多营养层次生态养殖模式简析

系统介绍了多营养层次生态养殖模式在淡水养殖及海水养殖中的应用与发展,对比了国内外有关该养殖模式发展方向的异同,简述了该养殖模式通过提高物质和空间利用率、改善养殖环境的原理以及在我国推广应用情况,并汇总了我国沿海省份近年来开展该养殖模式选用的品种搭配及产量产值。指出了多营养层次生态养殖模式还存在的问题,对今后发展提出了建议。     

中国水产养殖污染物排放总量控制框架构建

近10年来,中国水产养殖业快速发展,产量大幅增加,随着绿色养殖概念的提出和总量控制制度的不断完善,水产养殖污染物排放强度明显下降,水产养殖污染物排放总量控制工作已见成效。本研究分析了水产养殖环境污染的产生与排放情况;总结了中国近年来为实现水产养殖污染物排放总量控制目标,在优化养殖布局、控制养殖环境污染、发展健康养殖和开展减排核算管理方面的工作进展;在此基础上,提出了构建中国水产养殖污染物排放总量控制框架的思路,从源头控制、过程控制和末端控制等方面分析了目前水产养殖污染物排放存在的主要问题和控制重点,并对进一步做好污染物排放总量控制工作提出了对策建议。     

中国深远海养殖发展方式研究

在渔业转型发展进程中,发展深远海养殖是突破生态环境和自然资源约束性挑战,实现新时期中国海水养殖业可持续发展的战略方向。基于联合国粮食及农业组织(FAO)关于深远海养殖发展的定义,结合中国海水养殖业发展水平和海域条件,对中国深远海养殖概念进行了界定。提出养殖品种选择、养殖系统构建、养殖海域规划是关系深远海养殖产业稳步有序发展的重要因素。在养殖品种选择方面,应重点考虑经济潜力、适应水温和养殖技术;在养殖系统构建上,分析比较了不同养殖系统应用于深远海养殖的适宜性、安全性和经济性;在养殖海域规划方面,应重点考虑养殖排放、环境承载力和海域条件。     

池塘内循环流水养殖模式对大口黑鲈生长性能、抗氧化酶、消化酶及消化道组织结构和菌群的影响

为探究养殖过程中池塘内循环流水养殖模式（inner-pond raceway aquaculture, IPRA）对大口黑鲈生长性能、抗氧化酶、消化酶、消化道组织结构及菌落结构的影响。将池塘内循环流水养殖的4条水槽设置为流水组2条和对照组2条，进行为期153 d的养殖实验，分别在养殖中期和末期测量相关生长、生化指标及观察组织形态结构，并采用Illumina Miseq测序平台对消化道中的微生物进行分析。结果显示：①养殖中期，流水组的增重率、特定生长率和肥满度低于对照静水组；至养殖末期，流水组的增重率、特定生长率和肥满度持续下降，但成活率一直高于静水组。②养殖中期，流水组肝脏SOD和CAT显著高于静水组，流水组MDA显著低于静水组，流水组消化酶活性显著高于静水组；至养殖末期，抗氧化酶和消化酶均不同程度下降，但流水组SOD仍显著高于静水组，MDA显著低于静水组。③流水组大口黑鲈肠绒毛高度及密度均明显高于静水组，且养殖中期分泌消化酶较多，运动加强了肠道消化吸收功能。④养殖中期，流水养殖使大口黑鲈肠胃菌群的物种多样性和均匀度明显增高，至养殖末期，流水组的肠胃多样性和均匀度指数不断下降；养殖中期流水组和静水组胃分别为柔膜菌门和蓝细菌，静水组肠主要优势菌依次为变形菌门和厚壁菌门，流水组肠主要优势菌分别为厚壁菌门和变形菌门；至养殖后期时，流水组和静水组胃肠优势菌群均为柔膜菌门；而养殖水体的优势菌为变形菌门和放线菌门。研究表明，IPRA模式下的持续运动会降低其生长指标，但能够提高其成活率，增强其免疫和消化能力，改善肠胃菌群结构，尤其是处于生长期效果更明显，而至养殖末期运动状态可能会打破肠道菌群平衡，引发疾病，应加强养殖管理。     

