水产致病性嗜水气单胞菌耐药性比较与分析

对15株分离自甲鱼、草鱼、鲫鱼、石蛙、团头鲂和三角鲂的嗜水气单胞菌,用K-B纸片法对18种抗生素进行药敏试验后,用NCCLS标准进行判断,结果输入WHONET5.4耐药监测软件,比较15株菌的耐药水平及18种抗生素的耐药率,并对四环素和强力霉素表现出来的交叉耐药性进行分析,结果表明,15株嗜水气单胞菌耐药现象较为严重,恩诺沙星、四环素、强力霉素和利福平耐药率均超过40%,WHONET5.4散点图表明四环素和强力霉素有较为密切的交叉耐药现象。     

C/N ratio control and substrate addition for periphyton development jointly enhance freshwater prawn Macrobrachium rosenbergii production in ponds

The present research investigated the effect of carbon/nitrogen ratio (C/N ratio) control in ponds with or without substrate addition for periphyton development on production of giant freshwater prawn. C/N ratios of 10, 15 and 20 were investigated in 40 m^− 2 ponds stocked with 2 prawn juveniles (5.023 ± 0.02 g) m^− 2 with or without added substrates for periphyton development. The various treatment combinations of C/N ratio and periphyton substrate addition are abbreviated as ‘CN10’, ‘CN15’, ‘CN20’, ‘CN10 + P’, ‘CN15 + P’ and ‘CN20 + P’, P representing periphyton substrate. A locally formulated and prepared feed containing 30% crude protein with C/N ratio10 was applied. Tapioca starch was used as carbohydrate source for manipulating C/N ratio and applied to the water column separately from the feed. Increasing the C/N ratio from 10 to 20 reduced (P < 0.001) the total ammonia-nitrogen (TAN), nitrite–nitrogen (NO₂–N) and nitrate–nitrogen (NO₃–N) in water column and total Kjeldahl nitrogen (TKN) in sediment. The addition of substrates only influenced the NO₂–N concentration in the water column (P < 0.001). Increasing the C/N ratio raised the total heterotrophic bacterial (THB) population in the water column, sediment and periphyton (P < 0.001). It also increased the dry matter (DM), ash free dry matter (AFDM), and chlorophyll a content of periphyton (P < 0.001). The lowest specific growth rate (SGR), the highest food conversion ratio (FCR), and the lowest protein efficiency ratio (PER) were recorded in treatment CN10 (P < 0.05). The addition of substrates did not influence size at harvest (P > 0.05) but improved the survival from 62.8 to 72% (P < 0.001). Increasing the C/N ratio from 10 to 20 increased the net yield by 40% and addition of substrate increased the net yield by 23%. The combination of C/N ratio control and substrate addition increased the net yield by 75% from 309 (CN10) to 540 (CN20 + P) kg ha^− 1 (120 days)^− 1. This 75% higher production concurred with (1) a lower inorganic nitrogen content in the water column, (2) a higher THB abundance supplying additional single cell protein to augment the prawn production, and (3) an improved periphyton productivity and quality.     

2013年春季莱州湾海域理化环境及水质状况分析

依据2013年6月对莱州湾海域的调查资料,分析了该海域盐度(S)、pH、溶解氧(DO)、化学耗氧量(COD)、溶解无机氮(DIN)和活性磷酸盐(PO4-P)等理化因子的分布特征,并采用潜在性富营养化评价模式和有机污染指数分别对该海域的营养水平和有机污染状况进行了评价。结果显示,2013年春季莱州湾所有站位溶解氧、化学耗氧量均符合Ⅰ类海水水质标准;DIN污染严重,31%站位的DIN含量超Ⅳ类海水水质标准;PO4-P含量较低,所有站位PO4-P含量均符合Ⅰ类海水水质标准。由评价结果来看,2013年春季莱州湾海域N/P比值总体处于高值,P相对缺乏,营养水平处于磷限制潜在性富营养(ⅥP)水平,有机污染程度属于Ⅱ级,表明该调查海域开始受到有机污染,但有机污染程度轻于2007年夏季。     

