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Document Description
Title
A
dynamical
systems
approach
to
modeling
mercury
contamination
in
aquatic
food
webs
Author
McFadyen
,
Catherine
,
1978-
Description
Thesis
(M.Sc.)--Memorial
University
of
Newfoundland
,
2009.
Environmental
Science
Date
2008
Pagination
107 leaves : col. ill., maps
Subject
Aquatic
ecology--Mathematical
models;
Fish
as
food--Contamination;
Fishes--Mercury
content;
Food
chains
(Ecology)--Mathematical
models;
Degree
M.Sc.
Degree Grantor
Memorial University of Newfoundland. Dept. of Environmental Science
Discipline
Environmental Science
Language
Eng
Notes
Includes
bibliographical
references
(leaves
95-103)
Abstract
Unacceptable
mercury
levels
have
frequently
been
observed
in the
fish
of
Boreal
forest
lake
systems.
Because
of
this
,
fish
consumers
are at
risk
for
mercury
exposure
through
fish
consumption.
Populations
relying
heavily
on
dietary
fish
are
particularly
at
risk.
The
Innu
population
in
Labrador
is
one
such
group
of
people.
They
catch
fish
year-round
from a
variety
of
lakes
in
Labrador.
Some
species
of
fish
harvested
by the
Innu
have been
shown
to
accumulate
high
levels
of
mercury
that
surpass
consumption
guidelines.
This
is
of
great
concern
because
mercury
is
a
neurotoxicant
and
can
have
adverse
health
effects
including
reproductive
impairment
,
growth
inhibition
,
developmental
abnormalities
, and
altered
behavioural
responses.
--
We
have
developed
a
dynamical
systems
model
to
predict
the
effect
that
certain
environmental
changes
have on the
mercury
content
of
food
fish
in
lake
systems.
We
model
the
aquatic
system
using
a
system
of
ordinary
differential
equations
which
relate
the
biomass
of
fish
in the
highest
trophic
levels
with the
amount
of
methyl
mercury
in these
fish
populations
and in the
environment.
We
look
at
factors
such
as
harvesting
rates
,
intrinsic
growth
rates
of
populations
,
mercury
absorption
rate
, and
rate
that
mercury
is
introduced
to the
lake
environment.
We
also
examine
the
effect
that
seasonal
temperatures
and
spring
snow
melt
has on the
system.
--
Dynamical
systems
models
are
often
used
in
biology
but have
rarely
been
used
to
examine
situations
involving
contamination
of
aquatic
environments.
The
models
described
here are
original
models;
to
our
knowledge
, these are the
first
dynamical
systems
models
developed
to
model
an
aquatic
contaminant
that
is
not
lethal
to the
population.
--
The
model
predicts
that
when
mercury
enters
the
lake
at a
constant
rate
a
stable
equilibrium
state
will be
reached
eventually.
The
time
taken
to
reach
this
equilibrium
will
vary
depending
on
rate
of
mercury
input.
Using
parameter
values
applicable
to
Boreal
forest
lakes
, the
time
taken
to
reach
equilibrium
is
predicted
to be
approximately
15-20
years
, and the
final
mercury
concentration
is
predicted
to be
0.4
ppm
for
prey
fish
and
0.655
ppm
for
top
predator
fish.
When
the
seasonal
effect
of
colder
temperatures
and
spring
snow
melt
is
considered
, the
lake
system
exhibits
yearly
cyclical
behaviour.
This
model
predicts
fish
mercury
concentrations
very
similar
to the
nonseasonal
model.
The
models
described
here were
shown
to be
sensitive
to
methyl
mercury
input
to the
lake
,
methyl
mercury
output
from the
lake
, and
predator
functional
response.
Type
Text
Format
Image/jpeg;
Application/pdf
Source
Paper copy kept in the Centre for Newfoundland Studies, Memorial University Libraries
Local Identifier
a3167070
Rights
The author retains copyright ownership and moral rights in this thesis. Neither the thesis nor substantial extracts from it may be printed or otherwise reproduced without the author's permission.
Collection
Electronic
Theses
and
Dissertations
Scanning Status
Completed
PDF File
(9.79
MB)
--
http://collections.mun.ca/PDFs/theses/McFadyen_Catherine.pdf
CONTENTdm file name
26748.cpd