Metal leaching and toxicity of denitrifying woodchip bioreactor outflow—Potential reuse application

The denitrifying woodchip bioreactor is designed to remediate nitrate-rich water, including those produced from aquaculture effluents. Reuse of treated bioreactor outflows in recirculating aquaculture would offer considerable water savings and valuable alkalinity recuperation. However, such bioreactors may leach detrimental wood-bound contaminants, preventing outflow reuse. To determine water reuse potential, woodchip media from two hardwood species (white ash, Fraxinus americana; Norway maple, Acer platanoides) were evaluated for 206 d under a range of operating conditions (start-up, steady-state, reducing conditions, and drying-rewetting cycles) for a spectrum of potentially harmful dissolved contaminants. Aerated outflows also were evaluated for acute and chronic toxicity to the biologically sensitive invertebrate Ceriodaphnia dubia. Dissolved metal leaching subsided within the first few weeks of operation, though initial concentrations of copper and zinc were detected at concentrations of concern. Elevated concentrations of tannins-lignin and total ammonia nitrogen were detected throughout the study and were influenced by operational phase. Acute toxicity was not generally detected, though chronic toxicity was observed during drying-rewetting cycles in the maple outflows. The measured toxicity was not correlated with water chemistry, indicating an additive effect of several toxicants. Overall, significant differences in outflow water quality between ash and maple wood species were negligible. Results indicated that bioreactor outflows may be applicable for aquacultural reuse, though reusing outflows immediately following start-up or restarting after a dry period would not be recommended.     

Implementation of an easily reconfigurable dynamic simulator for recirculating aquaculture systems

Methodology of Programmable Process Structures has been implemented and applied for the flexible automatic generation and simulation of Recirculating Aquaculture Systems. First, we implemented and validated the model for a pilot unit, based on short time experiments with Common carp (Cyprinus carpio), utilizing data and functionalities from the literature. Afterwards, starting from this model we generated a hypothetical single tank model of simulated increasing volume, to demonstrate how it supports the simplified, preliminary analysis, design and control of the possible multi-stage systems. We showed that the simulation of a single tank with an appropriately increasing volume makes possible to study the various control strategies, as well as to design the structure and the grading strategy of the multi-stage systems, without an increased combinatorial complexity. In the knowledge of the simulated increasing volume, we determined the volumes of subsequent stages by equidistant partitioning of the rearing time, algorithmically. Considering the available (or planned) tank volumes, this method makes possible to design a multi-stage system that approximately corresponds to the previously optimized single tank model. This conclusion was illustrated by the generation and simulation of the model for the respective multi-stage system.     

水产养殖鱼类生长性状研究进展

生长性状是水产养殖鱼类最重要的经济性状之一,对水产养殖业的发展意义重大。通过以不同的养殖鱼类为对象,大量的研究结果表明,鱼类生长主要受环境、基因,以及基因与环境相互作用的影响,具体为:(1)环境是生长性状调控的外因,其对生长的影响一般呈现出剂量效应的规律。温度、光照、营养等主要环境因子的过量和不足均可能对鱼类生长产生不利影响,因此,寻求最优条件是制定最佳养殖环境的终极目标,人为调控多种环境因子在现代水产养殖业中具有重大的应用潜力。(2)基因是生长性状调控的内因,其对生长的影响很大程度上表现出因果效应的关系。某些基因的单碱基核苷酸多样性、基因结构变异、染色体倍性变化,以及转基因等都表现出对鱼类生长产生统计显著性的影响。鉴于生长是多基因控制的复杂数量性状,寻找主效基因并在选育中加以利用是改良生长性状的重要基础。高通量测序技术在生长相关候选基因的筛选以及辅助分子育种方面展现出强大的优势。(3)基因与环境相互作用的影响主要来自基因型对不同环境条件的适应性,具有特异性和复杂性的特点,因此目前对其量化研究非常有限。但在制定大规模商业育种计划之前,考虑基因与环境相互作用具有重要意义。综上所述,充分理解环境、基因,以及基因与环境相互作用对水产养殖鱼类生长的影响能更好地对其生长性状加以利用,从而最大限度地节约养殖成本和发挥生态效益。     

