Effects of Low pH and Low Salinity Induced by Meltwater Inflow on the Behavior and Physical Condition of the Antarctic Limpet, Nacella concinna

Seawater acidification and freshening in the intertidal zone of Marian Cove, Antarctica, which occurs by the freshwater inflow from snow fields and glaciers, could affect the physiology and behavior of intertidal marine organisms. In this study, we exposed Antarctic limpets, Nacella concinna, to two...

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Bibliographic Details
Published in:Journal of Marine Science and Engineering
Main Authors: Eunchong Sin, In-Young Ahn, Seojeong Park, Taewon Kim
Format: Text
Language:English
Published: Multidisciplinary Digital Publishing Institute 2020
Subjects:
ocean acidification
glacial retreat
meltwater
Nacella concinna
Marian Cove
shell dissolution
Antarctic
The Antarctic
Nacella
Marian
Antarc*
Antarctica
Ocean acidification
Online Access:https://doi.org/10.3390/jmse8100822
Description
Summary:Seawater acidification and freshening in the intertidal zone of Marian Cove, Antarctica, which occurs by the freshwater inflow from snow fields and glaciers, could affect the physiology and behavior of intertidal marine organisms. In this study, we exposed Antarctic limpets, Nacella concinna, to two different pH (8.00 and 7.55) and salinity (34.0 and 27.0 psu) levels and measured their righting ability after being flipped over, mortality, condition factor, and shell dissolution. During the 35-day exposure, there was no significant difference in behavior and mortality between different treatments. However, the condition factor was negatively affected by low salinity. Both low pH and low salinity negatively influenced shell formation by decreasing the aragonite saturation state (Ωarg) and enhancing shell dissolution. Our results suggest that, though limpets can tolerate short-term low pH and salinity conditions, intrusions of meltwater accompanied by the glacial retreat may act as a serious threat to the population of N. concinna.

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