Operation Wallacea, Wallace House, Old Bolingbroke, Spilsby, Lincolnshire PE23 4EX, UK.
Department of Zoology, University of Oxford, The Tinbergen Building, South Parks Road, Oxford OX1 3PS, UK.
Biol Lett. 2020 Dec;16(12):20200723. doi: 10.1098/rsbl.2020.0723. Epub 2020 Dec 23.
Cleaning symbioses on tropical coral reefs are typically documented between two species: a single client fish and one or more conspecific cleaners. However, multiple cleaner species living sympatrically in the Caribbean have been anecdotally reported to simultaneously clean the same client. Nothing is known about the patterns and processes driving these interactions, which may differ from those involving a single cleaner species. Here, we used remote underwater videography on three reefs in Honduras to record simultaneous cleaning interactions involving Pederson's cleaner shrimp () and cleaner gobies ( spp.). A pilot study on adjacent shrimp and goby stations found interactions were always initiated by shrimp. A larger, multi-year dataset shows cleaner gobies joined 28% of all interactions initiated at cleaning stations with cleaner gobies residing nearby. Client body size significantly predicted simultaneous cleaning interactions, with 45% of interactions simultaneous for clients greater than 20 cm total body length compared with only 8% for clients less than 20 cm. We also found that simultaneous cleaning interactions lasted over twice as long as shrimp-only interactions. We propose these novel multi-species interactions to be an ideal model system to explore broader questions about coexistence, niche overlap and functional redundancy among sympatric cleaner species.
在热带珊瑚礁中,清洁共生关系通常记录在两个物种之间:单一客户鱼类和一个或多个同种清洁鱼。然而,在加勒比地区,已经有多个共生的清洁物种同时清洁同一客户的情况被传闻报道。关于驱动这些相互作用的模式和过程,我们一无所知,这些相互作用可能与涉及单一清洁物种的相互作用不同。在这里,我们使用洪都拉斯三个珊瑚礁的远程水下录像记录了涉及 Pederson 清洁虾()和清洁虾虎鱼( spp.)的同时清洁相互作用。对相邻的虾和虾虎鱼站的初步研究发现,相互作用总是由虾发起的。一个更大的、多年的数据集显示,清洁虾虎鱼加入了 28%的所有在附近有清洁虾虎鱼居住的清洁站发起的相互作用。客户身体大小显著预测了同时清洁的相互作用,对于总身体长度大于 20 厘米的客户,45%的相互作用是同时的,而对于小于 20 厘米的客户,只有 8%是同时的。我们还发现,同时清洁的相互作用持续的时间是虾单一种群相互作用的两倍多。我们提出这些新的多物种相互作用是一个理想的模型系统,可以探索关于共生清洁物种共存、生态位重叠和功能冗余的更广泛问题。