农村固体废物回收和循环利用现状及对策

随着农业产业化发展、农村生活水平的提高和人口的迅速增长,农村固体废物种类增多,产生量大幅度增加,而且农村固体废物是重要的环境污染源和疾病传播源。因此解决农村固体废物的处理处置与资源化是农村进一步发展的迫切需要。文章针对农村固体废物污染的现状,从固体废物的组成危害以及现阶段循环利用出现的问题出发,提出了农村固体废物循环利用的相关措施及对策,对促进农村经济发展、改善农村生态环境和农民身心健康具有重要的现实意义。     

内陆水域负载量研究

综述了内陆水域水产养殖负载量的研究概况,并对各种研究方法的优点和局限性进行了评价,最后对负载量的研究前景进行了展望。     

固定化藻菌去除淡水养殖废水氨氮效果及模型拟建

[目的]研究固定化藻菌去除水养殖废水氨氮效果及模型拟建.[方法]利用固定化藻菌(ABI)处理淡水养殖废水中的氨氮,采用多因子正交试验得到温度(T)、PH、光照强度(I)、溶解氧(DO)和填充率五因子与氨氮去除率(AR)之间的关系数据,拟建五因子与氨氮去除率关系模型.[结果]五因子对氨氮去除率均具有显著影响,最佳去氮氮组合为,温度30℃、pH值7.0、光照强度6 000 lx、溶解氧5.0 mg/L、填充率10%.根据实验数据拟建的方程模型决定系数R2=0.864 8,相伴概率P<0.05,对氨氮去除率的模型预测值与实际测值进行样本T-检验,结果表明总体均值差异显著值sig.为0.978(P>0.05),模型预测值与实际测值数据组无显著性差异,模型具有较高拟合度.[结论]为实现养殖废水中氨氮去除或浓度降低提供参考依据. Abstract： Applied Immobilized algae bacteria (ABI) to remove ammonia of freshwater aquaculture wastewater.Temperature (T),PH,light intensity (I),dissolved oxygen (DO) and filling rate five factors plays important role in the process of ammonia nitrogen removal,related data between ammonia removal and five factors was received through multi-factor orthogonal test,and established relations model between the five factor and nitrogen removal.The results show that five-factors had significant effect on AR,and the best combinations for removing AR was temperature 30 ℃,pH=7.0,light intensity 6 000 lux,dissolved oxygen 5.0 mg/L and the fill rate 10%.According to the experimental data,equation model was proposed and coefficient of determination R2=0.864 8,P<0O.05.Samples T-test was done between the model predictions and the actual measured values.Test results showed that the significant difference of overall mean value sig.(2-tailed) was 0.978 (P>0.05),it Shows that had no significant difference between model predictions and the actual measured value,and model had a high degree of fitting.     

Accuracy of a machine-vision pellet detection system

Video cameras are employed on net pen fish farms for monitoring food pellet levels near the cage bottom. Herein, the accuracy of a new machine-vision system for the identification of a feed-wastage event and its response time are reported. Research involved novel tests and definitions, video footage recorded under different stocking and environmental conditions, and numerical filters to reduce the effects of misclassifications and patchiness of the pellet wastage record on overall system accuracy. Single-frame food pellet detection accuracy was based on the difference between computer-generated and actual frame counts of pellets greater than 30 pixels in size. A pellet wastage event was defined as a median of three or more visible pellets per frame. During tests on still video frames from different feeding events, the system missed 0.1±0.1 to 1.3±0.4 pellets frame⁻¹, and miss-classified as pellets 0±0.1 to 2.3±0.5 objects frame⁻¹ (n=264). Most missed pellet images were on top of fish images. Waste matter accounted for 65% of the misclassifications, while particles associated with poor camera maintenance accounted for approximately 24%. The average response time to a pellet wastage event was 5.1 and 11.4 s for sampling rates of 2 frames s⁻¹ and 0.5 frames s⁻¹, respectively (n=20 different pellet wastage events). The longest response time (26 s) occurred when fish were amassed against the camera and/or covering pellets. Using appropriate camera lens, camera positioning and/or ‘warning’ software can address fish-interference problems.     

地衣芽孢杆菌降解水产养殖中残余饵料的特性研究

从土壤及饲料添加剂中筛选获得了一株能较高效降解水产养殖中残余饵料蛋白、淀粉的功能菌,经鉴定为地衣芽孢杆菌.通过研究养殖水体中饲料浓度、pH值、温度等因素对地衣芽孢杆菌降解饲料中蛋白质、淀粉的影响.结果表明,该菌降解饲料中蛋白质、淀粉的适宜条件为:饲料浓度≤5g/L,pH值6～7,温度25～30℃,盐浓度0～1%,溶氧浓度约4mg/L.地衣芽孢杆菌在这种水体生态条件下接种5%,饲料中的蛋白质与淀粉降解率约为60%.     

