Differences in Aurelia coerulea and Nemopilema nomurai colony proliferation and biofouling invasion at various in situ polyp densities in Jiaozhou Bay, China

IF 1.8 3区生物学 Q3 ECOLOGY

Journal of Experimental Marine Biology and Ecology Pub Date : 2024-03-10 DOI:10.1016/j.jembe.2024.152006

Song Feng , Xueting Xu , Aiyong Wan , Song Sun

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Abstract

Scyphozoan polyp colonies are typically patchily distributed on substrate surfaces at varying densities in the natural environment. We investigated the differences in Aurelia coerulea and Nemopilema nomurai colony proliferation and biofouling invasion at high and low in situ polyp densities in Jiaozhou Bay, China, to explore potential polyp density-dependent effects. The study found that in situ A. coerulea polyp colonies on settling plates consistently survived at high initial density (24.4 ± 2.8 ind•cm⁻²) over a one-year experiment, but 60% of colonies disappeared at low initial density (0.6 ± 0.1 ind•cm⁻²). Polyp density in these colonies constantly fluctuated with a significant difference between the two treatments, decreasing by 71.5 ± 37.0% relative to the original level at high initial density by the end of the experiment, but increasing by 237.4 ± 662.7% at low initial density. In contrast, all N. nomurai polyps, whether at high or low initial density (1.9 ± 0.6 ind•cm⁻² and 0.2 ± 0.0 ind•cm⁻²), died after approximately six weeks. Strobilation occurred in A. coerulea, but not in N. nomurai owing to the untimely die-off of polyp colonies. No significant differences in strobilation percentage, number of discs strobila⁻¹ and the calyx diameter of polyps were observed between the two density treatments. Macro-fouling organisms (e.g., ascidians and bryozoans) invaded the settling plates one week after the start of the experiment. Their coverage percentage was significantly lower at high initial polyp density in A. coerulea in a year, but there was no significant difference between both treatments in N. nomurai polyps. Nudibranch predators were discovered in the biofouling communities during the summer, with no significant differences in their numbers between the two treatments for each polyp species. The results indicated that density-dependent effects may play an important role in regulating in situ polyp colony proliferation and combatting biofouling invasion in A. coerulea, but not in N. nomurai. High colony survival and low levels of biofouling invasion at high initial polyp densities in A. coerulea might favor their extensive colonization in natural environment over extended periods of time.

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中国胶州湾不同原位息肉密度下 Aurelia coerulea 和 Nemopilema nomurai 菌落增殖和生物污点入侵的差异

在自然环境中，脊索动物多角体通常以不同的密度斑块式分布在底质表面。我们在中国胶州湾调查了高密度和低密度原位多角体在 Aurelia coerulea 和 Nemopilema nomurai 殖群增殖和生物污点入侵方面的差异，以探索潜在的多角体密度依赖效应。研究发现，在为期一年的实验中，沉淀板上的原位蟠尾珊瑚虫菌落在高初始密度（24.4 ± 2.8 ind-cm-2）条件下持续存活，但在低初始密度（0.6 ± 0.1 ind-cm-2）条件下，60%的菌落消失。实验结束时，高初始密度下这些菌落中的息肉密度比原始水平减少了 71.5 ± 37.0%，而低初始密度下则增加了 237.4 ± 662.7%。相比之下，所有 N. nomurai 息肉，无论初始密度是高（1.9 ± 0.6 ind-cm-2 和 0.2 ± 0.0 ind-cm-2）还是低（1.9 ± 0.6 ind-cm-2 和 0.2 ± 0.0 ind-cm-2），都在大约六周后死亡。在 A. coerulea 中发生了减数分裂，但在 N. nomurai 中没有发生，原因是息肉群过早死亡。在两种密度处理之间，在菌丝茁壮成长的百分比、菌丝茁壮成长的圆盘数-1 和多肉的花萼直径方面没有观察到明显的差异。实验开始一周后，大型污损生物（如腹足类和浮游动物）侵入沉淀板。在 A. coerulea 的高初始息肉密度下，它们的覆盖率在一年内明显降低，但在 N. nomurai 的息肉上，两种处理之间没有明显差异。夏季，在生物污点群落中发现了裸鳃捕食者，两种处理中每种多角体的捕食者数量无明显差异。研究结果表明，密度依赖效应可能在调节 A. coerulea 珊瑚虫原位繁殖和抵御生物污点入侵方面发挥了重要作用，但对 N. nomurai 珊瑚虫没有影响。在 A. coerulea 中，高初始息肉密度下的高菌落存活率和低生物污点入侵水平可能有利于它们在自然环境中长期广泛定殖。

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来源期刊

Journal of Experimental Marine Biology and Ecology 生物-海洋与淡水生物学

CiteScore

4.30

自引率

0.00%

发文量

审稿时长

14 weeks

期刊介绍： The Journal of Experimental Marine Biology and Ecology provides a forum for experimental ecological research on marine organisms in relation to their environment. Topic areas include studies that focus on biochemistry, physiology, behavior, genetics, and ecological theory. The main emphasis of the Journal lies in hypothesis driven experimental work, both from the laboratory and the field. Natural experiments or descriptive studies that elucidate fundamental ecological processes are welcome. Submissions should have a broad ecological framework beyond the specific study organism or geographic region. Short communications that highlight emerging issues and exciting discoveries within five printed pages will receive a rapid turnaround. Papers describing important new analytical, computational, experimental and theoretical techniques and methods are encouraged and will be highlighted as Methodological Advances. We welcome proposals for Review Papers synthesizing a specific field within marine ecology. Finally, the journal aims to publish Special Issues at regular intervals synthesizing a particular field of marine science. All printed papers undergo a peer review process before being accepted and will receive a first decision within three months.