Acclimatization in the bay scallop Argopecten irradians along a eutrophication gradient: insights from heartbeat rate measurements during a simulated hypoxic event

IF 0.9 4区 生物学 Q3 MARINE & FRESHWATER BIOLOGY
Samuel J. Gurr, I. Dwyer, Jennifer A. Goleski, F. Lima, Rui Seabra, C. Gobler, N. Volkenborn
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引用次数: 4

Abstract

ABSTRACT Coastal hypoxia can negatively impact shellfish, but it is unclear if exposure to intensifying diel-cycling hypoxia alters shellfish susceptibility to severe hypoxic events in late summer. In this study, bay scallops (Argopecten irradians) were acclimatized for 50 days at 5 sites along a eutrophication gradient, where scallops rarely, occasionally and frequently encountered hypoxic conditions. In a laboratory experiment, scallops were then exposed to a 24-h hypoxic event and heartbeat rates were recorded with non-invasive infrared sensors during the initial oxygen decline, during extended hypoxia, and for one hour after re-establishment of normoxia. Irrespective of acclimatization site, scallops sustained increased heartbeat rates during hypoxia, but cardiac responses were less pronounced in scallops that frequently encountered hypoxia during acclimatization. This study suggests that cardiac responses to changes in dissolved oxygen concentrations can be affected by exposure history, which may have important ramifications for scallop ecophysiology and resilience in dynamic coastal environments.
海湾扇贝沿富营养化梯度的适应:模拟缺氧事件期间心率测量的见解
沿海缺氧会对贝类产生负面影响,但目前尚不清楚暴露于强化的双氧循环缺氧是否会改变贝类在夏末对严重缺氧事件的易感性。本研究对海湾扇贝(Argopecten irradians)在富营养化梯度的5个地点进行了50天的驯化,这些地点的扇贝很少、偶尔和经常遇到缺氧条件。在实验室实验中,将扇贝暴露于24小时的缺氧事件中,并使用无创红外传感器记录初始氧下降期间、延长缺氧期间和恢复正常氧后1小时的心率。不论驯化部位如何,在缺氧条件下,扇贝的心跳速率持续增加,但在驯化过程中经常遇到缺氧的扇贝,心脏反应不那么明显。这项研究表明,心脏对溶解氧浓度变化的反应可能受到暴露历史的影响,这可能对动态沿海环境中扇贝的生态生理和恢复能力产生重要影响。
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来源期刊
Marine and Freshwater Behaviour and Physiology
Marine and Freshwater Behaviour and Physiology 生物-海洋与淡水生物学
CiteScore
2.10
自引率
0.00%
发文量
9
审稿时长
>12 weeks
期刊介绍: Marine and Freshwater Behaviour and Physiology is devoted to the publication of papers covering field and laboratory research into all aspects of the behaviour and physiology of all marine and freshwater animals within the contexts of ecology, evolution and conservation. As the living resources of the world’s oceans, rivers and lakes are attracting increasing attention as food sources for humans and for their role in global ecology, the journal will also publish the results of research in the areas of fisheries biology and technology where the behaviour and physiology described have clear links to the contexts mentioned above. The journal will accept for publication Research Articles, Reviews, Rapid Communications and Technical Notes (see Instructions for authors for details). In addition, Editorials, Opinions and Book Reviews (invited and suggested) will also occasionally be published. Suggestions to the Editor-In-Chief for Special Issues are encouraged and will be considered on an ad hoc basis. With the goal of supporting early career researchers, the journal particularly invites submissions from graduate students and post-doctoral researchers. In addition to recognising the time constraints and logistical limitations their research often faces, and their particular need for a prompt review process, accepted articles by such researchers will be given prominence within the journal (see Instructions for authors for details).
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