C、N、P比例对2株盐藻生长和生化组成的影响

采用正交设计法研究了C、N、P比例对2株盐藻OUN04和OUN05生长、β-胡萝卜素积累、叶绿素a合成、脂肪酸组成、蛋白质含量的影响。试验结果表明,适当调节C、N、P比例可以促进盐藻OUN04生长、β-胡萝卜素积累、叶绿素a合成,盐藻OUN04最大细胞密度114.2×104个/ml、β-胡萝卜素最大含量100.4 mg/g、叶绿素a最高含量144.6 mg/g分别出现在C、N、P比例为12∶1∶0.05、12∶2∶0.1、12∶1∶0.05的处理组中,且均与对照组差异显著;适当调节C、N、P比例也可以提高盐藻OUN04脂肪酸和蛋白质含量。盐藻OUN05细胞最大密度101.2×104个/ml、β-胡萝卜素最高含量109.2 mg/g、叶绿素a最高含量108.7 mg/g分别出现在C、N、P比例为6∶2∶0.05、6∶0.5∶0.1、12∶2∶0.1的处理组中,且均与对照组差异显著;最大蛋白含量34.41%出现在6∶1∶0.05的处理组中,但与对照组(33.17%)差异不显著。     

磷对坛紫菜孢子囊枝形成的影响

主要研究了不同浓度、不同形式的磷源（磷酸二氢钾、磷酸氢二钾和甘油磷酸钠）对坛紫菜（Porphyra haitanensis）孢子囊枝形成的影响，以及丝状体对磷的利用情况。结果表明，氮磷比在2／1左右时有利于孢子囊枝形成；无机磷酸盐比有机磷酸盐更能促进坛紫菜孢子囊枝形成；当N，P为10／1、7／1和2／1时，磷吸收速率随该比值下降而上升；磷起始浓度过高不利于丝状体的生长发育，有规律地适量添加磷盐有利于坛紫菜孢子囊枝的形成。     

Yield and Economic Efficiency of Green Water in Combination with Supplemental Feeds for Artemia Production in Vietnamese Salt Ponds

We evaluated the combined effects of different green water sources and feed supplements on Artemia biomass production and economic efficiency. A two-factor experiment was set up with two green water types produced from the ratios of nitrogen and phosphorus (N:P = 5 and N:P = 10) in combination with two types of supplemental feed (rice bran or pig manure). After 12 weeks of culture, total Artemia biomass yield with the N:P = 5 treatment (2.29 ton ha^?1 crop^?1) was 14% higher than that with the N:P = 10 treatment (1.97 ton ha^?1 crop^?1), although this difference was not significant (P > 0.05). There was no significant interaction between green water and supplemental feeding treatments for the final yield of Artemia biomass. Comparative cost-benefit analysis showed that the treatment of N:P = 5 combined with pig manure attained a significantly higher net profit and cost/benefit ratio than the other treatments.     

The effect of different carbon sources on the nutritional value of bioflocs,a feed for Macrobrachium rosenbergii postlarvae

A 15‐day lab‐scale experiment was performed to determine the possible use of bioflocs as a feed for Macrobrachium rosenbergii postlarvae. The bioflocs were grown on acetate, glycerol and glucose. A glycerol‐fed reactor was initially inoculated with a Bacillus spores mixture. The highest protein content was obtained in the (glycerol+Bacillus) bioflocs, i.e. 58±9% dry weight (DW). The glycerol and acetate bioflocs showed a lower, but similar content (42–43% DW) and glucose bioflocs contained 28±3% DW. Higher total n‐6 fatty acid contents were observed in the glycerol and (glycerol+Bacillus) bioflocs. The vitamin C content was variable, up to 54 μg ascorbic acid g^?1 DW in the glycerol bioflocs. Bioflocs were fed to M. rosenbergii postlarvae as the sole feed. High survival levels were obtained in the (glycerol+Bacillus) and glucose groups, i.e. 75±7% and 70±0% respectively. This was significantly higher than the starvation control (0% survival after 15 days). This indicated that the prawns were able to feed on the bioflocs. These results are in accordance with the biofloc's nutritional parameters and suggest that the choice of the carbon source used for growing bioflocs is of prime importance.     

