内导叶滚筒式收鱼机设计与实验

针对深海域网箱养殖人工收鱼效率低、且劳动强度大,吸鱼泵等传统收鱼装置鱼损率高、需要装备大功率发电系统、不适合中小型收鱼船作业等问题设计了内导叶滚筒式收鱼机。对该装置的主体结构进行仿真,确定了主体结构发生最大等效应力和应力集中的位置,根据仿真结果进一步优化结构,并试制了实验装置。通过实验得出最优控制方案,即在倾角10°、转速15.3r/min情况下,有效输送量与功耗比最优,且滚筒在不同倾角下最优转速为15r/min,实验鱼损率为0.1%,满足用户要求。该装置能在保证一定收鱼效率的同时降低鱼损率,适合中小型渔船收鱼作业。     

基于微流控和比色光谱法的水产养殖海水氨氮含量检测

为实时、准确地获取水产养殖海水中氨氮含量,以大围网养殖海水中的氨氮为研究对象,在比色光谱法基础上结合微流控技术进行靛酚蓝法比色反应,实现对溶液中氨氮含量的定量检测。建立数据处理后相应的模型,并且对比了不同光谱预处理和不同样本集划分算法对建立预测模型的影响,其中多元散色校正（MSC）后再使用小波平滑的预处理方法结合排序法划分样本集建立的偏最小二乘（PLS）回归模型效果最优,建模集校正标准差（RMSEC）和预测集校正标准差（RMSEP）分别为0.0566mg/L和0.0677mg/L,相对分析误差（RPD）为6.8932;在优化条件下测得方法的线性范围和检测限分别为0.005~1.350mg/L和0.0036mg/L。对海水、自来水和养殖水体进行加标回收实验,平均回收率在94%~109%之间,相对标准偏差在2.3%~5.8%之间。结果表明,实验建模效果良好,操作简单、方便,实验快速、可靠、无污染,表明利用比色光谱法结合微流控技术检测氨氮方法可行。     

水产养殖水质检测与控制技术研究进展分析

水质的实时监测和调控是水产养殖过程中的关键环节,是保证水产品品质的重要措施。本文在总结和整理现有国内外研究成果的基础上,结合国内水产养殖多为池塘、网箱等封闭水质环境的特点,对水产养殖水质监测与控制系统的典型架构、水质重要参数的检测技术、水质监测与控制系统的通信技术和智能控制技术进行了分析和讨论。提出了未来技术发展方向:实时在线的水质监测和传感技术将成为研究的重点方向;水质参数的预测仍将是水质监测技术的重点研究方向,其中非线性预测模型是水质预测模型构建的主流方法;结合数据融合技术的多参数传感器正成为研究热点;低功耗广域网将成为水产养殖水质监控系统主流的远程通信技术。     

单级生物接触氧化法去除海水养殖废水中的无机氮

利用在填料上人工接种微生物组成的浸没式生物接触氧化单级处理系统对养殖废水进行净化,效果良好。在试验水体体积与处理系统体积之比约为100∶1的情况下,对氨氮、亚硝酸盐氮、硝酸盐氮起始质量浓度分别为4.0 mg/L、1.76 mg/L、800 mg/L,COD质量浓度为16.33 mg/L的养殖废水进行处理,发现处理系统中进行着强烈的硝化和反硝化作用:处理30 h,氨氮质量浓度下降并一直保持在0.1 mg/L;亚硝酸盐氮浓度48 h内,前6 h从1.76 mg/L短暂上升到2.24 mg/L,然后持续下降,最低到0.22 mg/L;对硝酸盐氮的反硝化作用能力也很强,经48 h处理,硝酸盐氮质量浓度从800 mg/L下降到180 mg/L。根据对处理过程中的水质测定,浸没式生物接触氧化单级处理试验系统具有较强的生物脱氮能力。     

无线传感器网络技术在养殖业污染监测上的应用

综述了国际上无线传感器网络技术发展的特点和趋势,提出无线传感器网络技术在畜禽和水产养殖业污染监测上应用需要解决的2个技术问题:一是选择合理的IP无线传输方式;二是选择合理的系统结构,达到较高的性价比。设计出适合不同地域、不同生态环境的无线传感器网络的拓扑结构,实现在户外或野外环境下对畜禽和水产养殖业污染的监测。     

Hyperaccumulation of selenium in hybrid striped bass: a functional food for aquaculture?

