海洋养殖柔性网衣结构水动力特性研究进展

发展深水网箱养殖是保障我国粮食及食品安全的长远战略,也是缓解近海网箱养殖环境胁迫力、拓展食物生产空间的必然选择。发展深水网箱养殖首先需要面对的突出挑战是养殖设施在外海恶劣海况下的安全性问题。网衣是深水网箱的主体结构,由于其自身具有高柔性、小尺度的特点,在波浪和水流作用下易出现大位移和大变形的极端响应。当前,网衣结构分析技术已成为我国深水网箱养殖工程技术的薄弱环节,一定程度上制约当前海上养殖网箱向大型化和深水化发展。因此,网衣水动力特性研究对于深远海网箱养殖的发展具有重要意义。本研究系统介绍了计算网衣水动力荷载的主要方法及其适用范围。同时,对网衣动态响应数值计算中的主流建模技术进行了总结和分析。最后,根据目前网衣水动力特性研究中存在的热点问题,提出了网衣流固耦合分析、生物污损分析、数字孪生技术等前沿发展方向,为网衣水动力学分析向数字化、精准化发展提供参考。     

进水流速对圆形循环水养殖池流场特性影响的数值模拟

通过对工厂化循环水养殖进水流速的智能调控,可降低饵料残留,避免水质恶化。为此,本研究采用数值模拟方法探究了进水流速对工厂化循环水养殖池流场特性的影响,并基于该研究设计出一套确定进水流速调控的实验方法。首先,通过对比Standard k-ε、RNG k-ε和Realizable k-ε 3种湍流模型及多种壁面函数的仿真效果,确定RNG k-ε模型和标准壁面函数作为仿真配置。同时,针对多相流模型,对欧拉多相流模型和DPM离散相模型进行对比,为提高计算准确性选用DPM离散相模型,并基于上述模型进行网格无关性验证、制定网格划分方案。其次,以大菱鲆(Scophthalmus maximus)养殖为例,模拟不同进水流速下养殖池流场、排污和水温调节的效果。最后,针对仿真结果提出进水流速调控方案。结果显示,日常采用1.0 m/s的进水流速,可有效提高适宜流速区面积并控制水处理成本;投饵前,采用0.2 m/s的进水流速可以解决循环水养殖中存在的饵料浪费问题;进食结束后,采用1.2 m/s的进水流速可快速排出残饵避免水质恶化;水温异常时,采用15 ℃的水、以1.2 m/s的进水流速注水230 s,可使20 ℃的水下降到正常水平,精准化控制水温。采用本研究提出的方法,可针对不同养殖生物和养殖环境设计进水流速智能调控策略,可用于解决循环水养殖过程中饵料浪费、水质变差和水温异常等问题。     

科学用药 规避风险 确保我国水产品出口贸易健康发展－－日本水产养殖用药规定解析

2006年11月22日,日本发布实施了《水产养殖用药第20号通报》(以下简称"第20号通报"),对水产养殖用药种类、有效成分、适用对象、适应病症、用法、用量、休药期等有关规定进行了调整。"第20号通报"是目前日本指导本国水产养殖者安全用药的准则。介绍了日本水产养殖管理体系、对"第20号通报"的内容进行了解析,并就如何规避风险、确保我国水产品进出口贸易健康发展提出了建议。     

Hygienic and ecological risks connected with utilization of animal manures and biosolids in agriculture

In recent years the fate of human and animal pathogen microorganisms as a potential pollutant of the environment has been paid increased attention. Substantial quantities of these compounds and their metabolites are excreted, flushed down the drain, discarded as waste, or left over in animal feedlots. After passing to the sewer, several of these compounds are not adequately eliminated by the methods that are currently used in sewage treatment. Substantial quantities of biosolids and livestock manure end up on agricultural land. Effective sanitation of the environment, particularly of some of its special parts, which can be a source of spreading of diseases, plays an important role in prevention of infectious diseases. In this respect special attention should be paid to the disinfection of infected farm animal excrements. Sanitation of excrements should, on the one hand, ensure effective inhibition of infectious agents and, on the other hand, comply with the requirement of preserving the composition of the manure so it can be used in agricultural production.     

生物法处理养殖污水中氨氮的研究进展

综述近几年生物方法处理养殖污水中氨氮的研究进展及实际应用,并对大规模处理养殖污水方面提出了一些思考和展望,期望在今后的研究工作中能够探索出高效率、低成本、无二次污染的生物方法处理养殖污水中的氨氮.     

