the LOPC suitable as a tool for providing high resolution winter data in the NE Norwegian Sea.