Behavioral responses of tilapia (Oreochromis niloticus) to acute fluctuations in dissolved oxygen levels as monitored by computer vision

Behavioral and ventilatory parameters have the possibility of predicting the stress state of fish in vivo and in situ. This paper presents a new image-processing algorithm for quantifying the average swimming speed of a fish school in an aquarium. This method is based on the alteration in projected area caused by the movement of individual fish during frame sequences captured at given time intervals. The image enhancement method increases the contrast between fish and background, and is thus suitable for use in turbid aquaculture water. Behavioral parameters (swimming activity and distribution parameters) and changes in ventilation frequency (VF) of tilapia (Oreochromis niloticus) responded to acute fluctuations in dissolved oxygen (DO) which were monitored continuously in the course of normoxia, falling DO level, maintenance of hypoxia (three levels of 1.5, 0.8 and 0.3 mg l⁻¹) and subsequent recovery to normoxia. These parameters responded sensitively to acute variations in DO level; they displayed significant changes (P < 0.05) during severe hypoxia (0.8 and 0.3 mg l⁻¹ level) compared with normoxic condition, but there was no significant difference under conditions of mild hypoxia (1.5 mg l⁻¹ level). There was no significant difference in VF between two levels of severe hypoxia 0.8 and 0.3 mg l⁻¹ level during the low DO condition. The activity and distribution parameters displayed distinguishable differences between the 0.8 and 0.3 mg l⁻¹ levels. The behavioral parameters are thus capable of distinguishing between different degrees of severe hypoxia, though there were relatively large fluctuations.     

The ecological role of bivalve shellfish aquaculture in the estuarine environment: A review with application to oyster and clam culture in West Coast (USA) estuaries

Aquaculture is viewed as a potential mechanism to meet the growing demand for seafood around the world. The future of bivalve shellfish aquaculture in the U.S. hinges on sustainable practices on the part of industry and a more consistent regulatory regime. Bivalve shellfish aquaculture is a recent practice relative to its history in other countries, beginning in the late 1800s along the U.S. West Coast where it is now well established with farm raised product utilizing land-based hatcheries and grow-out directly in numerous estuaries. Bivalve shellfish aquaculture can be viewed as a disturbance which modifies the estuarine system in three ways: 1) changes in material processes — bivalves process food and produce wastes; 2) addition of physical structure — aquaculture introduces the cultured organisms and in some cases a physical anchoring structure; and 3) pulse disturbances like harvest and bed maintenance disturb sediments, remove species in addition to the cultured organisms themselves, and change resource or habitat availability. In U.S. West Coast estuaries, water column and sediment nutrient concentrations are relatively high and influenced by large tidal exchange and proximity to deeper nearshore ocean waters where upwelling controls production during summer months. Bivalves are unlikely to influence material processes except at local bed scales in these systems, although estuary-wide effects could appear as the fraction of cultured area rises or in poorly flushed bays. Bivalve culture clearly modifies estuarine habitat at local community and at landscape scales and effects are most often evaluated against existing structured habitat in the form of submerged aquatic vegetation. Individual activities act as pulse disturbances and the recovery of eelgrass (Zostera marina) to pre-disturbance levels is variable (< 2 to > 5 years). The extent of disturbance depends on the aquaculture practice and the distribution of eelgrass reflects a balance of space competition, pulse disturbance and recovery, and is therefore at dynamic equilibrium on aquaculture beds. Structure provided by aquaculture appears functionally similar to eelgrass for small benthic infauna and mobile epibenthic fauna while use of aquaculture as habitat by larger more mobile invertebrates and fish depends on mobility and varies with life-history stage and taxon being evaluated. Scale seems a very important management consideration and further research at estuarine landscape scales, especially for habitat use by important invertebrates and fish, may prove useful in designing and implementing best management practices. Though local and short term effects from aquaculture are clearly evident in U.S. West Coast estuaries, bivalve aquaculture does not remove area from the estuary or degrade water quality like other anthropogenic influences, and thus has not been implicated in shifts to alternate states or reduced adaptive capacity of the larger ecological system.     

广西工厂化循环水养殖石斑鱼水质处理效果

通过集成海水养鱼、生化处理、设施工程、环境工程、电器自控和水质监控等技术,建立一套适合广西地区应用的工厂化循环水石斑鱼养殖系统。该养殖系统处理流程为:鱼池→沉淀池→蛋白质分离器→生物滤池→海马齿浮床→紫外杀菌,生物滤池包括A、B、C三个通道,A、B通道均由珊瑚石作为一、二级生物过滤和生化球作为三级过滤,C通道由珊瑚石作为一级过滤和椰子壳碎作为二、三级过滤。结果显示:沉淀池处理可以显著降低鱼池的COD,氨氮、亚硝酸盐氮、硝酸盐氮和磷酸盐的质量浓度(P<0.05);经海马齿浮床系统处理后,硝酸盐氮质量浓度显著低于沉淀池、蛋白质分离器处理池、生物滤池A、B通道(P<0.05);整体上,C通道水质指标略低于A、B通道,但差异不明显(P>0.05)。该研究结果可为广西沿海发展循环水养殖技术以及养殖生产方式转变提供可靠的科学数据和技术参考。     

国外封闭循环水养殖系统工艺流程设计现状与展望

以发达国家成功运行的养殖系统为出发点,按照不同养殖鱼类的生活习性、水体流态以及水处理工艺特性的不同,将其归类为4种典型鱼类的循环水养殖系统工艺(常规游泳性鱼类、鲆鲽类、鲑鳟类、鳗鲡等),分析探讨每种工艺的设计理念、设计思路等,总结工艺流程设计技术特征,展望未来发展趋势,提出循环水养殖工艺流程设计较为特殊的3种模式,从而为封闭循环水养殖系统设计提供技术参考。     

硅肥在现代种植业及水产养殖领域中的应用

以硅肥在现代种植业及水产养殖的广泛应用为研究背景,阐述了硅肥在现代种植业中的作用机制及效果,系统地归纳了硅肥在现代水产养殖领域中的应用情况及其使用效果,指出硅肥在种植业、养殖业及饲料添加剂领域中均具有广阔的发展前景。