深海软底环境中底栖鱼类的局部大小结构和分布与海栏和其他底栖生境的关系

IF 2.3 3区 地球科学 Q2 OCEANOGRAPHY Deep-sea Research Part Ii-topical Studies in Oceanography Pub Date : 2024-09-07 DOI:10.1016/j.dsr2.2024.105417
Marion Boulard , Krista Baker , Peter Lawton , Evan Edinger
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引用次数: 0

摘要

许多鱼类物种在成长过程中都会发生生境转移,以满足新的生物、生态和环境要求。虽然人们经常研究鱼类与大型硬底质冷水珊瑚(CWC)(如Desmophyllum pertusum珊瑚礁)之间的关系,但研究鱼类与软底环境中由小型珊瑚(如海笔)专门提供的栖息地之间关系的研究相对较少。尽管有关软底珊瑚的知识存在空白,但越来越多的证据表明它们的重要性,因此将它们作为保护目标纳入了许多海洋保护区(MPA),包括加拿大劳伦海峡海洋保护区。在此,我们于 2017 年和 2018 年在劳伦森海峡 MPA 内进行了遥控潜水器和近海底漂移摄像系统调查,以评估鱼体大小和生境类型对低浮深海软沉积环境中鱼类小尺度分布的影响。我们比较了海峡四种最丰富的深海底栖鱼类类群(红鱼(Sebastes spp.)、巫婆鲽(Glyptocephalus cynoglossus)、马林梭鳕(Nezumia bairdii)和长鳍无须鳕(Phycis chesteri))在一种贫瘠生境和五种结构性底栖生境中的局部大小结构,这五种生境是由九种主要底栖无脊椎动物(锕类和CWCs)的存在所定义的。我们使用广义加法模型来确定每个类群的生物(底栖生境)和非生物(深度、底层类型)大小协变量。我们在 43.6 公顷的研究区域内观察到 15,381 条鱼,其中测量到 7,511 条鱼。幼鱼占所有测量鱼类的 99%,2018 年的平均鱼体尺寸明显增大。虽然我们没有发现底栖栖息地与鱼类生命阶段之间存在任何关联,但分析表明,在海笔栖息地内,所有四个类群的鱼体尺寸都有显著增加。相反,我们发现底层类型对所有类群的鱼体大小都有特定的影响。此外,红鱼和长鳍无须鳕的体型与深度呈正相关。对于海洋保护区的深海底栖鱼类类群,我们的研究结果表明:1)海围栏为鱼类的早期生命阶段提供了育苗栖息地;2)鱼类对微生境的利用和特化经历了个体发育过程中的转变;3)鱼类与生境的关联似乎是表面性的,而非强制性的。通过使用现场视频数据,本研究提供的证据表明,小型鱼类和大型鱼类并不使用相同的微生境,尽管海笔提供的生境异质性低于珊瑚礁形成的硬骨鱼类或大型海棠,但海笔对鱼类生境的贡献很大。这些结果有助于从经验上理解鱼类不同生命阶段与栖息地的关系,并可为渔业管理以及海洋保护区和其他受保护深海环境的监测工作提供信息。
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Local size structure and distribution of demersal fish in relation to sea pens and other benthic habitats in a deep-sea soft-bottom environment

Many fish species undergo ontogenetic habitat shifts as they grow to fulfill new biological, ecological and environmental requirements. While relationships between fishes and large hard-substrate cold-water corals (CWC) (e.g., Desmophyllum pertusum reefs) have frequently been studied, there are relatively fewer studies examining the relationships of fish with habitats specifically provided by smaller corals (e.g., sea pens) in soft-bottom environments. Despite this knowledge gap around soft-bottom corals, growing evidence of their importance has nonetheless justified their inclusion as conservation targets in numerous Marine Protected Areas (MPA), including the Canadian Laurentian Channel MPA. Here, we performed ROV and near-seabed drift-camera system surveys within the Laurentian Channel MPA in 2017 and 2018 to assess the influence of fish body size and habitat type on fish small-scale distribution in a low-relief deep-sea soft-sediment environment. We compared the local size structure of the four most abundant deep-sea demersal fish taxa of the channel (Redfish (Sebastes spp.), Witch Flounder (Glyptocephalus cynoglossus), Marlin-Spike Grenadier (Nezumia bairdii) and Longfin Hake (Phycis chesteri)) across one barren and five structural benthic habitats defined by the presence of nine dominant epibenthic invertebrates (actiniarians and CWCs). We used generalized additive models to identify biotic (benthic habitats) and abiotic (depth, bottom types) covariates of size for each taxon. We observed 15,381 fish within the 43.6-ha study area, of which 7,511 fish were measured. Juveniles represented 99% of all fish measured, with a notable increase in average fish size in 2018. While we did not find any associations between benthic habitats and fish life stages, the analysis revealed a significant increase in fish size within sea pen habitats for all four taxa. Conversely, we found a taxon-specific influence of bottom type on fish size for all taxa. In addition, Redfish and Longfin Hake size was positively correlated with depth. For deep-sea demersal fish taxa of the MPA, our results suggest that 1) sea pens provide nursery habitat for early-life stages, 2) fish undergo ontogenetic shifts in micro-habitat use and specialization, and 3) fish-habitat associations appear to be facultative rather than obligate. Through the use of in-situ video data, this study provided evidence that small and large fish do not use the same micro-habitats, and that sea pens contribute significantly to fish habitat despite providing less habitat heterogeneity than reef-forming scleractinians or large gorgonians. These results contribute to empirical understanding of fish-habitat relationships at different fish life stages and may inform fisheries management, as well as monitoring efforts in the MPA and other protected deep-sea environments.

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来源期刊
CiteScore
6.40
自引率
16.70%
发文量
115
审稿时长
3 months
期刊介绍: Deep-Sea Research Part II: Topical Studies in Oceanography publishes topical issues from the many international and interdisciplinary projects which are undertaken in oceanography. Besides these special issues from projects, the journal publishes collections of papers presented at conferences. The special issues regularly have electronic annexes of non-text material (numerical data, images, images, video, etc.) which are published with the special issues in ScienceDirect. Deep-Sea Research Part II was split off as a separate journal devoted to topical issues in 1993. Its companion journal Deep-Sea Research Part I: Oceanographic Research Papers, publishes the regular research papers in this area.
期刊最新文献
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