Sebastian Böckmann, Scarlett Trimborn, Hendrik Schubert, Florian Koch
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引用次数: 0
摘要
在过去的 40 年中,借助稀释实验,人们强调了微浮游动物放牧在海洋碳循环中的重要性。然而,对南大洋(SO)中与生态相关的南极半岛西部(WAP)生态系统的研究还不够深入。在此,我们展示了在南极半岛北端周围三个站点进行的稀释实验数据,以确定小型浮游动物(0.2-200 微米大小的异养和混养成员,SZP)对< 200 微米浮游生物群落的自养和异养成员的捕食率及其总生长量。虽然测量了深海褐藻对碳循环的不同影响,但颗粒有机碳(而非传统上使用的叶绿素 a 参数)提供了最佳的可解释结果。我们的研究结果表明,异养微小浮游生物在所有站点的碳循环中都发挥了重要作用。最后,对两个具有不同特征的观测站进行比较后发现,深海浮游生物放牧消除了颗粒部分总颗粒有机碳产生量的 56-119%。因此,与向深海输出的碳相比,深海有机磷放牧从颗粒部分消除的碳要多出 20-50 倍,从而极大地影响了这些 SO 站点生物碳泵的效率。
Grazing by nano- and microzooplankton on heterotrophic picoplankton dominates the biological carbon cycling around the Western Antarctic Peninsula
Over the past 40 years, the significance of microzooplankton grazing in oceanic carbon cycling has been highlighted with the help of dilution experiments. The ecologically relevant Western Antarctic Peninsula (WAP) ecosystem in the Southern Ocean (SO), however, has not been well studied. Here we present data from dilution experiments, performed at three stations around the northern tip of the WAP to determine grazing rates of small zooplankton (hetero- and mixotrophic members of the 0.2–200 µm size fraction, SZP) on auto- and heterotrophic members of the < 200 µm plankton community as well as their gross growth. While variable impacts of SZP grazing on carbon cycling were measured, particulate organic carbon, not the traditionally used parameter chlorophyll a, provided the best interpretable results. Our results suggested that heterotrophic picoplankton played a significant role in the carbon turnover at all stations. Finally, a comparison of two stations with diverging characteristics highlights that SZP grazing eliminated 56–119% of gross particulate organic carbon production from the particulate fraction. Thus, SZP grazing eliminated 20–50 times more carbon from the particulate fraction compared to what was exported to depth, therefore significantly affecting the efficiency of the biological carbon pump at these SO sites.
期刊介绍:
Polar Biology publishes Original Papers, Reviews, and Short Notes and is the focal point for biologists working in polar regions. It is also of interest to scientists working in biology in general, ecology and physiology, as well as in oceanography and climatology related to polar life. Polar Biology presents results of studies in plants, animals, and micro-organisms of marine, limnic and terrestrial habitats in polar and subpolar regions of both hemispheres.
Taxonomy/ Biogeography
Life History
Spatio-temporal Patterns in Abundance and Diversity
Ecological Interactions
Trophic Ecology
Ecophysiology/ Biochemistry of Adaptation
Biogeochemical Pathways and Cycles
Ecological Models
Human Impact/ Climate Change/ Conservation