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    • 1. 发明授权
    • Aquaculture
    • 水产养殖
    • US06827036B2
    • 2004-12-07
    • US10118043
    • 2002-04-09
    • Michael Connolly
    • Michael Connolly
    • A01K6100
    • A01K61/10A01K61/20A01K61/80A01K63/04Y02A40/81Y02W10/37
    • Aquaculture apparatus includes an elongate tube of flexible translucent plastic material which extends longitudinally along level ground. The tube is inflated and air supported. At least the lower section of the tube defines a water course. The tube is closed at both ends to form a water enclosure. A number of such tubes are arranged in side-by-side relation and are covered by a plastic sheet cover layer. The cover provides an air gap to insulate the inner tubes and restrict heat loss. The tubes are used to form at least some of the modules of an aquaculture system for rearing fish and/or for effluent, waste or water treatment.
    • 水产养殖设备包括柔性半透明塑料材料的细长管,其沿着地面纵向延伸。 管充气并支撑空气。 管的至少下部限定了水道。 管两端封闭,形成水箱。 多个这样的管以并排的关系布置并被塑料片覆盖层覆盖。 盖子提供空气间隙以使内管绝缘并限制热损失。 管用于形成用于饲养鱼类和/或用于流出物,废物或水处理的水产养殖系统的至少一些模块。
    • 3. 发明授权
    • Methods for growing and imprinting fish using an odorant
    • 使用气味剂生长和印迹鱼的方法
    • US06748900B2
    • 2004-06-15
    • US10268051
    • 2002-10-08
    • H. William Harris, Jr.Steven JuryDavid R. RussellJacqueline NearingMarlies BetkaTimothy LinleyEdward M. Brown
    • H. William Harris, Jr.Steven JuryDavid R. RussellJacqueline NearingMarlies BetkaTimothy LinleyEdward M. Brown
    • A01K6100
    • C07K14/461A01K79/00A01K79/02A23K50/80
    • The present invention relates to methods of imprinting fish in freshwater with at least one odorant for the fish and causing the imprinted fish to react to the odorant in seawater, wherein the fish are maintained in freshwater prior to transfer to seawater. The method includes: adding at least one Polyvalent Cation Sensing Receptor (PVCR) modulator to the freshwater in an amount sufficient to modulate expression and/or sensitivity of at least one PVCR, the PVCR modulator being one which alters olfactory sensing of the fish to the odorant; adding feed for fish consumption to the freshwater, the feed containing the odorant and an amount of NaCl sufficient to contribute to a significantly increased level of the PVCR modulator in serum of the fish upon consumption of the feed, whereby the fish are imprinted with the odorant; transferring the imprinted fish to seawater; and providing a source of said odorant in the seawater to which the imprinted fish are transferred, thereby causing the imprinted fish to react to said odorant. The present invention also includes methods of homing or attracting fish, as well as methods for repelling fish by modulating the expression and/or sensitivity of the PVCR in the olfactory apparatus of the fish.
    • 本发明涉及将鱼类在淡水中印迹至少一种用于鱼类的气味剂并使印迹鱼与海水中的气味剂反应的方法,其中在转移到海水之前将鱼保持在淡水中。 该方法包括:将至少一种多价阳离子感应受体(PVCR)调节剂以足以调节至少一个PVCR的表达和/或敏感性的量添加到淡水中,PVCR调节剂是将鱼的嗅觉感测改变为 气味; 向淡水添加饲料,含有气味剂的饲料和一定量的NaCl足以有助于在饲料消耗时鱼血清中PVCR调节剂的水平显着提高,由此将鱼加上加味剂 ; 将印迹鱼转移到海水中; 并在所述海水中提供所述加臭剂的来源,所述海水中转印有所述印迹鱼,从而使所述印迹鱼与所述加臭剂反应。 本发明还包括归巢或吸引鱼的方法,以及通过调节鱼的嗅觉装置中PVCR的表达和/或敏感性来排斥鱼的方法。
    • 4. 发明授权
    • Aquatic animal incubation device
    • 水生动物孵化装置
    • US06644242B2
    • 2003-11-11
    • US10129769
    • 2002-05-08
    • Hiroshi Yamada
    • Hiroshi Yamada
    • A01K6100
    • A01K61/17Y02A40/816
    • Incubation device (10) has a structure wherein an incubation tank (11) and a separation tank (12) are put into communication with each other at the lowermost parts via a narrow communicating port (13). A side opening (14) is formed in the separation tank (12). The wall of the lower part of an upper housing part (12a) and of the entirety of a lower housing part (12b) of the separation tank (12) are formed from a colored, light-shielding material OP. Sea water (D) is housed in incubation tank (11) and the lower part of separation tank (12), freshwater (E) is housed in the upper part of the separation tank (12), and an interface (F) between the sea water (D) and the freshwater (E) is formed inside the separation tank (12). Brine shrimp larvae (2) hatch in the incubation tank (11) and upon moving into the separation tank (12), move from the light-shielded lower part towards the unshielded upper part and eventually swim outside into an aquarium tank from the side opening (14).
