Consumption of Antarctic krill Euphausia superba by mackerel icefish, Champsocephalus gunnari off the South Orkney Islands: filling an information gap in the current ecosystem-based management approach
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引用次数: 0
Abstract
The Antarctic marine ecosystem is largely dominated by Euphausia superba, the most abundant krill species consumed by a wide array of predators, including whales, penguins, flying birds, seals, fish and cephalopods. The current management of the krill fishery follows an ecosystem-based approach which takes into account the distribution, abundance of E. superba and its main predators plus their interactions. Mackerel icefish, Champsocephalus gunnari, was once considered the most abundant meso-pelagic fish species and a very important consumer of E. superba until its population was collapsed by overfishing in the early 90s. Currently, C. gunnari populations are slowly recovering which may increase predation on E. superba. Therefore, in this study, we analyze the distribution and density of E. superba and C. gunnari, gain some insights about the type of foraging strategy of C. gunnari and estimate its consumption of E. superba under three different biomass scenarios of C. gunnari: 7000 (Bt), 70,000 (B50%) and 140,000 (B0) t. We focus particularly on the potential area of overlap between C. gunnari and Adélie penguin (Pygoscelis adeliae) off the South Orkney islands. Bayesian geostatistical models were employed to test whether C. gunnari followed an ideal or generalized ideal-free distribution. Spatially explicit consumption estimates were derived under the scenarios of 7000 (Bt), 70,000 (B50%) and 140,000 (B0) t of C. gunnari biomass. We found that both species exhibit a higher probability of presence and density north of the South Orkney Islands, where they present a high overlap. The probability of presence of Champsocephalus gunnari was best explained by the ideal-free distribution whereas its acoustic density was best explained by an independent spatial model, showing no relation to the distribution of E. superba. Individual consumption of E. supeba by C. gunnari was estimated to be 153.5 ± 77.9 g ind−1. Thus, current biomass (Bt) would only remove ~ 0.07% of E. superba biomass in the focus area. Under a pre-exploitation biomass level (B0), C. gunnari would remove ~ 1.4% of E. superba biomass. This study provides novel insights into the relationship between a key species like E. superba and a highly specialized consumer such as C. gunnari around the South Orkney Islands and contributes to fill in an important gap regarding fish consumption of krill in the Antarctic ecosystem.
南极海洋生态系统主要由超级大磷虾(Euphausia superba)主导,这是一种最丰富的磷虾物种,被包括鲸鱼、企鹅、飞鸟、海豹、鱼类和头足类动物在内的各种捕食者所食用。目前的磷虾捕捞管理采用的是基于生态系统的方法,该方法考虑到了超级磷虾的分布、丰度及其主要捕食者以及它们之间的相互作用。鲭冰鱼(Champsocephalus gunnari)曾被认为是最丰富的中深海鱼类物种,也是 E. superba 非常重要的消费者,直到 90 年代初因过度捕捞导致其数量崩溃。目前,C. gunnari 的数量正在缓慢恢复,这可能会增加对 E. superba 的捕食。因此,在本研究中,我们分析了 E. superba 和 C. gunnari 的分布和密度,对 C. gunnari 的觅食策略类型有了一些了解,并估算了在 C. gunnari 的三种不同生物量情景下:7000 吨(Bt)、70000 吨(B50%)和 140000 吨(B0),C. gunnari 对 E. superba 的消耗量。我们特别关注南奥克尼群岛外 C. gunnari 和阿德利企鹅(Pygoscelis adeliae)之间的潜在重叠区域。我们采用贝叶斯地理统计模型来检验枪氏企鹅是否遵循理想分布或广义无理想分布。在7000(Bt)、70000(B50%)和140000(B0)吨C. gunnari生物量的情况下,得出了空间明确的消耗量估计值。我们发现,这两个物种在南奥克尼群岛以北的出现概率和密度都较高,它们在那里有较高的重叠率。Champsocephalus gunnari的出现概率最好用无理想分布来解释,而其声学密度最好用独立的空间模型来解释,与E. superba的分布没有关系。据估计,枪鱼个体对E. supeba的消耗量为153.5 ± 77.9 g ind-1。因此,目前的生物量(Bt)只能清除重点区域中约 0.07% 的 E. supeba 生物量。在开发前的生物量水平(B0)下,C. gunnari 将清除约 1.4% 的 E. superba 生物量。这项研究为了解南奥克尼群岛附近像 E. superba 这样的关键物种与像 C. gunnari 这样的高度专业化消费者之间的关系提供了新的见解,并有助于填补南极生态系统中磷虾鱼类消费方面的一个重要空白。
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
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