在循环水养殖系统中养殖密度对红鳍东方鲀应激反应和抗氧化状态的影响

养殖密度是影响养殖水体水质和鱼类生长性能的重要因素。通过红鳍东方鲀(Takifugu rubripes)循环水养殖试验和硝酸盐氮急性处理试验,分别研究不同养殖密度(12.5～20.0 kg/m~3)和不同硝酸盐氮质量浓度(1.0、25.0、100.0和150.0 mg/L)对养殖水体水质、红鳍东方鲀生长性能、应激反应和抗氧化状态的影响。结果显示:不同养殖密度对红鳍东方鲀养殖水体的pH、氨氮和亚硝酸盐氮质量浓度无显著性影响,但较高密度会导致硝酸盐氮质量浓度显著升高,最高升至24.5 mg/L。在较高养殖密度条件下,红鳍东方鲀的生长性能(终体质量、特定增长率和饲料转化率)和抗氧化能力(总抗氧化能力、超氧化物歧化酶、谷胱甘肽过氧化物酶)较弱,但其脂质过氧化(丙二醛)和应激反应(葡萄糖、乳酸和皮质醇)较强。此外,在硝酸盐氮急性处理试验中,红鳍东方鲀未出现死亡。当硝酸盐氮质量浓度为100.0和150.0 mg/L时,红鳍东方鲀抗氧化能力较弱,而应激反应较强。综上,当养殖密度为16.5 kg/m~3时,红鳍东方鲀的生长和抗氧化状态较好,且应激压力较小,这表明在较高密度条件下,养殖水体硝酸盐氮质量浓度的升高不是引起鱼类生长抑制的主要原因。     

生物强化移动床生物膜反应器处理水产养殖循环水初步研究

利用自制的硝化细菌菌剂促进移动床生物膜反应器(Moving bed biofilm reactor,MBBR)的挂膜启动,分析不同载体氨氮负荷、碳氮比条件下反应器运行状况,并进一步进行了实验室模拟循环水养殖草金鱼实验。结果显示,利用自制硝化菌剂能够完成整个移动床反应器的启动过程,在接种15 d后使循环出水氨氮稳定在1 mg/L以下。单位体积载体氨氮负荷实验表明,MBBR能够在100 mg TAN/(L填料·d)条件下,使出水满足一般水产养殖水质要求(氨氮0.5 mg/L,亚硝氮0.1 mg/L)。进水碳氮比在1以内时MBBR能够稳定高效运行。在实验室模拟循环水养殖过程中,经菌剂强化的MBBR能维持循环出水氨氮低于0.5 mg/L,亚硝氮低于0.05 mg/L。     

非离子氨氮和亚硝酸盐氮对暗纹东方鲀稚鱼的急性毒性试验

在水温21~23℃,pH 8.2~8.5,溶解氧6.00~7.50mg/L的条件下,采用半静水法研究了非离子氨氮和亚硝酸盐氮对全长(1.6±0.2)cm、体质量为(0.11±0.05)g的暗纹东方鲀稚鱼的急性毒性效应。试验结果表明,暗纹东方鲀稚鱼受到非离子氨氮和亚硝酸盐氮胁迫后,先后出现鱼体体色变白、扭曲、侧游、失去平衡、昏迷等中毒症状。随着非离子氨氮和亚硝酸盐氮质量浓度的提高和胁迫时间的延长,暗纹东方鲀稚鱼死亡率逐渐升高,存在明显的剂量效应和时间效应关系。非离子氨氮和亚硝酸盐氮对暗纹东方鲀稚鱼96h半致死质量浓度分别为0.46mg/L(95%置信限0.34~0.64mg/L)和290.12mg/L(95%置信限255.16~329.87mg/L),安全质量浓度分别为0.046 mg/L和29.01mg/L。非离子氨氮和亚硝酸盐氮对暗纹东方鲀稚鱼具有一定毒性,且非离子氨氮毒性大于亚硝酸盐氮毒性。     