微生态制剂在水产养殖中的作用机理及应用研究进展

介绍了微生态制剂在水产动物健康养殖中的作用机制,以及微生态制剂在刺参养殖中的应用前景。微生态制剂在水产动物中的作用机理包括通过竞争来抑制病原菌生长（如黏附位点、营养、能源等）、通过代谢物（如抑菌物质、消化酶等）调节微生态平衡、提高免疫机能、改善水质、群体感应（quorum sensing,QS）。刺参生理生化反应、生活习性的研究为刺参微生态制剂的开发奠定了基础,也存在一些问题限制了它在刺参养殖中的应用,但微生态制剂仍然是抗生素最有潜力的替代品,具有广阔的应用前景。     

Comparison of the API 20E and BBL Crystal E/NF Identification Systems for Differentiating Bacterial Isolates from Apparently Healthy Reared Sea Bass (Dicentrarchus labrax)

The ability of two commercial rapid identification systems, API 20E and BBL Crystal E/NF, to reliably identify bacterial isolates from the internal organs of reared sea bass were compared. The tests gave different results: API 20E identified bacteria as Pseudomonas spp. with 37% accuracy, while BBL Crystal E/NF identified them as Flavobacterium odoratum with 99% accuracy. Although F. odoratum is not a marine fish pathogen, conventional tests conducted with the same isolates were more indicative of them being Flavobacterium spp. than Pseudomonas spp., suggesting that BBL Crystal E/NF was more reliable in this identification. Both systems were found to be applicable for diagnostics of marine fish pathogens, but should be used with caution because of possible misinterpretation.     

一种水产养殖用微生物制剂的研究

利用枯草芽孢杆菌、干酪乳杆菌、沼泽红假单胞菌和啤酒酵母4种菌株配制了一种复合微生物制剂,试验结果表明,该制剂除含有丰富的营养成分外,在水产养殖中还能起到净水剂的作用,它能增加水中的溶解氧,显著降低氨氮、亚硝态氮、硫化物等不利于水产养殖的污染成分。此微生物制剂在水产养殖中将能发挥营养、保健及净化水质的功效。     

光合细菌与芽孢杆菌对淡水养殖水体修复实验研究

为降低淡水养殖水体的污染程度,实验选用光合细菌与芽孢杆菌对养殖水体进行生物修复,测定水体氨、氮含量、pH值、化学耗氧量以及溶氧量的变化。结果表明,与空白对照组相比,使用光合细菌与芽孢杆菌后,水体中的氨、氮含量降低73.1%,pH值下降4.2%,化学耗氧量降低46.3%,溶氧量升高9.7%,净化水质效果明显。     

An investigation of links between metabolic rate and feed efficiency in European sea bass Dicentrarchus labrax

Feed efficiency (FE) is the amount of body weight gain for a given feed intake. Improving FE through selective breeding is key for sustainable finfish aquaculture but its evaluation at individual level is technically challenging. We therefore investigated whether individual routine metabolic rate (RMR) was a predictor of individual FE in the European sea bass Dicentrarchus labrax, a major species in European mariculture. The European sea bass has three genetically distinct populations across its geographical range, namely Atlantic (AT), West Mediterranean (WM), and East Mediterranean (EM). We compared FE and RMR of fish from these three populations at 18 or 24 °C. We held 200 fish (62 AT, 66 WM, and 72 EM) in individual aquaria and fed them from ad libitum down to fasting. FI was assessed for an ad libitum feeding rate and for a fixed restricted ration (1% of metabolic body weight·day⁻¹, with metabolic body weight = body weight^0.8). After being refed 12 wk in a common tank, individual RMR was measured over 36 h by intermittent flow respirometry. There was a significant effect of temperature whereby fish at 18 °C had greater mean FE (P < 0.05) and lower RMR (P < 0.001). There was also a significant effect of population, where AT fish had lower FE (P < 0.05) and greater RMR (P < 0.001) than WM and EM, at both temperatures. Despite these differences in temperature and population means, individual FE and RMR were not significantly correlated (P > 0.05). Therefore, although the results provide evidence of an association between metabolic rate and FE, RMR was not a predictor of individual FE, for reasons that require further investigation.