One method of increasing the value of aquacultured product is to produce fillets that are fortified with minerals that are beneficial to human health – that is enhance the functionality of an already healthy product. A good candidate mineral in this regard is selenium (Se) which is of vital importance to normal metabolism in humans. In order to evaluate the dose response and tissue accumulation of supplemental dietary Se, a study was undertaken with hybrid striped bass (HSB). Animals were fed diets supplemented with either organic (0–3.2 mg kg^?1 as SelPlex^®) or inorganic (0.2 and 0.4 mg kg^?1 as sodium selenite) Se for 6 weeks. Because basal fishmeal‐based diets contained 1.22 mg Se kg^?1, doses of Se delivered equated to 1.22–4.42 mg kg^?1. At trial end, greatest weight gain was observed in fish receiving 0.2 mg Se kg^?1, irrespective of form (organic/inorganic). Se accumulation in HSB liver and fillet revealed a classical dose‐response once a threshold level of 0.2 mg Se kg^?1 was surpassed. Greatest tissue accumulation of Se was observed in fish fed the 3.2 mg Se kg^?1 level (P > 0.0001). A 100 g portion of Se‐enhanced HSB fillet would contain between 33 and 109 μg Se, amounting to a dietary intake of between 25 and 80 μg Se; a level that would satisfy present daily intake recommendations. Comparison of tissue Se levels indicated that the muscle provides a more conspicuous gauge of dietary Se dose‐response than does liver. Dietary treatments of between 0.4 and 1.6 mg organic Se kg^?1 reduced (P < 0.024) plasma glutathione peroxidase (GSH‐Px) activity. No differences were observed in ceruloplasmin, lysozyme or GSH‐Px activities between organic and inorganic Se when delivered at the 0.2 mg Se kg^?1 level. Ceruloplasmin, lysozyme and GSH‐Px levels were elevated (P ≥ 0.025) in fish fed the diet containing 0.4 mg inorganic Se kg^?1.     

FOAM, a new simple benthic degradative module for the LAMP3D model: an application to a Mediterranean fish farm

The modelling framework already introduced by Doglioli, Magaldi, Vezzulli and Tucci to predict the potential impact of a marine fish farm is improved following different directions, namely (1) real historic current-metre data are used to force the simulations, (2) settling velocity values specifically targeting Mediterranean fish species are used, and (3) a new benthic degradative module, the Finite Organic Accumulation Module, is added to the modelling framework. The Finite Organic Accumulation Module uses the output of the other functional units of the modelling framework to calculate the organic load on the seabed. The Finite Organic Accumulation Module considers the natural capability of the seafloor in absorbing part of the organic load. Different remineralization rates reflect the sediment stress level according to the work of Findlay and Watling. Organic degradation for both uneaten feed and faeces is evaluated by changing the release modality (continuous and periodical) and by varying the settling velocities. It is found that the maximum impact on the benthic community is observed either for quickly sinking uneaten feed released twice a day, or for less intense near-bottom current conditions. If both the above-mentioned scenarios coexist, a high stress level is established in the sediment. The model also suggests that the use of self-feeders in cages can reduce farm impacts significantly. These results show how the new and more complete modelling framework presented here is able to improve the objectivity in the decision-making processes and how it may be successfully used for planning and monitoring purposes.     

The pond's shape matters: differential growth,physiological condition and survival of epibenthic Farfantepenaeus aztecus postlarvae

As a function of the water quality provided by square, circular and oval experimental ponds, the growth, survival and oxygen requirements in epibenthic postlarvae of Farfantepenaeus aztecus were analysed in relation to their routine metabolism and apparent heat increment. Temperature, oxygen concentration, pH and salinity were measured daily in two experimental ponds of each shape. The postlarvae oxygen consumption during two 24‐h cycles, their growth, physiological condition and survival and the productivity in the ponds were estimated. Low values of pH, oxygen concentration and phytobenthos productivity, and reduced postlarvae relative growth and survival were observed in the square ponds. We suggest that the latter results from a deficient water circulation related to the effect of the pond's shape on dissolved oxygen levels and, consequently, on growth and survival. The postlarvae routine metabolism, including feeding, varied between 1.91 and 2.25 mg O₂ h^?1 g^?1 wet weight, whereas the minimum oxygen concentration needed in the ponds is approximately 4.25 mg O₂ L^?1. These conditions were achieved in the oval ponds concurrent with higher survival and growth values, in which individuals distributed randomly, for which we suggest that oval‐shaped ponds could be the most adequate for the culture of this and other penaeid species.     

北方半湿润滨海地区海水养殖废水灌溉菊芋研究

2007年3~10月,在山东莱州海洋863中试基地,研究了海水养殖废水灌溉条件下,耐盐能源植物菊芋的盐胁迫响应以及对氮、磷的吸收利用机制。结果表明:海水养殖废水灌溉条件下,菊芋地上部生物量(茎、叶)随着灌溉水盐度(S)的增加明显下降,盐度为9.46 g/L的养殖废水处理生物量仅为淡水处理(CK2)的62.5%;地下部生物量(根、块茎)与盐度之间的关系符合一元二次方程曲线,且当盐度为3.83 g/L时,地下部生物量取得最大值(0.205 kg/株)。养殖废水处理菊芋地上部氮浓度明显低于淡水处理,地下部则各灌溉水处理间氮浓度没有明显差异;磷浓度地上部各灌溉水处理间没有明显差异,但地下部养殖废水灌溉处理明显高于淡水处理,表明海水养殖废水灌溉可以促进菊芋对磷的吸收,但氮利用受到显著影响。通过氮、磷通量计算,进一步证实了这一结果。