红鳍东方鲀、菊黄东方鲀及其杂交F1幼鱼耗氧率与窒息点研究

利用封闭呼吸室对同一日龄、不同规格的红鳍东方鲀、菊黄东方鲀和菊黄东方鲀(♀)×红鳍东方鲀(♂)杂交F1代幼鱼进行耗氧率和临界窒息点的研究。试验结果表明,水温14.8～15.6℃时,体质量(37.24±3.64)g的红鳍东方鲀幼鱼耗氧率为(0.3385±0.0161)mg/(g.h),体质量(14.45±1.08)g的菊黄东方鲀幼鱼耗氧率为(0.2327±0.0241)mg/(g.h),体质量(27.96±1.38)g的杂交F1代东方鲀幼鱼耗氧率为(0.2282±0.0219)mg/(g.h);同一日龄不同规格红鳍东方鲀、菊黄东方鲀和杂交东方鲀幼鱼的耗氧量分别为(12.5243±0.6720)、(3.3544±0.2975)、(5.8469±0.9537)mg/(h.尾);3种东方鲀的耗氧率呈明显的昼夜节律,白天平均耗氧率显著高于夜晚。水温为14.8～15.6℃时,红鳍东方鲀、菊黄东方鲀及杂交东方鲀幼鱼的临界窒息点分别为0.665、0.882mg/L和0.774mg/L。     

刺参与红鳍东方鲀的生态混养效果

为了丰富海参池塘养殖的混养种类,实验对刺参和红鳍东方鲀的生态混养效果进行了研究。结果显示,经过100 d的混养实验,红鳍东方鲀平均日增重率为1.07 g/d,特定生长率为4.06%/d,混养组与单养组红鳍东方鲀没有显著差异;但混养条件下刺参的生长状况显著优于单养条件下刺参的生长状况。与红鳍东方鲀混养组刺参平均日增重率为(0.11±0.04)g/d,特定生长率为(0.67±0.20)%/d。单养组刺参平均日增重率为(0.04±0.02)g/d,特定生长率为(0.35±0.19)%/d。研究表明,刺参池塘混养红鳍东方鲀模式下,红鳍东方鲀在正常快速生长的同时,可以有效促进刺参的生长,研究结果可以为刺参池塘的生态复合养殖提供参考依据。     

换水率和密度对刺参生长和水质的影响

为探究日换水率(0、10%、20%、30%和100%)和养殖密度[0.980±0.008、1.760±0.005、2.810±0.007和(3.640±0.006)kg/m3]对刺参(Apostichopus japonicus)生长率和养殖水质的影响,养殖试验首先在非循环水养殖条件下,测定各组刺参综合特定生长率(ISGR)及养殖水体中氨氮及亚硝酸盐氮质量浓度。结果显示,日换水率为10%和20%处理组的ISGR分别达到每天(1.330±0.161)%和(1.410±0.182)%,显著高于其他处理组;密度养殖试验证明,随着养殖密度的增加,ISGR逐渐降低,分别达到每天(0.610±0.500)%,(0.570±0.030)%,(0.560±0.045)%和(0.320±0.040)%,各组换水率及养殖密度组水体中氨氮及亚硝酸盐氮均在安全浓度范围内波动;养殖结果显示,循环水养殖试验组刺参的ISGR高于非循环水养殖组,可达(0.130±0.007)%,且氨氮及亚硝酸盐氮质量浓度在0.020 mg/L以下,而非循环水养殖的分别积累到(0.600±0.015)mg/L和(0.076±0.002)mg/L。研究表明,在换水率15%,养殖密度(2.810±0.007)kg/m3的循环水养殖条件下,可以保证水体水质稳定,刺参生长良好。     

