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Concentration of heavy metals in seawater and sediments from the Northern Aegean Sea, Greece
Chemosphere, Vol.12, No.l, P r i n t e d in Creat Britain
:~Concentration i~orthern
of
heavy
Aegean
K.Fytianos
Sea,
pp 83 - 91,
metals
in
1983
seawater
OO45-6535/83/O10083-09503.00/O © 1 9 8 3 P e r g a m o n Press Ltd.
and
sediments
from
the
Greece.,,
and G . S . V a s i l i k i o t i s
Environmental
Pollution
Thessaloniki,
Thessaloniki,
Control
Laboratory,
Aristotelian
University
of
Greece.
Introduction The p r e s e n c e sing can
be d e t e c t e d has
in
body o f
chain
to
high,
and
been
the
that
sea.
The c i t y
of
for
the
gulfs
it
their
liquid
west
of
u~its
the or
discharged
and are
at
least
treatment
tructed.
This
ge them a f t e r Thermaikos all small
bay
are
oil
treated coast
witll
a main
will
take
and
Axios
about of
Thessaloniki
mean d e p t h
of
about
20m.
the the
the
In
Figure
83
the
recei-
domestic, populated is
mainly
industry,ferindustrial
area,
waste
sewages
without planned
domestic
of
and
final
industrial
any to
are
are treat-
be c o n s -
s e w a g e s and d i s c h a r in
gulf,
two basins,
and G u l f
Aegean 3 .
smaller
domstic is
es-
industrial
treatment of
the
city
The T h e r m a i k o s
consist
(Bay
The
collector
all
biological
river.
70km,
but near
the
steel
12.000
city.
north
receives
in
increa-
Laboratory
contamination
located
so
and
a heavily
refinery,
the
portially
system
from
more than
near
along
mechanical of
from
as
food-
is
face
inhabitants
Gulf
Thermaikos
runoff
in
by o u r
the
distribution
which
Kavala
ago
The h e a v y m e t a l
also
the
and
1.200.000
industries
located
collector
through
perimeter
central
There also
directly
ment~A
wastes
the
areas,
use T h e r m a i k o s of
accumulate
come t h r o u g h
industrialization
a few y e a r s
area.
metals
heavy
of
in the
Thermaikos
The G u l f
threatening
and o t h e r
investigate
than
increaseawater
some f i s h e s 2 consumption
for
to
and n a t u r a l
some o t h e r
city.
which
treated
wastes.
by i n d u s t r i a l plant
of
area
industrialized
affected
due
witi~ more
industrial
content
sediments
started
industrial
fairly
tiliser
closed
Thessaloniki
agricultural, and
ana
problems,
these
they
was t o
of in
reach
mercury
Some o f
unsuitable study
seawater
invustigation
surrounding ver
are
present
pollutants
finally
mercury
a problem
heavy metals
copper,
and
So,
is
of
these
increased.
pollution
in
This
in
seawaters
lead,
organism#
fishes
heavy metals
pecially
of
human b e i n g s . the
in
quantities
same c o a s t s
remarkably
these
marine
in
marine
The aim o f sing
ions
The c o n t e n t
metalz; tile
metal
Considerable
concentrations.
of
of
importance.
the
gulf
which the
Thessaloniki,
I we can o b s e r v e
has
inner
of an o v e r and
having that
the a the
84
two b a s i n s shallow into
communicate together
mouths,
w h i c h do n o t
t h e open sea f o r To e x p l a i n
Aegean s e a , lation
in
the
role
mited
of
the of
bay o f
charged quantity Figure
2,
which
can o b s e r v e
prevalent.
According
between the
to
is
carry
in
this
was s t u d i e d .
mainly
due t o
tidal
and 2 a r e
in
the
which
do n o t
fishing
of
off
the
part
of
wastes
the
The w a t e r
the winds,
currents,
which
the
for
area,
north
circu-
the
dis-
have a l i -
winds
is
of
the
are
wind
a correlation
direction
di-
t h e most
of
in
the
this
currents,
a North-wind 5
six
sampling
Station
Stations
directly
there
w i n d and t h e
deviation
discharged,
receive
mean f r e q u e n c y
and S o u t h - W e s t
we i n s t a l l e d
industrial
sewage a r e m a i n l y
annual
North
the o b s e r v a t i o n s
direction
In T h e r m a i k o s g u l f
3 in
4,5
stations.
the
Stations
a r e a where m u n i c i p a l
and 6 were l a c a t e d
any w a s t e w a t e r
I
and t h e y
in
a r e used
areas, for
and r e c r e a t i o n .
