关于我国海水网箱养鱼发展现状与危机分析及可持续发展的探讨

我国海水网箱养鱼发展现状是以个体联合体生产经营为主体的低技术水平的数量规模化，众多传统港湾已形成了大范围的严重超负荷养殖状态，其对环境巨大的污染力引发鱼病猖獗和频受赤潮侵袭，已面临严峻的养殖环境危机。本文综合分析了我国海水网箱养鱼的发展现状与负面效应及其现状危机，并初步进行了危机根源和可持续发展的讨论分析。     

燕麦枯对环境生物的安全性评价

本文报道了杂环类内吸性除草剂燕麦枯（ｄｉｆｅｎｚｏｑｕａｔ）对家蚕，蜜蜂，广赤眼蜂，瓢虫，蚯蚓及土壤微生物种群的生物活性测定结果，该结果表明，燕麦枯在高于使用剂量下对供试的生物种群的没有明显影响，由此推断，在推荐用量下燕麦枯不会造成对田间生物种群的破坏。     

海洋灾害对渔业资源管理的影响及其对策

近年来,恶性捕捞严重,海洋渔业资源管理模式落后。同时,人类过度开发利用以及不可抗因素时有发生,使得海洋生态系统遭到破坏,渔业资源管理也面临着新的问题。对我国渔业资源管理现状以及非常态下渔业资源的恢复与开发利用等方面进行了综述,对非常态下渔业资源管理中存在的问题进行了阐述,并提出了对应的管理措施,最后对非常态下渔业资源管理制度发展建设进行了展望。     

湛江儿童公园景观设计

方案设计将以"儿童"为设计的主旨,配备与时俱进的功能和设施,丰富多彩的游乐场地,从本土特色海洋文化和传统中寻找设计灵感和元素,使得设计中更富有地域特色,帮助儿童认识和热爱家乡,从而打造极富特色并能够培养和锻炼孩子各方面能力,极具启发性、互动性、娱乐性的寓学于乐的儿童公园。     

辽宁海洋牧场建设的金融投入研究

辽宁省海洋资源丰富,渔业产业基础雄厚,具有发展海洋牧场的巨大潜力。辽宁海洋牧场的技术密集型和资金密集型特征,需要构建有力、有效的金融服务体系。为此,需要发挥政策金融的引领作用,突出商业金融的中坚作用,注重合作金融的普惠作用,形成整体合力。     

小流域的综合治理

1984年以来,舒城县采取工程和生物措施相结合的办法,对胡家河等6个小流域进行了综合治理。本文扼要地将在治理和管护工作中积累的经验、方法以及其成效、研究资料介绍给大家,以供参考。     

活性生物颗粒有机肥生产技术与成型设备的研究

针对我国当前有机肥生产技术工艺现状与关键加工成型设备的局限性以及成型过程中出现的问题,研究开发活性生物颗粒有机肥生产新工艺与空心对辊式成型设备。论述了生物颗粒有机肥生产新工艺的特点及该成型设备的结构组成和工作原理。通过应用表明,该工艺和成型机具结构和参数设计合理,能满足生物颗粒有机肥生产的要求,该技术的研究和成型机具的研制有效地提高了我国生物颗粒有机肥成型的品质和成型率。     

毒死蜱与氟虫腈复配对环境生物的影响研究

本文测定了毒死蜱与氟虫腈及其复配对靶标生物小菜蛾和二化螟的室内活性,对非靶标生物意大利蜜蜂、家蚕、斑马鱼的毒性。试验结果为毒死蜱对小菜蛾,二化螟,蜜蜂,斑马鱼,家蚕的LC50分别为586.2,45.97,2.482,0.723,1.749mg/L;氟虫腈对上述生物的LC50分别为0.121 4,1.038,0.025 1,0.180,2.325mg/L;复配后对上述生物的LC50分别为0.5256,5.626,1.983,0.535,1.528mg/L。复配后对小菜蛾、二化螟的共毒系数为230.6、153.3,对蜜蜂、斑马鱼、家蚕的共毒系数为11.6、103.8、117.3。     

Artemia enriched with high n-3 HUFA may give a large improvement in performance of Atlantic halibut (Hippoglossus hippoglossus L.) larvae

Atlantic halibut larvae were fed Artemia enriched with two different oil emulsions (cod liver oil and 2050TG) from first feeding to 70 days after first-feeding (dpff). Larvae fed 2050TG enriched Artemia had better growth, survival and eye migration than larvae fed the cod liver oil enriched Artemia, while pigmentation rate was similar in the two groups. In addition to the difference in fatty acids, the two emulsions differed in lipid class composition, since 2050TG is a synthetic oil and a mixture of mono-, di- and tri-acylglycerol, while cod liver oil is a tri-acylglycerol. Total lipid level, estimated as fatty acid methyl esters (FAME) was similar in the two Artemia types, but sum of n-6 and n-3 fatty acids, arachidonic acid (20:4n-6, ARA), docosahexaenoic acid (22:6n-3, DHA) and eicosapentaenoic acid (20:5n-3, EPA) were higher in Artemia enriched with 2050TG than in the cod liver oil enriched Artemia. However, the main difference in fatty acid composition in the larvae, was a higher DHA (% of total fatty acids) in 2050TG larvae than in cod liver oil larvae. The lipid level measured as FAME was up to four times higher in the 2050TG larvae than in the cod liver oil larvae, and the reason for this may have been a better bioavailability of the partly digested lipid in the 2050TG emulsion. The correlation between a high level of lipid in the larval tissues (e.g. high energy status) and improved eye migration in larvae fed the 2050TG enriched Artemia supports the hypothesis that energy limitation on the larval stage may be a cause of the impaired eye migration commonly observed in farmed Atlantic halibut juveniles.     

The Pelagos Sanctuary for Mediterranean marine mammals

• 1. In February 2002, France, Italy and Monaco agreed to establish an international sanctuary for Mediterranean marine mammals. The resulting Pelagos Sanctuary encompasses over 87500 km² of the north‐western Mediterranean Sea, extending between south‐eastern France, Monaco, north‐western Italy and northern Sardinia, and surrounding Corsica and the Tuscan Archipelago.
• 2. The Pelagos Sanctuary illustrates how the tenets of Marine Protected Area (MPA) design can be reconciled with the dynamic nature of oceanic systems, because its spatial scale was defined by oceanographic and ecological considerations, specifically the location of the Ligurian permanent frontal system.
• 3. By expanding protective measures beyond national waters, the Pelagos Sanctuary also sets a precedent for the implementation of pelagic protected areas in the high seas. The Pelagos Sanctuary will contribute to the conservation of the Mediterranean Sea at two scales: (i) locally, by protecting important cetacean foraging and breeding grounds in the Ligurian Sea, and by providing ‘umbrella’ protection to other marine predators in this area; and (ii) regionally, by empowering other conservation measures, such as the Specially Protected Areas Protocol of the Barcelona Convention and the wider goals of the Agreement on the Conservation of Cetaceans of the Black and Mediterranean Seas (ACCOBAMS).
• 4. However, because few cetacean species are resident within the Sanctuary, their effective long‐term conservation will require large‐scale management and coordinated monitoring throughout the Mediterranean basin.

Copyright © 2007 John Wiley & Sons, Ltd.