日本长崎县Arikawa湾Zostera码头附生硅藻和表生动物的酚学观察

IF 0.6 4区 生物学 Q4 MARINE & FRESHWATER BIOLOGY Plankton & Benthos Research Pub Date : 2021-08-06 DOI:10.3800/pbr.16.179
Kenjiro Hinode, Hoshimi Kamisaki, Gregory N. Nishihara, Ryuta Terada
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引用次数: 0

摘要

我们对浅水生态系统中附生硅藻、表生动物群和Zostera marina叶表面积的动态进行了描述。我们假设宿主大型植物的生长阶段(即叶表面积)影响表生植物和表生动物的存在,以及叶表面积和表生植物种群密度影响附生硅藻的细胞密度和物种组成。为了评估这一假设,我们量化了宿主大型植物(Zostera marina)的叶表面积、表生动物的存在以及在2017年5月至2018年12月期间可以在Z.marina叶片上观察到的附生硅藻群落。我们对叶表面积、附生硅藻密度和表生动物种群密度的时间序列观测进行了描述性分析。在马陆藻生长季节,表生硅藻密度较低,表生动物密度较高。在卤藻成熟和衰老期间,表生硅藻密度较高,而表生动物密度较低。我们的分析表明,表观动物群密度落后于表观植物群密度至少四个月,表观植物区系密度落后于叶面积四个月。因此,我们假设草食性腹足类和片脚类可以通过它们对食物的偏好(主动选择)或通过摄入更多结构上更可用的物种(被动偏好)来改变物种组成。
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The phenology of epiphytic diatoms and epifauna observed on Zostera marina of Arikawa Bay, Nagasaki Prefecture, Japan
We present a descriptive account of the dynamics of epiphytic diatoms, epifauna, and the leaf surface area of Zostera marina in a shallow water ecosystem. We hypothesized that the growth stage of the host macrophyte (i.e., leaf surface area) influenced the presence of epiflora and epifauna, as well as that the leaf surface area and epifaunal population density affected the cell density and species composition of epiphytic diatoms. To evaluate this hypothesis, we quantified the leaf surface area of a host macrophyte (Zostera marina), the presence of epifauna, and the community of epiphytic diatoms that could be observed on the leaves of Z. marina during the period from May 2017 to December 2018. We conducted a descriptive analysis of the time-series observations of leaf surface area, epiphytic diatom density, and epifauna population density. Epiphytic diatom density was low and epifauna density was high during the growing season of Z. marina. Epiphytic diatom density was high and epifauna density was low during the maturation and senescence periods of Z. marina. Our analysis shows that epifauna densities lagged epiflora densities by at least four months, and that epiflora densities lagged leaf area by four months. Therefore, we hypothesized that herbivorous gastropods and amphipods could alter species composition via their preference of food items (active choice) or by ingesting more of the species that were structurally more available (passive preference).
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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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