生物—电氧化法去除海水养殖循环水污染物

为提高海水养殖循环水处理效率,降低处理成本,本研究采用曝气生物滤器与电化学阳极氧化组合工艺,考察了不同阳极电势、进水氨氮和亚硝酸盐浓度下系统对氨氮及亚硝酸盐等污染物的去除效果,研究了微生物与工作电极之间的相互作用,并分析了电化学反应能耗。在水力停留时间为45 min、1.4 V阳极电压、进水氨氮和亚硝酸盐浓度分别为4.5和1.3 mg/L条件下,生物—电氧化法对氨氮去除率达88.8%,高出对照组7.6%,出水氨氮和亚硝酸盐浓度分别为0.5和0.9 mg/L,COD去除率为88.2%,高出对照组19.4%,平均能耗0.040 kWh/m~3,电极表面微生物生长对阳极电氧化过程有促进作用,微生物功能预测显示实验组硝化功能占比为0.03%,对照组为0.07%。研究表明,生物—电氧化法对海水养殖循环水的污染物有良好的去除效果,具有一定的发展应用潜力。     

封闭循环水养殖哲罗鱼试验

在水温15~17℃下,将5 000尾平均体质量(10±3)g的哲罗鱼Hucho Taimen幼鱼饲养在由24个直径1 800mm×高1 000mm养殖池组成的封闭循环水系统中,以探索工厂化循环水养殖哲罗鱼的主要技术参数。经过8个月的养殖表明:养殖密度达到31.8kg/m~3,成活率96%,肥满度为1.01~1.30,鱼的平均体质量增加350g,体长增加21.3cm,鱼体生长状况良好。生物滤器两天反冲洗一次,有效提高了生物滤器的氨氮转化效率;紫外线消毒方式有效对系统进行了消毒杀菌;监测表明,系统水处理效果显著,其中NH_4~-平均浓度维持在(0.56±0.05)mg/L;NO_2~-含量为(0.15±0.05)mg/L;NO_3~-平均浓度为(41.86±2.62)mg/L;溶解氧为8.37~9.45mg/L;p H8.21~8.63。     

竹子填料海水曝气生物滤器除氮性能

生物滤器是循环水养殖系统的关键水处理单元,主要用于去除水体中水溶性的氮化物.采用人工模拟海水养殖废水,在系统运行的水力停留时间HRT为1h,水温为18～25 ℃,气水比为3∶1,初始C/N＝3∶1,pH为8.05～8.53条件下,对竹子填料浸没式生物滤器的挂膜过程和稳定运行阶段系统去除氨氮的运行特性,以及挂膜过程中的硝化细菌群落变化进行了实验研究.结果表明,在较低的NH+4-N浓度条件下,采用竹子填料的生物滤器有较快的挂膜速度,挂膜成功后滤料表面上生长的氨氧化细菌和亚硝酸氧化细菌的数量分别为4.5×105、1.5×105(光面)和1.1×106 CFU/ml(粗面).具有较高且稳定的氨氮去除效果,氨氮去除效率达到80%,出水浓度小于0.06 mg/L,满足海水循环养殖系统中的应用要求.     

苯并芘和V_E对红鳍东方鲀抗氧化酶影响研究

试验结果表明,当水中苯并芘质量浓度为50μg/L时,红鳍东方鲀的超氧化物歧化酶和过氧化氢酶酶活性显著低于空白对照组,最多分别低93.1%和35.4%。说明其体内抗氧化体系受到明显的抑制,且两种酶活性均表现出先抑制后升高的趋势,证明红鳍东方鲀对于苯并芘的胁迫具有一定的自我调节机能。给鱼体注射VE(3个缓解组剂量分别为10mg/尾、20mg/尾和30mg/尾)后,红鳍东方鲀的超氧化物歧化酶和过氧化氢酶酶活性都有一定的提高,表明VE对苯并芘的影响有缓解作用。     