The g u l f the
of of
of
near
the m i d l e
from the
pollution the of
closed
and r e c e i v e s
of
industrialization
from four
the
gulf
the
any t r e a t -
Kavala
not
in
localized
area
Kavala
town w i t h
because o f
had as c o n s e q u e n c e ,
sampling
industrial
oil-platforme.
sewages o f
without
inhabitants.
sea o i l - r e s e r v e s ,
Here we i n s t a l l e d St.2
also
w a s t e s and d o m e s t i c
increase
discovery
uncontrollable
is
about 80.000
The P a p i d recent
Kavala
industrial
a population
in
to
on l o w l e v e l s .
transport
and t h e
shows t h e that
w},ich have a r i g h t - h a n d
bor,
streams
currents
rivers
open sea by n a r r o w and
intensity. In
ment
the
pollution
cdastal
the
pollution
Thessaloniki the
rection,we area
permit
keeping the
better
the
and t o
(asumed
clean
the
somehow
sources.
stations
(Fig.3)
(fertilize~
The c o a s t a l
the
area)
current
St.l
in
producing and S t . 4 ,
were n o t
the
har-
plant),St.3 2km
studied
away for
the
Kavala gulf. Materials
and Methods
Samples o f
water
and s e d i m e n t s were c o l l e c t e d
T h e r m a i k o s and K a v a l a g u l f s Water
Samples:
filtered
Surface
through
sampling,
to avoid
. The w a t e r
HNO3 t o of
the
convert
a period
all
heavy m e t a l s
of
any p o s s i b l e
It
the metals were c a r r i e d
was f i l t e r d
adsorption
samples were then into out
the
of
twice
one y e a r
s e a w a t e r was s a m p l e d i n t o
a 0 , 4 5 - ~ m membrane.
ners
wall
during
a month
from
(1981-1982).
2,81it
containers
immediately
the metals
acidified
with
inorganic
form.
by a P e r k i n - E l m e r
on t h e
lOml
of
and after
contaiconc.
The m e a s u r e m e n t s 403 A t o m i c
85
Absorption cold
Spectrophotometer equipped with
v a p o u r t e c h n i q u e was used f o r
pensate chemical tificial part
and m a t r i x
sea w a t e r w i t h
o f each w a t e r
used f o r
with
in an
agate mortar.
acid
and n i t r i c
Hg-determination,
Water. of
(i~5)
50°C f o r
12h.
The c o n c e n t r a t i o n s
After
of the
illustrate
heavy m e t a l s be due t o
and to (St.l
charged.
the
After
the was
(Eckmanhirge)
at
with
lO0°C,and
with
a mixture Ii0°C
~round
of
for
a mixture
t he d i g e s t i o n
maikos g u l f
the g e o l o g i c a l
increasing
perchlo-
2h.
of
For the
lINO3 and
the samples were
during contains
Significant
in
St.3,
the p o l l u t i o n
slightly
the
I
in
fluctuations a slight
rainfalls,which
heavy m e t a l s and e s p e c i a l l y comes from J u g o s l a v i a , the T h e s s a l o n i k i
higher
The s t a t i o n
Seasonal
be due t o
in
in
the wa-
t he c o n c e n t r a -
the w o r l d a r e h i g h ~ f ~ of
t he T h e s s a l o n i k i
industrial
waste and d o m e s t i c
where t h e m u n i c i p a l
high values
the n o r t h - w i n d s
were n o t o b s e r v e d e x c e p t f o r might
from
found
show t h a t
regions
configuration
pollution
in w a t e r which a r e
levels
t h e heavy m e t a l s were o b s e r v e d near i n d u s t r i a l
a r e due to
Kavala G u l f .
