Delayed effects of pyrene exposure during overwintering on the Arctic copepod Calanus hyperboreus

Calanus hyperboreus is the largest copepod and a key species in the Arctic food web. During the spring bloom, C. hyperboreus builds up large lipid reserves, which enable it to survive and produce eggs during overwintering. The ecological effects of oil exposure on overwintering C. hyperboreus are un...

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Bibliographic Details
Published in:Aquatic Toxicology
Main Authors: Toxværd, Kirstine Underbjerg, Dinh, Khuong Van, Henriksen, Ole, Hjorth, Morten, Nielsen, Torkel Gissel
Format: Article in Journal/Newspaper
Language:English
Published: 2019
Subjects:
Arctic marine ecosystem
Calanus Oil pollution
Deep-sea pollution
Overwintering
Arctic
Arctic copepod
Calanus hyperboreus
Zooplankton
Online Access:https://forskning.ruc.dk/da/publications/ebd340c0-486f-476a-878c-ae6f0aaf8805
https://doi.org/10.1016/j.aquatox.2019.105332
https://hdl.handle.net/1800/ebd340c0-486f-476a-878c-ae6f0aaf8805
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Summary:Calanus hyperboreus is the largest copepod and a key species in the Arctic food web. During the spring bloom, C. hyperboreus builds up large lipid reserves, which enable it to survive and produce eggs during overwintering. The ecological effects of oil exposure on overwintering C. hyperboreus are unknown. The present study empirically tested if exposure to the polycyclic aromatic hydrocarbon (PAH) pyrene from crude oil affects the survival, egg production, and hatching success of overwintering C. hyperboreus. We also tested the delayed effects on faecal pellet production and lipid recovery in clean seawater. Direct exposure did not reduce survival and egg production, but reduced hatching success 3–18 times by the end of the exposure period. Remarkably, we documented strong delayed effects of pyrene on faecal pellet production and the recovery of lipid reserves. The current study reveals a high vulnerability of this key species of Arctic zooplankton to oil exposure during winter. Together with our previous study on C. glacialis, we complete the picture of the impact of oil on the largest and most lipid-rich copepod C. hyperboreus, which potentially can have huge ecological consequences for the fragile Arctic marine food web. Calanus hyperboreus is the largest copepod and a key species in the Arctic food web. During the spring bloom, C. hyperboreus builds up large lipid reserves, which enable it to survive and produce eggs during overwintering. The ecological effects of oil exposure on overwintering C. hyperboreus are unknown. The present study empirically tested if exposure to the polycyclic aromatic hydrocarbon (PAH) pyrene from crude oil affects the survival, egg production, and hatching success of overwintering C. hyperboreus. We also tested the delayed effects on faecal pellet production and lipid recovery in clean seawater. Direct exposure did not reduce survival and egg production, but reduced hatching success 3–18 times by the end of the exposure period. Remarkably, we documented strong delayed effects ...

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