养殖密度对循环水系统中大菱鲆(Scophthalmus maximus)生长的影响

将初始体重为(580.9±44.65)g的大菱鲆成鱼按照低密度A组14.30 kg/m2、中密度B组20.49 kg/m2、高密度C组31.32 kg/m2的标准分为3个不同养殖密度组,并放养于循环水养殖系统中120 d,同时对大菱鲆成活率、体重差异、饵料系数、溶菌酶水平及养殖水体中总氨氮(TAN)、亚硝酸氮(NO2--N)、COD浓度的变化进行测定。研究表明,实验结束时A、B、C三组大菱鲆养殖密度分别达到30.09、41.30、60.07 kg/m2,各实验组成活率都在95%以上。大菱鲆养殖密度对增重率的影响主要体现在研究前期,并且随着养殖密度的增加,各实验组体重差异度出现显著变化(P0.01)。大菱鲆A、B、C组的饵料系数分别为0.73、0.75、0.82,与养殖密度呈正相关。研究开始第5天,高密度组大菱鲆溶菌酶水平升高,20 d后血液溶菌酶水平逐渐降低,40 d之后显著低于低密度组。研究期间系统运行稳定,循环水养殖大菱鲆的不同密度对系统各项水质指标总氨氮(TAN)、亚硝酸氮(NO2--N)、COD浓度的变化有显著影响(P0.05)。研究结果显示,随着养殖密度的升高,各项水质指标显著升高,但高密度组各项水质指标均未超过渔业水质标准所规定的浓度。     

Evidence of improved water quality and biofilm control by slow sand filters in aquaculture – A case study

A rapid sand filter (RSF, 12 m³ m⁻² h⁻¹) and a rapid sand filter followed by slow sand filter (RSF-SSF, 0.1 m³ m⁻² h⁻¹) were compared to investigate whether the biological activity in the RSF-SSF would improve turbidity reduction and control of biofilm growth in seawater aquaculture of juvenile dusky grouper over a 31 days test period. The RSF-SSF combination produced water with lower turbidity than RSF, turbidity breakthroughs in RSF were effectively abated by SSF. Microbial growth potential (MGP) measured by a growth assay with Pseudoalteromonas spongiae in samples filtered through 0,2μm membranes was significantly smaller in SSF filtrate (MGP, 3.2 ± 0,1 logCFU) than in RSF filtrate (3.9 ± 0,6 logCFU). Turbidity in fish tanks fed with RSF-SSF and RSF effluent remained below 1 NTU and 6 NTU, respectively, inspite of the large amount of food not consumed by the fish and of the tanks remaining open to the atmosphere. Surface biofouling on PVC samples was assessed by protein and carbohydrate analysis. It was less pronounced on bottoms of tanks operated with RSF-SSF treated water but similar on tank walls for both types of water. Carbohydrates were present in much larger quantities than proteins in bottom biofilms, but the opposite occurred in wall biofilms. Diatoms were dominant in RSF but not in RSF-SSF tank biofilms. Dusky grouper survival and growth was similar for the two types of water. The benefit of reduction of microbial growth potential achieved in SSF pretreatment was successfully captured in lesser tank surfaces biofilm colonization and by lower water turbidity in the tanks.     

不同浓度臭氧对循环水养殖系统生物膜活性及其净化效能的影响

本文通过在循环水养殖系统中添加不同浓度的臭氧,研究其对循环水养殖系统生物膜活性及其净化效能的影响.结果显示,当氧化还原电位(ORP)小于450 mV时,氨氮的去除率随着臭氧浓度升高而升高,最高去除率达39.9％,亚硝酸盐氮的平均去除率为28.2％,生物膜菌群的平均存活率为88.1％,生物膜对养殖水体氨氮和亚硝酸盐氮的处理效果良好;当氧化还原电位为500 mV时,经过臭氧24 h处理,氨氮和亚硝酸盐氮的去除率分别由36.5％、28.1％降到12.2％、8.4％,而臭氧4h处理后,生物膜对氨氮和亚硝酸盐氮的去除率分别由47.5％、32.1％降到5.0％、3.3％,水处理效果明显下降,生物膜菌群存活率由88.1％降到31.5％.由此可见臭氧添加浓度对生物膜及净化效能有重大影响.综合试验结果和分析评估,建议封闭循环水养殖系统的臭氧添加量以控制生物滤池内的氧化还原电位低于400 mV为宜,可保证循环水系统的安全性和经济性.     