The d a t a
compared to o t h e r
and 2) and a l s o
St 4 and S t . 5
heavy m e t a l s
the g e n e r a l
The o b s e r v e d r e l a t i v e l y
and e s p e c i a l l y
in
(M.I.B.K.)
from m e t a l s and
and then h e a t e d a t
t h e samples were t r e a t e ~
sewage. High v a l u e s o f
It
of
w h i c h passed t h r o u g h a 63~m n y l o n
T h e r m a i k o s and K a v a l a g u l f .
of
the
A
Then 2% s o l u t i o n
by a h y d r o - h i e s
The samples were t r e a t e d
in T a b l e I . ,
This might
to
samples.
and D i s c u s s i o n
presented
areas
the
was added and t he formed
was c o n s i d e r e d f r e e
The p a r t i c l e s acid
H2SO4 and h e a t e d a t 6 d e t e r m i n e d by AAS
gulf,
pH 2 . 5 .
To com-
were made in a r -
of
Each sample was washe~, o v e n - d r i e d
s i e v e were a n a l y s e d .
tions
Furnace 76 B. The
blank determinations.
sampler.
ters
that
(A.P.D.C.)
Sediments samples were c o l l e c t e d
R~glts
at
to
methly-isobutyl-ketone
the aqueous l a y e r
botton
ric
standards
salinity
dithiocarbamate
complex was e x t r a c t e d extraction
interferences,
a similar
sample was ~ d j u s t e d
ammonium p y r r o l i d i n e
a Graphite
the mercury d e t e r m i n a t i o n .
lead.
transport levels of
of
The r u n o f f
Fig.2.
currents,
The T h e r -
heavy m e t a l s c o m p a i r e d is
t he most p o l l u t e d .
heavy m e t a l
wash o f f
areas
by t h e c o a s t a l
Kavala Gulf increase
sewage a r e d i s -
t he u n p o l l u t e d
as we can see in
causes an a d d i t i o n a l
Gulfo
in
concentrations
in the b e g i n i n g street
dust
from t h e r i v e r pollution
of
of winter.
rich
in
Axios,which
heavy m e t a l s
86
S e d i me n t s The heavy m e t a l T a b l e 2.
concentrations
These r e s u l t s
higher, especially o n l y a small
the values of
portion
of
nisms.
of
l e a d and z i n c
The c o n c e n t r a t i o n s
zinc
Cu and Mn a r e c l o s e
to
the o v e r a l l of metals
the u n t r e a t e d
Ditate
is
mean v a l u e g i v e n in
domestic
sediments
and i n d u s t r i a l
mecha-
sediments of
The v a l u e s ~f Zn,
for
other
near to the
and K a v a l a G u l f s
anaeYobic c o n d i t i o n s
The v a r y i n g
transport
Pb and Hg i n
in
combined wit h
the o p p o s i t e .
Kavala G u l f .
in
areas are
Lead e x i s t e d is
show d i f f e r e n t
than those o f
in T h e s s a l o n i k i
of the G u l f
it
of metals-mainly
The h i g h c o n c e n t r a t i o n s
part
to o t h e r
t h e main p o r t i o n
in w a t e r
higher
due to
s e d i m e n t s ar e p r e s e n t e d
l e a d and m e r c u r y 7,9.
Thermaikos are also
a r e a and h a r b o r
the
those refered
the w a t e r s ,
suspended e l e m e n t s I however w i t h relationship
in
c o m p a i r e d to
areas.
industrial are p r o b a b l y
sewage o u t f a l l s ,
in
d o m i n a t e and heavy m e t a l s
these
preci-
as s u l p h i d e s .
Conclusions: From the d a t a concentration diments
is
of
presented
considerably
regions.The
Gulf
Tqe p r e s e n t
situation
cal
and b i o l o g i c a l
in
this
t h e ileavy m e t a l s of
higher
K a v a l a is could
treatment
sewage would be i m m e d i a t e l y
s t u d y , w e can c o n c l u d e t h a t investigated
than lesser
be for set
those found polluted
improved if t he into
both in
the
i n w a t e r and se-
literature
for
other
than Thermaikos G u l f . t he a l r e a d y
industrial function.
planned chemi-
waste and the dornest,~c
FIG.
1
~~
NORTH AEGEANSEA
GULF
OF
TH ES S A L O N I KI
N
s•
R~AL
A~IEA
AIRPORT
4~
OF T H E SSALO N IKI
BAY
\~OOST
,~ ~l~l]~
"11
~n "-4
---I "1"
I i
__----
'~
~ |
"--,.. " " y| ZF
"-" ....
-- ........ +'1
,*"iiif
~
. . . . . . . . .
. . . .
f "++" 4,--"" . . . . .
