**The title, authors, and abstract for this completion
report are provided below. For a copy of
the completion report, please contact the GLFC via e-mail or via telephone at 734-662-3209**
Are
thiamine levels in lake whitefish eggs in the upper Great Lakes lower in fish
that consume dreissenid mussels?
2 Chippewa
Ottawa Resource Authority, 179 W. Three Mile Road, Sault Ste. Marie, Michigan
49783, USA
3 U. S.
Geological Survey, Great Lakes Science Center, 1451 Green Road, Ann Arbor,
Michigan 48105, USA
4 Department
of Environmental Science and Biology, SUNY College at Brockport, 350 New Campus
Drive, Brockport, New York 14420, USA
5 U. S.
Geological Survey, Columbia Environmental Research Laboratory, 4200 New Haven
Road, Columbia, Missouri 65201, USA
August 2011
ABSTRACT:
Thiamine deficiency is responsible for reproductive
impairment in several species of salmonines in the Great lakes, and is thought
to be caused by the consumption of prey containing thiaminase, a
thiamine-degrading enzyme. Because
thiaminase levels are extremely high in dreissenid mussels, fish that prey on
them may be susceptible to thiamine deficiency.
We determined thiamine concentrations in lake whitefish eggs from the
upper Laurentian Great Lakes to assess the potential for thiamine deficiency
and to determine if thiamine concentrations in lake whitefish eggs were related
to maternal diet. Mean thiamine
concentrations in lake whitefish eggs were highest in Lake Huron, intermediate
in Lake Superior, and lowest in Lake Michigan.
Some fish had thiamine concentrations below putative thresholds for
lethal and sublethal effects in salmonines, suggesting that some larval lake
whitefish may currently be at risk of at least sublethal effects of low
thiamine concentrations, although thiamine thresholds are unknown for lake
whitefish. Egg thiamine concentrations
in lake whitefish eggs were significantly related to isotopic carbon
signatures, suggesting that egg thiamine levels were related to maternal diet,
but low egg thiamine concentrations did not appear to be associated with a diet
of dreissenids. Egg thiamine
concentrations were not significantly related to multifunction oxidase
induction, suggesting that lower egg thiamine concentrations in lake whitefish
were not related to contaminant exposure.