东北太平洋鲨鱼的饮食组成和营养生态。

3区 生物学 Q1 Agricultural and Biological Sciences Advances in Marine Biology Pub Date : 2017-01-01 Epub Date: 2017-08-18 DOI:10.1016/bs.amb.2017.06.001
Joseph J Bizzarro, Aaron B Carlisle, Wade D Smith, Enric Cortés
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引用次数: 29

摘要

虽然人们普遍认为鲨鱼是大型的远洋顶端捕食者,但大多数鲨鱼是较小的中上营养级捕食者,与海底有关。在北太平洋东部(ENP)记录的73种鲨鱼中,不到一半的鲨鱼最大长度超过200厘米,78%的鲨鱼生活在大陆架或斜坡的海底或底栖区。大多数体型较小(≤200厘米)的物种(例如,尾鲨)和体型较大的物种(例如,安魂曲鲨)的底栖、近岸幼鱼以小型硬骨鱼和十足甲壳类动物为食,而生活在远洋沿海和海洋环境中的大型物种则以大型硬骨鱼和鱿鱼为食。在ENP中有几种大型的远洋顶端捕食者,但最大的物种(如姥鲨、鲸鲨)以浮游动物或小型浮游动物为食。基于体型的饮食变化对许多物种来说是实质性的,幼鱼和成年鱼觅食栖息地的分离也很常见(例如,角鲨,短鳍灰鲭鲨)。在温带、近岸、体型范围广的物种中,饮食的时间差异最为明显,而在极端纬度和深水区,体型较小的物种则最不明显。同域鲨鱼通常占据不同的营养位置,资源重叠因空间和时间的不同而不同,一些鲨鱼成为其他物种的猎物。大多数沿海物种随着时间的推移会停留在同一区域,并根据不同的猎物输入(例如,季节迁徙、产卵或招募事件)进行机会性进食,而远洋、海洋物种则积极寻找猎物丰富的热点,这些热点在时空上是可变的。与人均消费率较高的大型硬骨鱼物种(如金枪鱼、长嘴鱼)相比,鲨鱼对生态系统结构和调控的影响被低估了。然而,鲨鱼也通过引起行为改变对猎物种群施加间接影响,这种改变可能导致活动范围的限制和适应性的降低。除了阿拉斯加水域的食物网建模工作外,鲨鱼的营养影响很少被纳入新经济政策渔业管理的当前生态系统方法中。
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Diet Composition and Trophic Ecology of Northeast Pacific Ocean Sharks.

Although there is a general perception of sharks as large pelagic, apex predators, most sharks are smaller, meso- and upper-trophic level predators that are associated with the seafloor. Among 73 shark species documented in the eastern North Pacific (ENP), less than half reach maximum lengths >200cm, and 78% occur in demersal or benthic regions of the continental shelf or slope. Most small (≤200cm) species (e.g., houndsharks) and demersal, nearshore juveniles of larger species (e.g., requiem sharks) consume small teleosts and decapod crustaceans, whereas large species in pelagic coastal and oceanic environments feed on large teleosts and squids. Several large, pelagic apex predator species occur in the ENP, but the largest species (i.e., Basking Shark, Whale Shark) consume zooplankton or small nekton. Size-based dietary variability is substantial for many species, and segregation of juvenile and adult foraging habitats also is common (e.g., Horn Shark, Shortfin Mako). Temporal dietary differences are most pronounced for temperate, nearshore species with wide size ranges, and least pronounced for smaller species in extreme latitudes and deep-water regions. Sympatric sharks often occupy various trophic positions, with resource overlap differing by space and time and some sharks serving as prey to other species. Most coastal species remain in the same general region over time and feed opportunistically on variable prey inputs (e.g., season migrations, spawning, or recruitment events), whereas pelagic, oceanic species actively seek hot spots of prey abundance that are spatiotemporally variable. The influence of sharks on ecosystem structure and regulation has been downplayed compared to that of large teleosts species with higher per capita consumption rates (e.g., tunas, billfishes). However, sharks also exert indirect influences on prey populations by causing behavioural changes that may result in restricted ranges and reduced fitness. Except for food web modelling efforts in Alaskan waters, the trophic impacts of sharks are poorly incorporated into current ecosystem approaches to fisheries management in the NEP.

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来源期刊
Advances in Marine Biology
Advances in Marine Biology MARINE & FRESHWATER BIOLOGY-
CiteScore
6.10
自引率
0.00%
发文量
6
审稿时长
12 months
期刊介绍: Advances in Marine Biology was first published in 1963 under the founding editorship of Sir Frederick S. Russell, FRS. Now edited by Charles Sheppard, the serial publishes in-depth and up-to-date reviews on a wide range of topics which will appeal to postgraduates and researchers in marine biology, fisheries science, ecology, zoology and biological oceanography. Eclectic volumes in the series are supplemented by thematic volumes on such topics as The Biology of Calanoid Copepods.
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