The impact of ocean acidification on the eye, cuttlebone and behaviors of juvenile cuttlefish (Sepiella inermis)

The cuttlefish (Sepiella inermis) is an economically important species in the coastal seas of China. The impacts of ocean acidification on the ability of juvenile cuttlefish to select a suitable habitat, its hunting and swimming behavior, remains unknown. We examined behavior-related responses and t...

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Veröffentlicht in:Marine pollution bulletin 2023-05, Vol.190, p.114831-114831, Article 114831
Hauptverfasser: Xie, Jinling, Sun, Xiaohan, Li, Pengfei, Zhou, Tangjian, Jiang, Rijin, Wang, Xiaojie
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container_start_page 114831
container_title Marine pollution bulletin
container_volume 190
creator Xie, Jinling
Sun, Xiaohan
Li, Pengfei
Zhou, Tangjian
Jiang, Rijin
Wang, Xiaojie
description The cuttlefish (Sepiella inermis) is an economically important species in the coastal seas of China. The impacts of ocean acidification on the ability of juvenile cuttlefish to select a suitable habitat, its hunting and swimming behavior, remains unknown. We examined behavior-related responses and the eye and cuttlebone structure of juvenile cuttlefish following short-term exposure to CO2-enriched seawater. The predation success rate decreased with the elevation in CO2 concentration. In the CO2 treatment groups, cuttlefish spent more time in the dark zone and the average swimming speed and total swimming distance significantly decreased. The structure of the retina and cuttlebone was affected by seawater acidification. Moreover, apoptotic cells were significantly increased in the eyes. In the wild, the impairment of the eye and cuttlebone may decrease the predation ability of juvenile cuttlefish and negatively affect their ability to select a suitable habitat, which would be detrimental to its population. [Display omitted] •Predation success rate and swimming activity decreased under high CO2 treatment.•Increased time spent in the dark zone after exposure to ocean acidification•Structure of photoreceptor cells in retina changed after 10 d ocean acidification.•Dorsal, ventral and chamber of cuttlebone changed after 10 d ocean acidification.•Impaired eye and cuttlebone may affect habitat selection behavior.
doi_str_mv 10.1016/j.marpolbul.2023.114831
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subjects Animals
Carbon Dioxide - analysis
Decapodiformes - chemistry
Hydrogen-Ion Concentration
Light–dark preference
Ocean Acidification
Oceans and Seas
Porosity
Predation
Retina
Seawater - chemistry
Swimming
title The impact of ocean acidification on the eye, cuttlebone and behaviors of juvenile cuttlefish (Sepiella inermis)
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