Improved hatchery‐rearing techniques for juvenile production of blue swimming crab,Portunus pelagicus (Linnaeus, 1758)

The effects of tank colour, larval stocking density, antibiotic administration and water exchange on survival and moulting of blue swimming crab, Portunus pelagicus, were determined. Circular 4‐m³ experimental larval‐rearing tanks were used in triplicate for all treatments. White, dark grey, blue and brown were tested as tank background colours. The stocking densities tested were 10, 20, 40, 60, 80 and 100 larvae L^?1. The effect of oxytetracycline was estimated by comparing a treatment with oxytetracycline to a treatment without oxytetracycline administration. The daily water exchange rates tested were 0%, 25%, 50% and 100% of the tank volume. In all treatments, the larvae were fed with Artemia nauplii, rotifers and encapsulated Spirulina. The highest percentage survival was observed in the dark‐grey tanks when the stocking density of larvae was 20 larvae L^?1. No larva reached the juvenile crab size in white tanks. No significant difference in survival was found between treated and non‐treated larvae with oxytetracycline when the daily water exchange rate was more than 50%.     

The growth of disk abalone, Haliotis discus hannai at different culture densities in a pilot-scale recirculating aquaculture system with a baffled culture tank

The growth rate of disk abalone, Haliotis discus hannai, energy consumption and changes in water quality were monitored in a pilot-scale recirculating aquaculture system (RAS) for 155 days. Baffles were installed in the RAS culture tanks to enlarge the attachment area and clean out solid waste materials automatically by hydraulic force only. The experimental disk abalones, of shell length 24.5 ± 0.5 mm, were cultured at three stocking densities, 700, 1300 and 1910 individuals/m² bottom area, in triplicate. The abalones were fed with sea mustard, Undaria pinnatifida, once a week. The abalone feed conversion rates and daily growth rates ranged from 24.5 to 25.9 and 0.32 to 0.36%, respectively. Their daily shell increments and survival rates ranged from 67.7 to 78.6 μm/day and 87.6–92.2%, respectively. The growth in weight tended to decrease at a culture density of 1300 individuals/m² bottom area, while shell increments and survival rates were acceptable at this density. The total power consumption for heating was 1185.4 kW, comprising 30.2% of the total power consumption, while the average water exchange rate was only 2.9% per day. The total ammonia nitrogen stabilized below 0.07 mg/L, after conditioning of the biofilter. The NO₂⁻–N, NO₃⁻–N and total suspended solid concentrations were also maintained within acceptable ranges for the normal growth of disk abalone. The use of the RAS with these newly designed culture tanks for disk abalone culture produced 1300 individuals/m² bottom area with a water exchange rate of only 2.9% per day and used about one-tenth of the heat energy of a conventional flow-through system.     

间歇投喂添加蛋氨酸硒饲料对仿刺参（Apostichopus japonicus Selenka）幼参生长和免疫指标的影响

在水温9℃～13℃下,将平均体质量0.745±0.3 g的仿刺参（Apostichopus japonicus Selenka）随机投放到50cm×40cm×30cm的塑料水槽内,每箱10头,共分为五组,每组3个平行,采用不同间隔时间投喂每kg添加0.5 mg蛋氨酸硒的饲料：第1、2、3、4组分别间隔0、5、10和15...     

间歇投喂添加蛋氨酸硒饲料对仿刺参（Apostichopus japonicus Selenka）幼参生长和免疫指标的影响

在水温9℃～13℃下,将平均体质量0.745±0.3 g的仿刺参（Apostichopus japonicus Selenka）随机投放到50cm×40cm×30cm的塑料水槽内,每箱10头,共分为五组,每组3个平行,采用不同间隔时间投喂每kg添加0.5 mg蛋氨酸硒的饲料：第1、2、3、4组分别间隔0、5、10和15 d投喂一次,第5组投喂不含硒的饲料（对照组）。60d的饲养结果表明：间歇投喂含硒饲料各组仿刺参的成活率和特定生长率差异不显著,但都明显高于对照组;每隔5 d投喂一次含硒饲料的刺参体腔液中SOD活力（78.34U/ml）显著高于其他组（P〈0.05）;谷胱甘肽的浓度（2.87×10-5mol/L）对照组差异不显著,但显著高于其它组（P〈0.05）;连续投喂含硒饲料的仿刺参体内的酸、碱磷酸酶活性（2.42U/ml,5.76U/ml）显著高于其他组（P〈0.05）。建议在生产中宜每日或最多间隔5 d投喂含硒饲料。     