碳源及C/N对反硝化细菌净化循环养殖废水的影响

针对目前循环养殖废水水质处理过程中存在脱氮碳源不足的问题,本文以高NO3--N降解能力和低NO2--N积累量为碳源优化指标,研究了乙醇、丙三醇、葡萄糖、蔗糖、乙酸钠和酒石酸钾钠6种碳源及不同碳氮比（C/N）对复合菌群净化循环养殖废水效果的影响。试验结果显示,不同碳源及C/N对养殖废水的NH4 -N去除率并无显著差异,且各处理组的NH4 -N去除率高达98%左右,显著地高于对照组（p<0.05）;当以葡萄糖、蔗糖等糖类物质为外加碳源时,试验过程中有明显的NO2--N积累现象;当以醇类物质为外加碳源时,NO2--N积累量几乎为零,且NO3--N去除率高达90%左右,显著地高于对照组（58.96%）;特别是以乙醇为外加碳源且C/N为3.0时,复合菌群对养殖废水的TN、NH4 -N和NO3--N去除率分别高达93.28%、98.90%和91.82%。虽然外加碳源短期内会引起水体CODMn含量大幅升高,但可被反硝化细菌迅速降解;此外,外加碳源还能改善水体pH值,经处理组净化后的水体pH值维持在7.5左右。试验结果表明,循环养殖废水水质净化过程中添加相应的碳源及并适当控制C/N比能显著改善池水水质,提高生物脱氮效率。     

规模化浅海养殖水域沉积作用的初步研究

从2001年9月到2002年7月底分5个阶段,使用沉积物捕获器在桑沟湾养殖海区的扇贝区、牡蛎区和海带区进行自然沉积作用的研究。通过对收集的沉积物进行分析,估算该养殖海区的总氮和总磷由海水到海底的通量。估算结果显示,该海区颗粒物质的年平均沉积速率为278.8g/(m2·d),而每克颗粒物质则携带了190.4μg总氮、472.5μg总磷和0.103g有机物质沉入海底。沉积物的总氮和总磷含量显示了较明显的季节性变化。总氮的峰值出现在5月(春季),最低值出现在12月(冬季)。而总磷含量在12月显著高于5月和7月时段。分析表明,下沉的颗粒物质的氮磷摩尔比为0.67～2,而底泥的氮磷摩尔比为0.025～2。研究结果为桑沟湾沿岸海域氮磷营养盐的通量建模提供了重要参数,并为养殖水域环境容量的研究提供了依据。     

头足类角质颚的色素沉积机制

角质颚是头足类重要的摄食器官,其表面具有特殊的色素沉积。为了探明角质颚色素的沉积机理,本研究分析了角质颚色素沉积程度不同的3种头足类(剑尖枪乌贼、茎柔鱼、曼氏无针乌贼),以及茎柔鱼角质颚色素沉积程度不同部位(喙部、侧壁、翼部)的主要化学成分和碳氮稳定同位素比。结果显示,茎柔鱼角质颚不同部位的蛋白质与儿茶酚含量为喙部>侧壁>翼部,而C/N比值为翼部>侧壁>喙部;3种头足类角质颚中蛋白质与儿茶酚含量为曼氏无针乌贼>茎柔鱼>剑尖枪乌贼,而C/N比值为剑尖枪乌贼>茎柔鱼>曼氏无针乌贼。茎柔鱼角质颚各部位壳聚糖含量与C/N值呈显著正相关,各部位蛋白质含量与C/N值呈显著负相关;3种头足类角质颚C/N随壳聚糖含量增大而增大,C/N随蛋白质含量增大而减小。角质颚C/N增大,则几丁质含量高,蛋白质含量低,对应色素沉积变浅;C/N减小,则几丁质含量低,蛋白质含量高,对应色素沉积变深。研究表明,蛋白质与几丁质含量的高低决定角质颚色素沉积的深浅,这一结论为研究头足类种间食性差异以及个体发育期食性转变提供了基础。     

水文分异条件下光养生物膜藻类对氮/磷的响应

光养生物膜是河流生态系统中重要的初级生产者,在河流生物地球化学循环中扮演重要角色。然而,河流水文状态及营养盐差异引起的生境异质性对光养生物膜藻类的影响未知。本研究在微型跑道池模拟流水(0.5 m/s)和静水(0 m/s)条件的基础上,通过设置不同浓度氮(1.51, 2.51和5.51 mg/L)、磷(0.1, 0.2和0.4 mg/L)及氮磷比(8, 16和32)条件培养野外采集的原位生物膜及人工基质,探究水文分异和营养变化对河流光养生物膜藻类物种组成及密度的影响。非度量多维排序(NMDS)分析结果表明,差异水文条件下,原位和建群生物膜藻类群落在梯度氮、磷和氮磷比环境中均呈现明显分离(PERMANOVA,P < 0.001),且建群生物膜中各分组藻类群落具有更明显的差异。双因素方差分析结果表明,生物膜中硅藻、蓝藻和绿藻的生长对营养盐与水文变化的响应并不一致,其中磷处理中,磷与流速单一及其交互效应显著影响了大多数藻类的生长及建群(P < 0.001);而氮处理中,氮与流速的交互效应仅对建群生物膜藻类影响显著(P < 0.001)。研究结果也发现,藻类在静水环境更有利于建群生物膜的形成,且静水-高营养盐环境更有利于蓝藻和绿藻的生长。这些结果说明,生物膜建群初期易受到水文扰动的影响,且水文分异和氮、磷影响了光养生物膜藻类的响应模式,研究为河流生态保护提供了新视角。     

