在热带大西洋的一个海洋群岛上,多个岛屿效应塑造了海洋学过程和浮游动物的大小光谱

IF 4.6 Q2 MATERIALS SCIENCE, BIOMATERIALS
Simone M.A. Lira , Ralf Schwamborn , Mauro de Melo Júnior , Humberto L. Varona , Syumara Queiroz , Doris Veleda , Alef J. Silva , Sigrid Neumann-Leitão , Moacyr Araujo , Catarina R. Marcolin
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引用次数: 0

摘要

热带海洋岛屿周围的远洋生态系统被认为是低营养“蓝色沙漠”中部浮游生物生物量高的绿洲。为了了解这种远洋生态系统的动态,我们使用了CTD和ADCP数据以及从热带大西洋偏远的费尔南多-迪诺罗尼亚群岛(FNA)水域采集的浮游动物样本。我们分析了水流和岛屿地形的相互作用如何影响叶绿素-a荧光和浮游动物丰度、生物体积和标准化生物体积大小光谱(NBSS)的空间变异。2010年7月和8月,我们利用500 μm孔的bongo网对FNA上下游区域的浮游生物进行取样。浮游动物样本用ZooScan设备进行分析。叶绿素-a峰值和温跃层上升表明了岛屿下游的地形抬升和湍流,即“岛屿质量效应”。NBSS的平均斜率为- 1.19±0.28,平均截距为3.98±0.87。上游和下游地区的NBSS坡度和截距无显著差异。然而,不同地区浮游动物和十足动物群落结构差异显著:中游浮游生物群落在下游表现出更高的丰度和生物量(p <0.05)。狭足清洁虾、异虾蟹和短爪蟹的幼虫种类和鱼卵在下游明显丰富,显示出“幼虫岛效应”。在FNA的下游,硬骨鱼卵和十足类幼虫的大小谱也有明显的峰,表明存在幼虫岛效应。在岛屿的上游,凝胶生物、全浮游十足动物和高级短尾蟹的丰度更高(“上游岛屿效应”)。此外,桡足类、胶状生物、大型“其他甲壳类动物”(如:真足类、片脚类、口足类幼虫、粘虫等)、硬骨鱼卵和窄足类动物在上游形成了丰度峰。我们的研究强调了对热带海洋岛屿周围鱼类和大型无脊椎动物的亲代产卵资源进行仔细管理和保护的必要性。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

Multiple island effects shape oceanographic processes and zooplankton size spectra off an oceanic archipelago in the Tropical Atlantic

Multiple island effects shape oceanographic processes and zooplankton size spectra off an oceanic archipelago in the Tropical Atlantic

Pelagic ecosystems around tropical oceanic islands are considered oases of high plankton biomass in the middle of oligotrophic “blue deserts”. To understand the dynamics of such a pelagic ecosystem, we used CTD and ADCP data and zooplankton samples taken from the waters off the remote Fernando de Noronha Archipelago (FNA), Tropical Atlantic. We analyzed how the flow and island topography interactions influence the spatial variability of chlorophyll-a fluorescence and zooplankton abundance, biovolume, and normalized biovolume size spectra (NBSS). We used a 500-μm mesh bongo net to obtain plankton samples in July and August 2010 in areas upstream and downstream of FNA. Zooplankton samples were analyzed with a ZooScan device. Chlorophyll-a peaks and a rise in thermocline indicated a topographic uplift and turbulence downstream of the island, i.e., the “Island Mass Effect”. The NBSS presented a mean slope of −1.19 ± 0.28, and a mean intercept of 3.98 ± 0.87. There were no significant differences in NBSS slopes and intercepts between upstream and downstream areas. Nevertheless, zooplankton and decapod community structures were significantly different between areas: meroplanktonic communities showed higher abundances and biovolumes downstream (p < 0.05). Zoeae of stenopodid cleaner shrimps, anomuran and brachyuran crabs, and fish eggs were significantly more abundant downstream, indicating a “Larval Island Effect”. Distinct peaks in size spectra due to teleost eggs and decapod larvae, downstream of FNA, also indicated a Larval Island Effect. Upstream of the island, there was a higher abundance of gelatinous organisms, holoplanktonic decapods, and advanced stages of brachyuran crabs (“Upstream Island Effect”). Also, copepods, gelatinous organisms, large-sized “other crustaceans” (e.g., euphausiids, amphipods, stomatopod larvae, mysids, etc.), teleost eggs, and stenopodids caused abundance peaks in the size spectra upstream. Our study highlights the need for careful management and conservation of parental spawning stocks of fishes and macroinvertebrates surrounding tropical oceanic islands.

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来源期刊
ACS Applied Bio Materials
ACS Applied Bio Materials Chemistry-Chemistry (all)
CiteScore
9.40
自引率
2.10%
发文量
464
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