Evaluation of Nile tilapia in monoculture and polyculture with giant freshwater prawn in biofloc technology system and in recirculation aquaculture system

Biofloc technology system (BFT), recirculation aquaculture system (RAS) and polyculture promote efficient use of water, area and nutrient recycling, which are essential practices for sustainable aquaculture development. The aim of this study was to evaluate the growth, feed efficiency, biofloc composition and water quality of Nile tilapia Oreochromis niloticus (Linnaeus, 1758) in monoculture and polyculture with giant freshwater prawn Macrobrachium rosenbergii (De Man, 1906) in BFT and RAS, over a period of 30 days. Fish (n = 128; 7.29 ± 0.67 g) were distributed randomly in 16 experimental tanks (8 fish/tank). Prawn (n = 96; 0.50 ± 0.09 g) were allocated in 8 experimental tanks (12 prawn/tank) in a polyculture. The experimental design was completely randomized with four treatments with four replicates each, in a factorial design 2 × 2 (BFT and RAS vs. monoculture and polyculture). The experimental diet (28% of digestible protein; 3100 kcal kg−1 of digestible energy) was used both to fish and prawn in BFT and RAS. There was significant effect (p < 0.01) of the system and the culture for weight gain, apparent feed conversion and protein efficiency ratio. The average weight gain and apparent feed conversion of tilapia in monoculture (30.04 g and 1.39) and in polyculture (36.44 g and 1.27) were superior (p < 0.01) in BFT than in monoculture (23.64 g and 1.74) and in polyculture (24.14 g and 1.61) in RAS. Weight gain and survival of giant freshwater prawn was superior (p < 0.01) in BFT (0.43 g and 87%) compared to RAS (0.26 g and 79%). The data showed that BFT provides better growth performance responses in monoculture for Nile tilapia and in polyculture with giant freshwater prawn compared to RAS.     

Investigation in Reuse of Decommissioned Wastewater Facility and Reclaimed Water for Culturing Paddlefish Fingerlings

Reclaimed water is treated wastewater that has received at least secondary treatment and basic disinfection and is reused for beneficial purposes. The goal of this study was to develop a safe and reliable sustainable aquaculture system for producing stocker fish using reclaimed water in decommissioned wastewater treatment plants (WWTP) in Kentucky. The specific objectives were (1) to monitor paddlefish, Polyodon spathula, growth and survival and water quality in experimental tanks with static or flow‐through reclaimed water, (2) to evaluate the use of decommissioned tanks for large‐scale production of phase II paddlefish, and (3) to biomonitor paddlefish grown in reclaimed water for contaminants. Phase I paddlefish (11 ± 2.6 g) were produced by feeding live Daphnia collected daily from the clarifier tanks with hand‐pulled nets for 27 d. Phase II paddlefish were produced in four replicated 5600‐L experimental tanks with static and flow‐through reclaimed water. Paddlefish from the flow‐through system were significantly larger (199.2 ± 61 g) and had better feed conversion ratios (2.8 ± 2.1) than those from the static system (135.5 ± 51 g; 4.1 ± 1.6). For the large‐scale trial, two 1125 m³ decommissioned digester tanks were stocked with 50,000 paddlefish larvae per tank. One tank was treated as a flow‐through system with reclaimed water flowing at a rate of 280 L/min, while the other tank was treated as a static system where water was just added to replace that lost by evaporation. Survival rate (40%) and weight (194.1 ± 25.4 g) from the flow‐through system were significantly different from those of the static system (31%; 147.1 ± 6.5 g). This difference could be linked to better water quality in the flow‐through systems. Analyses for 38 contaminants were conducted on Daphnia, prepared diets, and paddlefish. All the concentration levels detected were at levels well below the FDA action limits and their permissible limits in edible food. The result from this project showed that paddlefish can be successfully produced in large-scale as stocker fish using reclaimed water in decommissioned tanks at WWTP.