旧镇湾海水中营养盐分布与富营养化的研究

根据2007年3月到2008年1月旧镇湾海域11个航次海水营养盐等的调查资料,分析了该海域生态环境中DIN和DIP的分布特征和时空变化,评价了水质富营养化状况。结果表明,旧镇湾DIN平均含量为0.283mg/L,以NO3-N为主要存在形式,占DIN的77.7%。旧镇湾DIP平均含量为0.023mg/L。旧镇湾海水5、7月份N/P比远远高于16,表明旧镇湾海水中磷相对于氮是匮乏的。8月份为最低,仅为4.84,其他月份N/P比平均值为11.98,略低于16,说明旧镇湾海水中氮相对供应不足。DIN和DIP变化趋势为旧镇湾内向湾外逐渐递减,与盐度分布呈负相关性。与历史资料相比,旧镇湾水质有明显改善,但仍具富营养化趋势。从春季到冬季,旧镇湾富营养化面积逐渐增加,秋季富营养化程度远高于其他季节,富营养化程度从湾内向湾外逐渐降低。     

Spent brewer's yeast as a replacement for fishmeal in diets for giant freshwater prawn (Macrobrachium rosenbergii), reared in either clear water or a biofloc environment

A 90‐day feeding experiment was conducted in order to test spent brewer's yeast as a replacement for fishmeal in diets for giant freshwater prawn (Macrobrachium rosenbergii) reared in either a recirculating aquaculture system (RAS) or a biofloc system. Triplicate groups, each of 20 prawn (6.7 ± 0.03 g), were randomly assigned to 24 identical tanks. Twelve tanks were connected to the RAS, and the other 12 tanks were connected to the biofloc system which were initially supplemented with Bacillus subtilis, molasses and blood meal to achieve a C:N ratio of 20:1. Four iso‐nitrogenous (350 g/kg) and iso‐energetic (19 MJ/kg) diets where 0%, 20%, 40% and 60% of fishmeal protein was replaced by spent brewer's yeast. Neither growth nor survival was affected (p > 0.05) by increasing levels of brewer's yeast. The exception, being fish given 60% replacement with brewer's yeast, reared in biofloc, which displayed a higher (p < 0.05) growth than fish given 40% replacement, reared in clear water. The feed conversion ratio of prawn reared in the biofloc environment was lower than in the clear water. We concluded that spent brewer's yeast represents a possible 60% substitute for fishmeal in giant freshwater prawn diets, especially for prawn reared in a biofloc environment.     

pH和氮磷比对微小原甲藻和青岛大扁藻生长竞争的影响

为探讨pH和氮磷比对青岛大扁藻(Tetraselmis helgolandica)和微小原甲藻(Prorocentrum minimum)生长竞争的影响,本研究首先根据对虾养殖水体pH值的范围设置了7.5,8.0,8.5和9.0共4个pH梯度,获得了青岛大扁藻抑制微小原甲藻的最佳pH;在该pH条件下,设置了氮磷比分别为3:2(高富磷组),6:1(富磷组),24:1(对照组)和96:1(富氮组)等4个梯度,其中,单种培养体系中只接种青岛大扁藻或者微小原甲藻,混合培养体系中同时按照1:1的比例接种青岛大扁藻和微小原甲藻。结果表明,混合培养体系中,青岛大扁藻在pH 8.5和pH 9.0时,出现拐点时间最晚,均为7 d;而微小原甲藻在pH 8.5和pH 9.0时,出现拐点时间最早,均为3 d。pH 8.5时青岛大扁藻对微小原甲藻的竞争抑制参数最大,青岛大扁藻抑制微小原甲藻的最佳pH为8.5。单种培养体系中,微小原甲藻拐点出现的时间在高富磷组、对照组和富氮组中均晚于青岛大扁藻;混合培养体系中,对照组中微小原甲藻和青岛大扁藻拐点出现时间分别为4 d和3 d,而其他处理组2种微藻拐点出现的时间分别相同。氮磷比影响混合培养中2种微藻的竞争抑制参数,其中,96:1(富氮组)中拐点之后青岛大扁藻对微小原甲藻的竞争抑制参数(α)的平均值为9.2063,微小原甲藻对青岛大扁藻的竞争抑制参数(β)为3.4886。以上研究表明,对虾养殖水体中,青岛大扁藻抑制微小原甲藻的最佳条件是:pH为8.5,氮磷比为96:1。     

