Abstract
Total and organic mercury concentrations were determined for males, females and juveniles of Euphausia superba
collected at three discrete locations in the Scotia Sea (the South
Orkney Islands, South Georgia and the Antarctic Polar Front) to assess
spatial mercury variability in Antarctic krill. There was clear
geographic differentiation in mercury concentrations, with specimens
from the South Orkneys having total mercury concentrations 5 to 7 times
higher than Antarctic krill from South Georgia and the Antarctic Polar
Front. Mercury did not appear to accumulate with life-stage since
juveniles had higher concentrations of total mercury (0.071 μg g−1 from South Orkney Islands; 0.015 μg g−1 from South Georgia) than adults (0.054 μg g−1 in females and 0.048 μg g−1 in males from South Orkney Islands; 0.006 μg g−1 in females and 0.007 μg g−1
in males from South Georgia). Results suggest that females use egg
laying as a mechanism to excrete mercury, with eggs having higher
concentrations than the corresponding somatic tissue. Organic mercury
makes up a minor percentage of total mercury (15–37%) with the
percentage being greater in adults than in juveniles. When compared to
euphausiids from other parts of the world, the concentration of mercury
in Antarctic krill is within the same range, or higher, highlighting the
global distribution of this contaminant. Given the high potential for
biomagnification of mercury through food webs, concentrations in
Antarctic krill may have deleterious effects on long-lived Antarctic
krill predators.
Original language | English |
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Pages (from-to) | 332-339 |
Number of pages | 8 |
Journal | Environmental Pollution |
Volume | 247 |
Early online date | 14 Jan 2019 |
DOIs | |
Publication status | Published - Apr 2019 |
Keywords
- Food-web
- Eggs
- Organic mercury
- Southern Ocean
- Antarctica