鲑鱼虱和桡足类在光照条件下表现出不同的垂直迁移模式

IF 2.2 2区 农林科学 Q2 FISHERIES
A. Szetey, D. W. Wright, F. Oppedal, T. Dempster
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引用次数: 4

摘要

光是影响许多海洋生物迁移的基本环境线索。对于鲑鱼虱来说,光被认为会驱动它们浮游幼虫的垂直迁移行为。鲑鱼虱对鲑鱼产业至关重要,因为它们会对野生和养殖宿主造成损害。鲑鱼虱幼虫有一个眼点,并且正趋光,但光强度如何改变它们的垂直分布仍不清楚。在实验柱上,我们测试了光照强度(0、0.5、10和80 μmol m−2 s−1)、扩散时间(1、4和12 h)和释放点(表面或底部)在受控条件下对鲑鱼虱和桡足类垂直迁移的影响。总体而言,较高的光强增加了表面聚集的nauplii比例。桡足类的行为与鹦鹉螺不同,它们在光照和完全黑暗的条件下都向上游动,并且随着分散时间的延长,表面聚集量增加。实验结果不支持现有的观点,即光强烈影响桡足类在水柱中的垂直位置。结合之前的工作,我们的研究结果表明,鲑鱼虱幼虫阶段对光、温度和盐度表现出不同的垂直反应,这可能是由nauplii(最大限度地生存和扩散)和桡足类(最大限度地寻找宿主)的不同策略所解释的。我们的结果对鲑鱼虱扩散模型有启示,其中桡足类和nauplii对光的反应目前由相同的方程参数化。实现针对光的阶段特定行为可以改善扩散模型的输出。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Salmon lice nauplii and copepodids display different vertical migration patterns in response to light
Light is a fundamental environmental cue which influences the migration of many marine organisms. For the salmon louse Lepeophtheirus salmonis, light is believed to drive the diel vertical migration behaviour of their planktonic larvae. Salmon lice are of critical importance to the salmonid industry due to the damage they cause to wild and farmed hosts. Salmon lice larvae have an eyespot and are positively phototactic, yet how light intensity alters their vertical distribution remains unclear. Here, we tested how light intensity (0, 0.5, 10 and 80 μmol m−2 s−1), dispersal duration (1, 4 and 12 h) and release point (surface or bottom) influenced the vertical migration of salmon lice nauplii and copepodids under controlled conditions in experimental columns. Overall, higher light intensity increased the proportion of nauplii that aggregated at the surface. Copepodid behaviour differed from that of nauplii, as they swam upwards in both light and fully dark conditions, and surface aggregations increased with dispersal duration. Results from the experiments did not support the existing view that light strongly influences the vertical position of copepodids in the water column. Combined with previous work, our results reveal that salmon lice larval stages display different vertical responses to light, temperature and salinity, which may be explained by the different strategies of nauplii (maximise survival and dispersal) and copepodids (maximise host-finding success). Our results have implications for salmon lice dispersal models, where re sponses of copepodids and nauplii to light are currently parametrised by the same equations. Implementing stage-specific behaviours towards light may improve the outputs of dispersal models.
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来源期刊
Aquaculture Environment Interactions
Aquaculture Environment Interactions FISHERIES-MARINE & FRESHWATER BIOLOGY
CiteScore
4.90
自引率
13.60%
发文量
15
审稿时长
>12 weeks
期刊介绍: AEI presents rigorously refereed and carefully selected Research Articles, Reviews and Notes, as well as Comments/Reply Comments (for details see MEPS 228:1), Theme Sections and Opinion Pieces. For details consult the Guidelines for Authors. Papers may be concerned with inter­actions between aquaculture and the environment from local to ecosystem scales, at all levels of organisation and investigation. Areas covered include: -Pollution and nutrient inputs; bio-accumulation and impacts of chemical compounds used in aquaculture. -Effects on benthic and pelagic assemblages or pro­cesses that are related to aquaculture activities. -Interactions of wild fauna (invertebrates, fishes, birds, mammals) with aquaculture activities; genetic impacts on wild populations. -Parasite and pathogen interactions between farmed and wild stocks. -Comparisons of the environmental effects of traditional and organic aquaculture. -Introductions of alien species; escape and intentional releases (seeding) of cultured organisms into the wild. -Effects of capture-based aquaculture (ranching). -Interactions of aquaculture installations with biofouling organisms and consequences of biofouling control measures. -Integrated multi-trophic aquaculture; comparisons of re-circulation and ‘open’ systems. -Effects of climate change and environmental variability on aquaculture activities. -Modelling of aquaculture–environment interactions; ­assessment of carrying capacity. -Interactions between aquaculture and other industries (e.g. tourism, fisheries, transport). -Policy and practice of aquaculture regulation directed towards environmental management; site selection, spatial planning, Integrated Coastal Zone Management, and eco-ethics.
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