Determination of optimal feeding rates for juvenile lake sturgeon (Acipenser fulvescens) fed a formulated dry diet

Two 3‐week growth trials were performed to determine the optimum feeding rate of juvenile lake sturgeon (Acipenser fulvescens) fed with a semi‐purified dry diet (protein, 440 g; lipid, 130 g/kg) at different feeding rates: 5, 10, 20, 30, and 40 g/kg body weight per day (BW/.d‐1), for 36 g‐sized fish; and 2.5, 5, 10, 20, and 30 g/kg BW/.d‐1, for 80 g sized fish. Feeding rates significantly influenced growth performances, feed conversion ratio, wholebody lipid and moisture contents, energy and protein retention, and fasted blood glucose levels (p < 0.05). The ratio of total C/total N measured in whole fish was positively correlated to the feeding rates and the lipid contents of whole fish. Suboptimal feeding significantly depressed growth performance and protein synthesis based on the measurement of RNA/DNA ratio in white muscle. Based on polynomial regression models, an optimal feeding rate to support the maximum growth, protein and energy retention was 34.5, 22 and 27.3 g/kg BW/.d‐1, respectively, for fish sized at 36–72 g; and 29.0, 16.9 and 19.9 g/kg BW/.d‐1, respectively for fish sized at 80–140 g. Results of this study will benefit future research to develop practical feeds to replace frozen live feed and feed management for lake sturgeon.     

Effects of C/N ratio and periphyton substrates on pond ecology and production performance in giant freshwater prawn Macrobrachium rosenbergii (De Man, 1879) and tilapia Oreochromis niloticus (Linnaeus, 1758) polyculture system

The production performances of giant freshwater prawn Macrobrachium rosenbergii and Nile tilapia Oreochromis niloticus in C/N‐controlled periphyton‐based polyculture systems were evaluated in triplicate. Three different management practices were compared: the traditional practice without addition of periphyton substrates and carbohydrate (Control), addition of maize flour to maintain a carbon: nitrogen rate of 20:1 (treatment CN) and addition of both maize flour and periphyton substrates (treatment CN+P). This experiment used a pre‐optimized stocking density of tilapia and freshwater prawn by Asaduzzaman et al. Aquaculture [286 (2009) 72]. All ponds were stocked with prawn (3 m²) and monosex Nile tilapia (1 m^?2). Bamboo side shoots were posted vertically into the pond bottoms as periphyton substrate covering an additional area of 171 m² for periphyton development. A locally formulated and prepared feed containing 17% crude protein with C/N ratio close to 15:1 was applied twice daily in all ponds considering the body weight of freshwater prawn only. Water quality parameters, except total alkalinity did not vary significantly (P > 0.05) among treatments. Both, organic matter and total heterotrophic bacterial loads (THB) in the sediment were significantly (P < 0.05) higher in treatment CN+P followed by treatment CN and control. Periphyton biomass in terms of dry matter and chlorophyll a values constantly decreased during the culture period. Substrates contributed 66% and 102% higher net yield of freshwater prawn than CN and control treatment respectively.     

