Trophic segregation in a burrow: the stable carbon and nitrogen isotope ratios of the burrowing shrimp Upogebia major and its commensal bivalve Cryptomya busoensis

IF 0.6 4区 生物学 Q4 MARINE & FRESHWATER BIOLOGY Plankton & Benthos Research Pub Date : 2020-08-14 DOI:10.3800/pbr.15.220
K. Seike, R. Goto
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引用次数: 7

Abstract

: Burrows produced by marine invertebrates often harbor other small commensal invertebrates. The mud shrimp Upogebia is known to coexist with the myid bivalve Cryptomya in a burrow produced by the shrimp. Both species are filter-feeders, and thus interspecific competition or trophic niche segregation may occur in the burrow. Samples for carbon and nitrogen stable isotope analysis were collected from a tidal flat near the tidal inlet of Akkeshi Lake, Hokkaido, northern Japan in April 2013. In addition, stratified benthos sampling was conducted on the tidal flat in August 2018, to clarify the interspecific relationship between U. major and C. busoensis in the burrow. The stratified benthos sampling showed the vertical distribution of these species, and indicated that both species filter water from the same part of the burrow for feeding. The stable carbon and nitrogen isotope analysis showed that important food sources for both U. major and C. busoensis are marine phytoplankton and microphytobenthos. In addition, C. busoensis is likely to consume terrestrial organic matter whereas U. major is unable to utilize it. The partial trophic segregation between the species increases the potential benthic filtering because it allows the Upogebia burrow complex to con sume a wide variety of organic matter, and it might reduce interspecific competition between the filter-feeding host and its commensal species. These results demonstrate how ecologically similar macrobenthos can coexist in a burrow.
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洞穴中的营养分离:洞穴虾Upogebia major及其共生双壳类Cryptomya busoensis的稳定碳氮同位素比率
:海洋无脊椎动物产生的洞穴通常栖息着其他小型共生无脊椎动物。众所周知,泥虾Upogebia与myid双壳类Cryptomya在虾产生的洞穴中共存。这两个物种都是滤食性动物,因此洞穴中可能会发生种间竞争或营养生态位分离。用于碳和氮稳定同位素分析的样本是2013年4月从日本北部北海道阿克什湖潮汐入口附近的潮汐流中采集的。此外,2018年8月对潮汐流进行了海底生物分层采样,以澄清洞穴中的大蟾蜍和布森蟾蜍之间的种间关系。分层海底生物采样显示了这些物种的垂直分布,并表明这两个物种都从洞穴的同一部分过滤水进行觅食。稳定的碳氮同位素分析表明,浮游浮游植物和小型底栖生物是主要和重要的食物来源。此外,C.busoensis可能会消耗陆地有机物,而U.major则无法利用它。物种之间的部分营养隔离增加了潜在的底栖生物过滤,因为这使Upogebia洞穴复合体能够消耗各种有机物,它可能会减少滤食性宿主与其共生物种之间的种间竞争。这些结果证明了生态上相似的大型底栖动物是如何在洞穴中共存的。
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来源期刊
Plankton & Benthos Research
Plankton & Benthos Research Agricultural and Biological Sciences-Aquatic Science
CiteScore
1.30
自引率
0.00%
发文量
32
期刊介绍: Plankton and Benthos Research is a peer-reviewed journal publishing quarterly original papers, reviews and notes dealing with any aspect of the biology and ecology of planktonic and benthic organisms and their interactions with the environment in any aquatic system, and is open to all scientists around the world. Submission of a paper is held to imply that it represents an original contribution not previously published and that it is not being considered elsewhere.
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