基于模糊控制的水产养殖环境智能监控系统设计

为实时掌握水产养殖水质和气象环境信息,针对溶氧控制过程中非线性、惯性大和时滞的问题,以循环水流水槽养殖模式为基础,设计了水产养殖环境监测和控制系统。通过PLC对养殖环境中溶氧、pH、温度、湿度、风速、风向、大气压等参数进行信息采集与传输,上位机实时显示环境信息,用模糊算法处理信息,处理后的结果作为PLC的输出传送到变频器中,变频器控制增氧机调节水中溶氧量。结果显示:该系统可实时传输与显示上述参数信息,提供历史数据和环境异常报警功能。模糊控制在调节溶氧过程中超调小、精度高,溶氧偏差±0.4 mg/L,可减少增氧机启停次数、延长设备寿命。监控系统进行实地应用测试,达到预期效果,可在水产养殖中进行推广和应用。     

Optimization of the stocking parameters for mud spiny lobster Panulirus polyphagus (Herbst, 1793) capture‐based aquaculture in tropical open sea floating net cages

Mud spiny lobsters, Panulirus polyphagus (Herbst, 1793), were reared at four different stocking sizes and stocking densities in open sea cages to evaluate their effects on growth performance. To evaluate the effect of stocking size on the growth performance, the lobsters were segregated into four different treatment groups according to size and were stocked at a density of 300 animals per cage. To evaluate the effect of stocking density on the growth performance, lobsters of 81–100 g were stocked in four different stocking densities, i.e. 16/m², 24/m², 32/m² and 40/m². The results showed that the growth rate of (60–80 g) size group, was significantly higher compared to the size groups, i.e. 101–120 g and 121–140 g comprising of larger individuals. The final body weight, though significantly higher in 81–100 g as compared to 60–80 g, the growth performance (i.e. weight gain percentage (WG %) and specific growth rate (SGR)) were not significantly different. The density‐dependent influence on growth performance was evident in this study. The WG % and SGR during 90 days’ culture period was significantly higher in 24/m² compared to other groups. This study provides crucial information about the appropriate stocking density and stocking size of lobsters at the field level, which would help to promote sustainable lobster cage farming by maximizing the production potential of the system.     

Embryonic and larval developments of brackish water catfish,Mystus gulio (Hamilton and Buchanan, 1822) induced with human chorionic gonadotropin and consequent larval rearing

Mystus gulio, the long whiskers catfish, is a popular food fish and potential candidate species for aquaculture in Sundarban area of India and Bangladesh. Recently, catch of this species has declined due to overfishing and various ecological changes. In the present study, mature fish was induced to spawn in captivity through intramuscular injection of human chorionic gonadotropin at the doses of 10 IU/g to female and 5 IU/g to male. Photomicrographs of all developmental stages of live embryo and larvae were documented with the aid of a light microscope. Results demonstrated that morula, blastula, gastrula and neurula and organogenesis ended at 1:30‐, 3:00‐, 5:30‐, 7:30‐ and 17:15‐hour post‐spawning (hps) respectively. Heartbeat and muscular contraction of embryo commenced at 8:30 and 11.15 hps respectively. Hatching of embryo started after an incubation period of 17:30 hour at an ambient temperature of 29 ± 1°C. The newly hatched larvae measured 2.17 ± 0.29 mm in total length with a yolk volume of 0.165 ± 0.03 mm³ started feeding 36 hr after hatching. The present study, on induced breeding and chronological development of M. gulio embryo, will have significant implications on conservation and seed production for aquaculture.