++""" ,+...~
. . . . . . . . . . .
i_++
li
Jf
~
l
v
j
iI
I ~k
"" ~ ~ I
I
t
[
"
~li
d I
f/
~
~
i I i i ",, ",",,,'
i I tl
t L
. t Z t ~
" "
. . . .
I+""-'--+--i
p'--.
I--,.----.- i
II
~ ~ "<.I
I
1
~Z
t tl
Fig.
KAVAL A
I
3 ~ KAVALA
GULF
r
kARVAL
OF
30
©
40 ,^
g
•~
~
~
-r.J
"~ Z
b4
(;3
0
0
0
0
0
~
r~
CO
0
r~ s..._
c
~
-0
~-
k,O
cO
CO
¢,~
o~
uL~
0
o
h-
0
~J
~
q--
~
Od
ra
c
~-
~"
rG
c
cl
V-
~
og
~
0
0
91
Literature I.
G. V a s i l i k i o t i s , N . V o u l o u v o u t i s , K . F y t i a n o s
and N. Samara,
"Schwermetallbelastung
Meer ( G r i e c h e n l a n d )
mittelt
anhand von F i s c h
~m Nord- A g a i s c h e n
und M u s c h e l u n t e r s u c h u n g e n " , g w f
er-
/wasser-abwasser°
to be p u b l i s h e d . 2.
J.
Rivers,J.
Marine 8, 3.
Pearson and D. S h u l t z ,
Fish".
257-
266,
Bulletin
of
Sartor,
surface 5.
479-496,
G.Boyd, et
Jour.
C. K o u t i t a s ,
Cagliari, 6.
(Grece)"
C.I.E.S.M.,
K. F y t i a n o s , I.
Poll.Control
pour
l'etude
Coastal
Area,
11_i, 2 6 5 - 2 6 9 ,
1977.
H.~amminga and J . W i l h m ,
"Heavy m e t a l s
ronomids'~ J o u r n a l
Pollution
9.
D. T a y l o r ,
water
"Distribution estuarine 259-264,
of
4_66, 458,
street 1974.
h y d r o d y n a m i q u e du G o l f e Etud.
Pollutions,
of
937-944,
Controll
Israel"
(Received in Germany 4 October 1982)
of
1982.
in water,sediments Environmental sediments
Federation i n the
The S c i e n c e
1976.
und F l u s s s e d i m e n -
190-194,
in water,
heavy m e t a l s
environment"
4,
Concetrations
8.
6,
aspects Fed.
i n den F l i e s s g e w a s s e r n
"Heavy M e t a l
from M e d i t e r r a n e a n
polluted
and l e a d "
de donn6es h y d r o g r a p h i g u e s
gwf/wasser-abwasser
S c i e n c e and T e c h n o l o g y
r,l e n t ,
by m e r c u r y
1980.
Roth and H . H o r n u n g ,
and f i s h
~'Water p o l l u t i o n
Water
Ves J o u r n e e s
"Schwermetalle
ten des West H a r z e s " , 7.
contamination
"Utilisation
et de modeles m a t h e m a t i q u e s de T h e s s a l o n i k i
bay f o r
and M . S o f o n i o u , " P r e l i -
1982.
and F . A g a r d y ,
contaminants".
J.Ganoulis
in
and T o x i c o l o g i e
1973.
Chemosphere l l , J.
and O r g a n i c M e r c u r y
Contamination
G. V a s i l i k i o t i s , N . V o u l o u v o u t i s , D . T h e m e l i s minary Study of T h e s s a l o n i k i
4.
"Total
Environmental
and c h i -
4__99, 1725,
1977.
sediments
of an un-
the T o t a l
Environ-
:~Concentration i~orthern
of
heavy
Aegean
K.Fytianos
Sea,
pp 83 - 91,
metals
in
1983
seawater
OO45-6535/83/O10083-09503.00/O © 1 9 8 3 P e r g a m o n Press Ltd.
and
sediments
from
the
Greece.,,
and G . S . V a s i l i k i o t i s
Environmental
Pollution
Thessaloniki,
Thessaloniki,
Control
Laboratory,
Aristotelian
University
of
Greece.
Introduction The p r e s e n c e sing can
be d e t e c t e d has
in
body o f
chain
to
high,
and
been
the
that
sea.
The c i t y
of
for
the
gulfs
it
their
liquid
west
of
u~its
the or
discharged
and are
at
least
treatment
tructed.
