Døving Kjell B, Stabell Ole B, Ostlund-Nilsson Sara, Fisher Rebecca
Institute of Molecular Bioscience, University of Oslo, PO Box 1041, N-0316 Oslo, Norway.
Chem Senses. 2006 Mar;31(3):265-72. doi: 10.1093/chemse/bjj028. Epub 2006 Jan 25.
A number of tropical coral reef fish hold station and display restricted home ranges. If artificially displaced, they will return to their home site. We questioned if marine fish are using the same mechanisms for home site detection as many freshwater fish, that is, by olfactory sensing of chemical signals deposited on the substrate by conspecific fish. Behavioral experiments were conducted on Lizard Island Research Station, Queensland, Australia, in 2001 and 2002. Five-lined cardinalfish (Cheilodipterus quinquelineatus) were tested in groups with split-branded cardinalfish (Apogon compressus) as a reference species and individually against Apogon leptacanthus as well as conspecifics of another reef site. The group tests showed that both species preferred artificial reef sites that had previously been occupied by conspecifics. Individual C. quinquelineatus preferred scent of conspecifics from their own reef site to that from another site. They also preferred the scent released by artificial reefs previously occupied by conspecifics of their reef site to that of similar reefs previously occupied by conspecifics of another reef site. No discrimination between species from the same reef site was obtained in experiments with individual fish. Our data suggest that cardinalfish are keeping station and are homing by use of conspecific olfactory signals.
许多热带珊瑚礁鱼类会停留并表现出有限的活动范围。如果被人为转移,它们会返回自己的栖息地。我们质疑海洋鱼类是否与许多淡水鱼类使用相同的机制来探测栖息地,即通过嗅觉感知同种鱼类沉积在基质上的化学信号。2001年和2002年在澳大利亚昆士兰州的蜥蜴岛研究站进行了行为实验。将五线天竺鲷(Cheilodipterus quinquelineatus)与裂斑天竺鲷(Apogon compressus)作为参考物种分组进行测试,并分别与细棘天竺鲷(Apogon leptacanthus)以及另一个珊瑚礁地点的同种鱼类进行测试。分组测试表明,这两个物种都更喜欢先前被同种鱼类占据过的人工礁体。单独的五线天竺鲷更喜欢来自其自身珊瑚礁地点的同种鱼类的气味,而不是来自另一个地点的气味。它们也更喜欢其珊瑚礁地点的同种鱼类先前占据过的人工礁体释放的气味,而不是另一个珊瑚礁地点的同种鱼类先前占据过的类似礁体的气味。在对单独鱼类的实验中,未发现来自同一珊瑚礁地点的物种之间存在差异。我们的数据表明,天竺鲷通过使用同种嗅觉信号来停留并归巢。
