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Document Description
Title
An
analysis
of
wind-forced
,
seasonal
transport
variability
at the
Florida
Straits
using
linear
models
of the
North
Atlantic
Author
Fanning
,
Augustus
F.
,
1967-
Description
Thesis
(M.Sc.)--Memorial
University
of
Newfoundland
,
1993.
Physics
Date
1993
Pagination
xvi, 238 leaves : ill. ; 28 cm.
Subject
Ocean
circulation--Florida
,
Straits
of;
Ocean
circulation--Mathematical
models;
Degree
M.Sc.
Degree Grantor
Memorial University of Newfoundland. Dept. of Physics
Discipline
Physics
Language
Eng
Spatial Coverage
United States--Florida, Straits of
Notes
Bibliography:
leaves
231-238.
Abstract
Two
linear
models
of the
North
Atlantic
, a
linear
barotropic
model
and a
linear
two-density
layer
model
, are
employed
to
investigate
the
effect
of
using
different
wind
stress
climatologies
on the
model-calculated
transport.
Particular
emphasis
is
placed
on the
model-calculated
response
at the
Florida
Straits.
The
model
domains
extend
from
10°S
to
65°N
and
100°W
to
15°
E
at
1°
x
1°
resolution.
The
wind
stress
climatologies
are those of
da
Silva
et
al.(1993a;
hereafter
DS)
,
Hellerman
and
Rosenstein
(1983;
hereafter
HR)
,
Isemer
and
Hasse
(1987;
hereafter
IH)
and
Trenberth
ct
al.
(1990;
hereafter
TR).
Comparing
the
results
at the
Florida
Straits
,
we
find
that for
each
climatology
, the
barotropic
model
shows
maximum
northward
transport
in the
summer
and
minima
in the
fall
and
late
winter
, in
general
agreement
with
transport
measurements
from
cable
data
(Larsen
,
1992).
However
, the
amplitude
of the
model
response
differs
considerably
between
the
climatologies.
In the
case
of
DS
the
range
(maximum
transport
minus
minimum
transport)
is
2.8
Sv;
HR
,
3.6
Sv;
TR
,
5.2
Sv
and
IH
,
5.9
Sv
,
compared
to a
range
of
4.6
±
0.4
Sv
derived
from
cable
data.
When
the
JEBAR
(Joint
Effect
of
Baroclinicity
And
Relief;
Sarkisyan
and
Ivanov
,
1971)
forced
transport
is
also
considered
,
using
the
two-layer
model
, the
amplitude
of the
model-calculated
response
changes
slightly
in
each
case
, with
ranges
of
3.3Sv
,
3.9.Sv
,
5.8Sv
and
6.1Sv
for
each
of
DS
,
HR
,
TR
, and
IH
respectively.
--
We
have also
conducted
experiments
using
a
1/3°
x
1/3°
version
of the
model
applied
to the
region
extending
from
5°N
to
42°N
, and
100°W
to
70°W.
The
Bahama/Antilles
Island
Arc
are
resolved
in this
model.
Transport
through
the
boundary
at
70°
W
is
specified
from the
1°
x
1°
calculations
referred
to
above.
The
details
of the
model-calculated
response
are
particularity
sensitive
to the
precise
choice
of
grid
point
used
to
represent
, the
offshore
boundary
of the
Florida
Straits
, if
we
choose
the
Grand
Bahama
Islands
, the
cases
with
transport
specified
on the
eastern
boundary
yield
ranges
of
1.3Sv
,
2.8Sv
,
3.0Sv
and
3.ESv
for
each
of
DS
,
HR
,
TR
, and
IH
respectively.
If
instead
,
we
choose
a
region
between
the
Grand
Bahama
Island
, and
Andrew
Island
(the
Providence
Channel
area)
the
1/3°
x
1/3°
model
calculated
results
agree
quite
well
with
our
1°
x
1°
results.
This
is
a
consequence
of the
fact
that
even
at
1/3°
/
1/3°
resolution
,
we
still
do
not
properly
resolve
the
Florida
Straits.
In
fact
, in the
model
the
Straits
are
much
too
shallow
(roughly
half
the
depth
of the
true
Florida
Straits)
, and
hence
,
does
not
receive
as
much
information
along
∫/
11
contours
as in the
1°
x
1°
case
, or as the
grid-point
in the
vicinity
of the
Providence
Channel.
--
The
increased
range
in the
IH
case
compared
to
HR
in
our
1°
x
1°
case
is
in
general
agreement
with the
finding
of
Boning
el
al.
(1991b)
using
the
Kiel
version
of the
model
that
forms
the
WOCE
Community
Modelling
Effort
,
However
,
whereas
Boning
et
al.
claim
that
winds
north
of
35°N
have
little
influence
on the
seasonal
response
of their
model
at the
Florida
Straits
,
we
find
that
winds
north
of
35°N
play
an
important
role
in
our
model.
The
reason
for the
behaviour
of the
Community
Model
is
not
clear
but
may
be
associated
with
advection
by the
western
boundary
current.
In
our
model
, to
show
the
importance
of
forcing
by the
meridional
component
of the
wind
,
although
forcing
through
the
zonal
component
also
plays
some
role
in
explaining
the
differences
between
the
cases
run
under
the
different
climatologies.
We
also
show
the
importance
of
forcing
associated
with the
meridional
component
of the
wind
along
the
continental
slope
region
north
of the
Straits.
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
76165711
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
(26.52
MB)
--
http://collections.mun.ca/PDFs/theses/Fanning_AugustusF.pdf
CONTENTdm file name
15343.cpd