This
ge them a f t e r Thermaikos all small
bay
are
oil
treated coast
witll
a main
will
take
and
Axios
about of
Thessaloniki
mean d e p t h
of
about
20m.
the the
the
In
Figure
83
the
recei-
domestic, populated is
mainly
industry,ferindustrial
area,
waste
sewages
without planned
domestic
of
and
final
industrial
any to
are
are treat-
be c o n s -
s e w a g e s and d i s c h a r in
gulf,
two basins,
and G u l f
Aegean 3 .
smaller
domstic is
es-
industrial
treatment of
the
city
The T h e r m a i k o s
consist
(Bay
The
collector
all
biological
river.
70km,
but near
the
steel
12.000
city.
north
receives
in
increa-
Laboratory
contamination
located
so
and
a heavily
refinery,
the
portially
system
from
more than
near
along
mechanical of
from
as
food-
is
face
inhabitants
Gulf
Thermaikos
runoff
in
by o u r
the
distribution
which
Kavala
ago
The h e a v y m e t a l
also
the
and
1.200.000
industries
located
collector
through
perimeter
central
There also
directly
ment~A
wastes
the
areas,
use T h e r m a i k o s of
accumulate
come t h r o u g h
industrialization
a few y e a r s
area.
metals
heavy
of
in the
Thermaikos
The G u l f
threatening
and o t h e r
investigate
than
increaseawater
some f i s h e s 2 consumption
for
to
and n a t u r a l
some o t h e r
city.
which
treated
wastes.
by i n d u s t r i a l plant
of
area
industrialized
affected
due
witi~ more
industrial
content
sediments
started
industrial
fairly
tiliser
closed
Thessaloniki
agricultural, and
ana
problems,
these
they
was t o
of in
reach
mercury
Some o f
unsuitable study
seawater
invustigation
surrounding ver
are
present
pollutants
finally
mercury
a problem
heavy metals
copper,
and
So,
is
of
these
increased.
pollution
in
This
in
seawaters
lead,
organism#
fishes
heavy metals
pecially
of
human b e i n g s . the
in
quantities
same c o a s t s
remarkably
these
marine
in
marine
The aim o f sing
ions
The c o n t e n t
metalz; tile
metal
Considerable
concentrations.
of
of
importance.
the
gulf
which the
Thessaloniki,
I we can o b s e r v e
has
inner
of an o v e r and
having that
the a the
84
two b a s i n s shallow into
communicate together
mouths,
w h i c h do n o t
t h e open sea f o r To e x p l a i n
Aegean s e a , lation
in
the
role
mited
of
the of
bay o f
charged quantity Figure
2,
which
can o b s e r v e
prevalent.
According
between the
to
is
carry
in
this
was s t u d i e d .
mainly
due t o
tidal
and 2 a r e
in
the
which
do n o t
fishing
of
off
the
part
of
wastes
the
The w a t e r
the winds,
currents,
which
the
for
area,
north
circu-
the
dis-
have a l i -
winds
is
of
the
are
wind
a correlation
direction
di-
t h e most
of
in
the
this
currents,
a North-wind 5
six
sampling
Station
Stations
directly
there
w i n d and t h e
deviation
discharged,
receive
mean f r e q u e n c y
and S o u t h - W e s t
we i n s t a l l e d
industrial
sewage a r e m a i n l y
annual
North
the o b s e r v a t i o n s
direction
In T h e r m a i k o s g u l f
3 in
4,5
stations.
the
Stations
a r e a where m u n i c i p a l
and 6 were l a c a t e d
any w a s t e w a t e r
I
and t h e y
in
a r e used
areas, for
and r e c r e a t i o n .
The g u l f the
of of
of
near
the m i d l e
from the
pollution the of
closed
and r e c e i v e s
of
industrialization
from four
the
gulf
the
any t r e a t -
Kavala
not
in
localized
area
Kavala
town w i t h
because o f
had as c o n s e q u e n c e ,
sampling
industrial
oil-platforme.
sewages o f
without
inhabitants.
sea o i l - r e s e r v e s ,
Here we i n s t a l l e d St.2
also
w a s t e s and d o m e s t i c
increase
discovery
uncontrollable
is
about 80.000
The P a p i d recent
Kavala
industrial
a population
in
to
on l o w l e v e l s .
