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Document Description
Title
Life
cycle
,
early
life
history
,
fisheries
and
recruitment
dynamics
of
diadromous
gobies
of
Dominica
,
W.I.
,
emphasising
Sicydium
punctatum
Perugia
Author
Bell
,
Kim
Nigel
Ian
Description
Thesis
(Ph.D.)--Memorial
University
of
Newfoundland
,
1994.
Biology
Date
1994
Pagination
xviii, 275 leaves : ill. (some col.)
Subject
Gobiidae--Dominica--Life
cycles;
Gobiidae--Dominica--Larvae
Degree
Ph.D.
Degree Grantor
Memorial University of Newfoundland. Dept. of Biology
Discipline
Biology
Language
Eng
Spatial Coverage
Dominica
Notes
Bibliography:
leaves
263-275
Abstract
Fisheries
for
diadromous
gobies
occur
widely
in the
coastal
inter-tropics.
Yields
are
rarely
documented
in
detail
, but there are
many
reports
of and
allusions
to
declines
,
which
have not been
satisfactorily
explained.
Basic
life-history
information
has been at
best
sketchily
known
, or not at
all
,
such
that
various
sicydiine
gobies
have been
incorrectly
described
as
catadromous
on the
basis
of
assumptions
alone.
Sicydium
punctatum
Perugia
is
shown
to be
diadromous
,
spawning
in
rivers
and
spending
50
to
150
days
at
sea
before
migrating
to
fresh
waters.
--
Larval
behaviour
is
described
and
experiments
show
that
larvae
have the
ability
to
select
particular
salinity
layers
in
stratified
systems.
Implications
for
early
life
history
transport
,
survival
and
vulnerability
to
terrigenous
toxins
are
discussed.
--
Larval
fish
occurring
in the
rheoplankton
are
shown
to be
separable
into
five
types
,
using
pigment
and
other
characteristics.
The
five
types
numerically
correspond
to the
number
of
goby
species
known
in
Dominica
, and
one
type
is
verified
as
S.
punctatum
through
several
captive
spawning
and
collected
nests.
Separation
into
types
permitted
an
analysis
of
mortality
in
rivers
,
using
stream
drift
data
in a
manner
not
previously
applied.
The
theory
of this
manner
of
estimation
is
discussed
, and
field
results
for
S.
punctatum
are
compared
with
two
types
of
analysis
of
mortality
in
captivo.
Field
data
are also
considered
for
several
other
taxa
to
demonstrate
the
method.
The
mortality
rates
found
for
S.
punctatum
are
unprecedentedly
high
, but the
agreement
among
multiple
samples
and with the
captive
observations
suggests
that
stream
mortalities
may
be
extreme
, and that
larvae
nearest
the
coast
have a
significant
advantage.
Coastal
habitat
is
therefore
the
most
important
in
sustaining
the
fishery.
Implications
and
questions
arise
for the
reproductive
ecology
,
competition
and
upstream
migration
of
Sicydium
spp.
--
While
age-at-recruitment
(AAR)
has
thus
far
been
treated
as a
constant
(each
species)
plus
error
, the
duration
of the
postlarval
period
of
S.
punctatum
is
shown
on the
basis
of
otolith
analyses
to
vary
systematically
with
time
of
year.
There
is
contrary
variation
in
size-at-recruitment
,
indicating
strong
seasonal
variation
in
growth
rate.
The
variation
in
age-at-recruitment
suggests
population
dynamics
not
previously
acknowledged
in
either
fact
or
theory
, and these are
discussed
in
principle
and the
dynamics
modeled
by
numerical
simulation.
The
unavoidable
conclusion
is
that
,
even
where
reproduction
and
daily
risk
of
mortality
remain
constant
in
all
seasons
,
observed
levels
of
variation
in
AAR
are
sufficient
to
induce
large
variations
in
yield.
The
characteristics
of the
simulated
yield
patterns
closely
match
the
actual
yield
data.
The
amplitude
of
variation
generated
depends
on
level
of
(constant
in
each
simulation)
mortality.
The
same
principle
applies
not
only
where
changes
are
seasonal
, but to any
temporal
trends
, and
may
have
implications
in
other
systems.
Further
variation
in
reproduction
or
mortality
could
increase
or
decrease
these
amplitudes
, but
since
the
variation
in
AAR
generates
variations
over
10-
to
30-fold
at
plausible
field
mortality
rates
,
large
variations
in any
other
factor
would be
required
to
mask
these
effects.
Type
Text
Resource Type
Electronic
thesis
or
dissertation
Format
Image/jpeg;
Application/pdf
Source
Paper copy kept in the Centre for Newfoundland Studies, Memorial University Libraries
Local Identifier
76221241
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
(29.76
MB)
--
http://collections.mun.ca/PDFs/theses/Bell_KimNigelIan.pdf
CONTENTdm file name
108344.cpd
