(Table 1) Ion concentrations in the haemolymph of Apherusa glacialis after incubation at different medium salinities

Amphipods living at the underside of Arctic sea ice are exposed to varying salinities due to freezing and melting, and have to cope with the resulting osmotic stress. Extracellular osmotic and ionic regulation at different salinities, thermal hysteresis, and supercooling points (SCPs) were studied i...

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Bibliographic Details
Main Authors: Kiko, Rainer, Werner, Iris, Wittmann, Astrid C
Format: Dataset
Language:English
Published: PANGAEA 2009
Subjects:
Arctic Ocean
ARK-XXII/2
Calcium ion
Chloride ion
Experimental treatment
Haemolymph
magnesium ion
potassium ion
sodium ion
sulfate ion
ICE
Ice station
Polarstern
Priority Programme 1158 Antarctic Research with Comparable Investigations in Arctic Sea Ice Areas
PS70/328-1
PS70 SPACE DAMOCLES
Sample type
SPP1158
Sum
Arctic
Antarctic
Damocles
Antarc*
Polar Biology
Sea ice
Online Access:https://doi.pangaea.de/10.1594/PANGAEA.858995
https://doi.org/10.1594/PANGAEA.858995
Description
Summary:Amphipods living at the underside of Arctic sea ice are exposed to varying salinities due to freezing and melting, and have to cope with the resulting osmotic stress. Extracellular osmotic and ionic regulation at different salinities, thermal hysteresis, and supercooling points (SCPs) were studied in the under-ice amphipod Apherusa glacialis. The species is euryhaline, capable to regulate hyperosmotically at salinities S(R) < 30 g/kg, and osmoconforms at salinities S(R) >= 30 g/kg. Hyperosmotic regulation is an adaptation to thrive in low-salinity meltwater below the ice. Conforming to the ambient salinity during freezing reduces the risk of internal ice formation. Thermal hysteresis was not observed in the haemolymph of A. glacialis. The SCP of the species was -7.8 ± 1.9°C. Several ions were specifically downregulated ([Mg2+], [SO4]2-), or upregulated ([K+], [Ca2+]) in comparison to the medium. Strong downregulation of [Mg2+], is probably necessary to avoid an anaesthetic effect at low temperatures.

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