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Document Description
Title
Applicability
of
laser
ablation
and
partial
dissolution
ICP-MS
techniques
on
Mn-Fe-oxide
coatings
of
stream
pebbles
to
mineral
exploration
and
environmental
monitoring
Author
Coish
,
Diane
Wanda
,
1968-
Description
Thesis
(M.Sc.)--Memorial
University
of
Newfoundland
,
2001.
Earth
Sciences
Date
2000
Pagination
xv, 255 leaves : ill. (some col.), maps
Subject
Analytical
geochemistry--Newfoundland
and
Labrador;
Geochemical
prospecting--Newfoundland
and
Labrador;
Oxide
coating;
Laser
ablation;
Inductively
coupled
plasma
mass
spectrometry
Degree
M.Sc.
Degree Grantor
Memorial University of Newfoundland. Dept. of Earth Sciences
Discipline
Earth Sciences
Language
Eng
Notes
Bibliography:
leaves
109-115.
Abstract
Mn-Fe-oxide
coated
stream
pebbles
have been
proposed
as an
alternative
sampling
medium
for
regional
geochemical
surveys.
Partial
dissolution
and
laser
ablation
microprobe
analysis
of these
coatings
were
tested
in this
project
to
determine
the
applicability
of
using
oxide
coatings
for
mineral
exploration
and
environmental
monitoring
projects.
--
The
three
areas
covered
in this
project
include
a
Au
showing
, a
base-metal
prospect
and
potentially
harmful
emissions
from an
oil
refinery.
Mn-Fe-oxide
coated
stream
pebbles
were
systematically
collected
from
stream(s)
in
each
field
area
and
two
types
of
analyses
were
conducted
on the
pebble
coatings.
Partial
dissolution
Inductively
Coupled
Plasma-Mass
Spectrometry
(ICP-MS)
and
solid
sample
analysis
using
Laser
Ablation
Microprobe-
Inductively
Coupled
Plasma-Mass
Spectrometry
(LAM-ICP-MS)
proved
successful
in
detecting
the
elements
relevant
to the
individual
disciplines.
Low
concentrations
of
elements
in the
stream
water
samples
were not
able
to
contribute
to this
project
since
most
were
below
the
detection
limit
(See
Appendix
1)
and
failed
the
required
statistical
analysis
of
variance
therefore
, were not
considered
for
further
discussion.
--
Analysis
of
variance
for the
two
approaches
,
digestion
of
oxide
coatings
and
solid
sample
analysis
of
pebble
coatings
using
laser
ablation
shows
that the
results
from the
Mn-Fe-
oxide
pebble
coatings
are
encouraging.
Elements
that are
typically
used
to
detect
and
define
mineralization
or a
potential
pollutant
source
are
present
in the
oxide
pebble
coatings
and the
majority
of them
pass
the
required
statistics
,
therefore
, they are
graphically
presented
and
discussed.
--
Comparisons
between
the
two
methods
of
analysis
for the
Mn-Fe-oxide
pebble
coatings
suggest
that there
is
a
degree
of
reproducibility
between
the
two
laboratory
procedures.
In
most
cases
, the
partial
dissolution
process
provides
a
more
pronounced
geochemical
signature
,
although
, these
anomalies
are also
noted
using
the
current
LAM-ICP-
MS
procedure.
--
For this
project
,
it
appears
that
considering
Mn-Fe-oxide
coatings
as a
sampling
medium
is
a
viable
venture.
The
current
LAM-ICP-MS
capabilities
suggests
that the
analysis
of the
pebble
coatings
would be
more
reliable
and
cost
effective
if the
dissolution
ICP-MS
method
was the
primary
analytical
procedure.
Overall
, the
analyses
of the
Mn-Fe-oxide
stream
pebble
coatings
suggests
that
gold
mineralization
,
base-metal
Pb-Zn-Cu
mineralization
and
potential
pollutants
from a
smoke
stack
at an
oil
refinery
and the
extent
of their
affect
on the
local
environment
are
able
to be
detected
using
the
oxide
pebble
coatings
as a
sampling
medium.
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
a1521579
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
(65.62
MB)
--
http://collections.mun.ca/PDFs/theses/Coish.pdf
CONTENTdm file name
18338.cpd