Effect of dietary DP/DE ratio on apparent digestibility, growth and nitrogen and phosphorus retention in rainbow trout, Oncorhynchus Mykiss (Walbaum)

The effect of DP/DE ratio in diets for rainbow trout, Oncorhynchus mykiss (Walbaum), was investigated. To evaluate growth and body composition, groups of trout were fed three experimental diets with a constant level of gross energy (25.4 ± 0.12 MJ kg^?1 dry matter (DM)) and different digestible protein/digestible energy (DP/DE) ratios (diet A, 16. 35; diet B, 17.21; dietC, 18.23 g Mr^?1). Fat, protein and energy digestibility coefficients were not affected by the DP/DE ratio of the diets. Growth and feed utilization improved markedly as dietary DP/DE ratio increased (P < .01). The efficiency of fat, protein and energy utilization tended to increase with increasing DP/DE ratio of the diets. Nitrogen discharge in effluent water per kg of weight gain was not affected by dietary treatments (mean values for: diet A, 29.9; diet B, 29.8; diet C, 29.1 g N kg^?1 weight gain) while phosphorus discharge in effluent water fell using diets with a higher DP/DE ratio (mean values for: diet A, 7.3; diet B, 6.7; diet C, 5.9 g P kg^?1 weight gain).     

Nitrogen removal techniques in aquaculture for a sustainable production

As the aquaculture industry intensively develops, its environmental impact increases. Discharges from aquaculture deteriorate the receiving environment and the need for fishmeal and fish oil for fish feed production increases. Rotating biological contactors, trickling filters, bead filters and fluidized sand biofilters are conventionally used in intensive aquaculture systems to remove nitrogen from culture water. Besides these conventional water treatment systems, there are other possible modi operandi to recycle aquaculture water and simultaneously produce fish feed. These double-purpose techniques are the periphyton treatment technique, which is applicable to extensive systems, and the proteinaceous bio-flocs technology, which can be used in extensive as well as in intensive systems. In addition to maintenance of good water quality, both techniques provide an inexpensive feed source and a higher efficiency of nutrient conversion of feed. The bio-flocs technology has the advantage over the other techniques that it is relatively inexpensive; this makes it an economically viable approach for sustainable aquaculture.     

The effect of C/N ratio on bacterial community and water quality in a mussel‐fish integrated system

A 30‐day experiment was conducted to evaluate the effect of C/N ratio on water quality and bacterial community in an integrated system comprising one molluscan species (pearl mussel Hyriopsis cumingii) and two fish species (gibel carp Carassius gibelio and silver carp Hypophthalmichthys molitrix) at five C/N ratios (6, 8, 10, 12 and 14). The mussel and fishes were reared in the experimental tanks (400 L), but gibel carp received formulated feed. Water quality in the experimental tanks was analysed on day 0, 10, 20 and 30, and bacterial community in the water column and sediment was analysed on day 30. Total nitrogen, total phosphorus and total organic carbon accumulated in the tanks over time. Ammonia and nitrite decreased with the increase in C/N ratio. Bacterial community in the water column and sediment changed at the phylum and genus levels with the increase in C/N ratio, and the critical C/N ratio causing a functional shift of bacterial community occurred at 10 in water column and 12 in sediment. The increase in C/N ratio benefited the growth of both potential probiotics and pathogenic bacteria. The high C/N ratio enhanced the bacterial functions of chemoheterotrophy and hydrocarbon degradation, but depressed the functions of nitrification and denitrification in the water column and sediment respectively. This study reveals that the C/N ratio can be used as a tool to manipulate the bacterial community and water quality in the mussel‐fish integrated system.     

着生藻碳氮计量特征对铜锈环棱螺生长的影响

氮负荷较高的富营养湖泊中,着生藻大量增加,而牧食者数量却逐渐减少,进而导致沉水植物衰退或消亡;为了探究氮浓度过高对螺类生长的影响,本文基于受控实验,探讨了不同水体氮浓度(1 mg/L,4 mg/L,7 mg/L)培养下的着生藻碳氮计量特征对铜锈环棱螺(Bellamya aeruginosa)生长的影响效应。结果表明,4 mg/L处理组的着生藻和螺体内的碳和氮含量均高于1 mg/L和7 mg/L处理组,而碳氮比则低于这2个处理组;1 mg/L处理组的着生藻和螺体内的碳和氮含量最低,其碳氮比最高。着生藻氮含量与螺体内氮含量呈显著正相关关系(r=0.877,P0.001)。水体氮浓度为1 mg/L处理组的螺生长率和体长均高于4 mg/L和7 mg/L处理组,4 mg/L处理组的螺生长率和体长最低。研究结果显示,着生藻氮元素含量在一定范围内会随着水体氮浓度的增加而升高,着生藻氮含量与螺体内的氮含量变化一致,作为螺食物的着生藻氮含量增加时,螺体内氮含量也相应随之增加。环棱螺食物质量的下降与着生藻中化学元素含量的改变有关,这可能是螺生长受到抑制的重要原因。