    • 孵育装置(10)具有通过窄通气口(13)将孵育罐(11)和分离罐(12)在最下部彼此连通的结构。 在分离罐(12)中形成侧面开口(14)。 上部壳体部分(12a)的下部壁和分离罐(12)的下部壳体部分(12b)的整体的壁由着色的遮光材料OP形成。 海水(D)容纳在孵育罐(11)中,分离罐(12)的下部,淡水(E)被容纳在分离罐(12)的上部,并且在 海水(D)和淡水(E)形成在分离罐(12)内。 盐水虾幼体(2)孵化槽(11),移入分离槽(12)后,从遮光的下部向非屏蔽的上部移动,最后从侧面开口游泳到水族箱中 (14)。
    • 5. 发明授权
    • Inner valves for fish cage
    • 鱼笼内阀
    • US06581543B1
    • 2003-06-24
    • US09959971
    • 2001-11-14
    • Dag Kolberg
    • Dag Kolberg
    • A01K6100
    • A01K61/60Y02A40/826
    • A fish cage having one or more air-tight buoyancy rings (1) being entirely or partially hollow, with water valves (20) for inlet and outlet of water, and air valves (3) for injection and outlet of air, and preferably with closing shot plates (2) in the buoyancy ring (1). The novel feature according to the invention is that at least one or more of the air valves (3), and preferably also the water valves (20) are arranged inside of the buoyancy ring (1) so that the air valves (3) and water valves (20) are protected from external mechanical influence.
    • 具有一个或多个气密性浮力环(1)的鱼笼具有完全或部分中空的,具有用于入口和出口的水阀(20)和用于喷射和排出空气的空气阀(3),并且优选具有 在浮力环(1)中关闭喷射板(2)。 根据本发明的新颖特征是至少一个或多个空气阀(3),并且优选地还包括水阀(20)布置在浮力环(1)的内部,使得空气阀(3)和 水阀(20)被保护免受外部机械影响。
    • 10. 发明授权
    • Bio-hydraulic turbine testing system
    • 生物水轮机测试系统
    • US06832578B2
    • 2004-12-21
    • US09874217
    • 2001-06-06
    • Mufeed Odeh
    • Mufeed Odeh
    • A01K6100
    • A01K29/005A01K61/90Y02A40/81
    • A bio-hydraulic testing system is provided for simulating the effect on fish of at least one hydraulic system component. A water flow introduction device introduces a flow of water into the testing system, and a fish introduction means introduces a plurality of fish into the testing system. A flow introduction conduit receives a flow containing water from the flow introduction device and fish from the fish introduction device. A testing module receives the flow from the flow introduction conduit. Monitoring device monitor and record fish activity in the water flow in the testing module. Fish exit the testing module into a flow exit conduit, and are collected by fish collection device located downstream of the exit conduit. Finally, discharge device discharge the water from the testing system.
    • 提供了一种生物液压测试系统,用于模拟至少一个液压系统部件对鱼的影响。 水流引入装置将水流引入测试系统,鱼引入装置将多条鱼引入测试系统。 流动导入管道从流动引入装置接收含有水的流动,​​并从鱼引入装置接收鱼。 测试模块接收来自流动导入管道的流量。 监测设备在测试模块中的水流中监测和记录鱼类活动。 鱼将测试模块退出到出口导管中,并且由位于出口导管下游的鱼采集装置收集。 最后,排放装置将水从测试系统中排出。