We examined effects of dietary methylmercury (MeHg) on
reproduction of fathead minnows (Pimephales promelas).
Juvenile fish were fed one of four diets until sexual maturity
(phase 1): a control diet (0.06 μg Hg g-1 dry weight)
and three diets contaminated with MeHg at 0.88 (low),
4.11 (medium), and 8.46 μg Hg g-1 dry weight (high). At sexual
maturity, male and female fish were paired, again fed
one of the four diets, and allowed to reproduce (phase 2).
To assess effects of MeHg during gametogenesis, some
fish were fed diets during phase 2 that differed from those
during phase 1. Spawning success of pairs fed the same
diet during phases 1 and 2 was 75% for controls and 46%,
50%, and 36% for the low-, medium-, and high-MeHg
treatments, respectively. Spawning success of pairs fed a
contaminated diet during phase 1 and a control diet
during phase 2 was 63%, 40%, and 14% for the low-, medium-,
and high-MeHg treatments, respectively, whereas
exposure to dietary MeHg only during phase 2 did not
reduce spawning success. Dietary MeHg delayed spawning,
and days to spawning was positively correlated with
concentration of total mercury in the carcasses of test
fish. MeHg reduced the instantaneous rate of reproduction
of fish fed the same diets during phases 1 and 2. Both
the gonadosomatic index and reproductive effort of female
fish were inversely correlated with mercury in carcasses,
whereas developmental and hatching success of
embryos, 7-d survival, and 7-d growth of larvae were
unrelated to mercury concentrations in parental fish or
their diets. MeHg decreased reproduction of adult fathead
minnows at dietary concentrations encountered by
predatory fishes in aquatic systems with MeHg-contaminated
food webs, implying that exposed fish populations could
be adversely affected by this widespread contaminant.
We examined the influence of maternal mercury and
selected lacustrine variables on the mercury content of
eggs from yellow perch (Perca flavescens). Total mercury,
methylmercury, and inorganic mercury were determined
in eggs and carcasses (less eggs) from three seepage lakes
with a pH range of 6.1−7.0 and a fourth lake in which
pH was experimentally increased from 5.5 to 6.8 by addition
of alkaline groundwater. The concentration of total
mercury in eggs was strongly correlated with that in the
maternal carcass. Concentrations and burdens of mercury
in eggs and carcasses were inversely correlated with
lake water pH, acid-neutralizing capacity, calcium, and
dissolved organic carbon. In eggs containing more than 30
ng/g dry weight (4.5 ng/g wet weight) of total mercury,
methylmercury averaged 91% of total mercury and ranged
from 85% to 96%. Mean burdens of total mercury in
individual eggs varied greatly among lakes (range, 2.3−63
pg), and the egg mass averaged 1.9% of the whole-body
burden. We conclude that exposure of the developing yellow
perch embryo to methylmercury is strongly affected by
maternal bioaccumulation, which can vary substantially
among and within lakes; however, the toxicological
significance of the observed exposure of embryos to
methylmercury is unclear.
A single stress, acidification with sulfuric acid, was applied to Little Rock Lake in a whole-ecosystem manipulation. We documented a wide range of responses to the acidification, including increases in the concentrations of various chemicals, shifts in microbial processes and a major increase in water clarity to UV-B radiation. Each of these changes could in itself be considered as a separate ecosystem stress that is distinct from the intended manipulation. Acidification in Little Rock Lake was accompanied by a number of substantial changes in the occurrence of organisms. A series of detailed investigations indicates that the mechanisms underlying these organismal changes are varied but cannot usually be tied to the direct effects of acidification. Overall, our results demonstrate how multiple stresses can arise from a single agent operating on an ecosystem and suggest that singly operating stresses may actually be quite rare.Human activities have generated a wide variety of stresses, operating from local to regional scales, that have had major effects on ecosystems (Daily 1997). Substantial scientific efforts have evaluated the effects of many of these
AcknowledgmentsWe thank
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