transport
and t h e
shows t h e that
w},ich have a r i g h t - h a n d
bor,
streams
currents
rivers
open sea by n a r r o w and
intensity. In
ment
the
pollution
cdastal
the
pollution
Thessaloniki the
rection,we area
permit
keeping the
better
the
and t o
(asumed
clean
the
somehow
sources.
stations
(Fig.3)
(fertilize~
The c o a s t a l
the
area)
current
St.l
in
producing and S t . 4 ,
were n o t
the
har-
plant),St.3 2km
studied
away for
the
Kavala gulf. Materials
and Methods
Samples o f
water
and s e d i m e n t s were c o l l e c t e d
T h e r m a i k o s and K a v a l a g u l f s Water
Samples:
filtered
Surface
through
sampling,
to avoid
. The w a t e r
HNO3 t o of
the
convert
a period
all
heavy m e t a l s
of
any p o s s i b l e
It
the metals were c a r r i e d
was f i l t e r d
adsorption
samples were then into out
the
of
twice
one y e a r
s e a w a t e r was s a m p l e d i n t o
a 0 , 4 5 - ~ m membrane.
ners
wall
during
a month
from
(1981-1982).
2,81it
containers
immediately
the metals
acidified
with
inorganic
form.
by a P e r k i n - E l m e r
on t h e
lOml
of
and after
contaiconc.
The m e a s u r e m e n t s 403 A t o m i c
85
Absorption cold
Spectrophotometer equipped with
v a p o u r t e c h n i q u e was used f o r
pensate chemical tificial part
and m a t r i x
sea w a t e r w i t h
o f each w a t e r
used f o r
with
in an
agate mortar.
acid
and n i t r i c
Hg-determination,
Water. of
(i~5)
50°C f o r
12h.
The c o n c e n t r a t i o n s
After
of the
illustrate
heavy m e t a l s be due t o
and to (St.l
charged.
the
After
the was
(Eckmanhirge)
at
with
lO0°C,and
with
a mixture Ii0°C
~round
of
for
a mixture
t he d i g e s t i o n
maikos g u l f
the g e o l o g i c a l
increasing
perchlo-
2h.
of
For the
lINO3 and
the samples were
during contains
Significant
in
St.3,
the p o l l u t i o n
slightly
the
I
in
fluctuations a slight
rainfalls,which
heavy m e t a l s and e s p e c i a l l y comes from J u g o s l a v i a , the T h e s s a l o n i k i
higher
The s t a t i o n
Seasonal
be due t o
in
in
the wa-
t he c o n c e n t r a -
the w o r l d a r e h i g h ~ f ~ of
t he T h e s s a l o n i k i
industrial
waste and d o m e s t i c
where t h e m u n i c i p a l
high values
the n o r t h - w i n d s
were n o t o b s e r v e d e x c e p t f o r might
from
found
show t h a t
regions
configuration
pollution
in w a t e r which a r e
levels
t h e heavy m e t a l s were o b s e r v e d near i n d u s t r i a l
a r e due to
Kavala G u l f .
The d a t a
compared to o t h e r
and 2) and a l s o
St 4 and S t . 5
heavy m e t a l s
the g e n e r a l
The o b s e r v e d r e l a t i v e l y
and e s p e c i a l l y
in
(M.I.B.K.)
from m e t a l s and
and then h e a t e d a t
t h e samples were t r e a t e ~
sewage. High v a l u e s o f
It
of
w h i c h passed t h r o u g h a 63~m n y l o n
T h e r m a i k o s and K a v a l a g u l f .
of
the
A
Then 2% s o l u t i o n
by a h y d r o - h i e s
The samples were t r e a t e d
in T a b l e I . ,
This might
to
samples.
and D i s c u s s i o n
presented
areas
the
was added and t he formed
was c o n s i d e r e d f r e e
The p a r t i c l e s acid
H2SO4 and h e a t e d a t 6 d e t e r m i n e d by AAS
gulf,
pH 2 . 5 .
To com-
were made in a r -
of
Each sample was washe~, o v e n - d r i e d
s i e v e were a n a l y s e d .
tions
Furnace 76 B. The
blank determinations.
sampler.
ters
that
(A.P.D.C.)
Sediments samples were c o l l e c t e d
R~glts
at
to
methly-isobutyl-ketone
the aqueous l a y e r
botton
ric
standards
salinity
dithiocarbamate
complex was e x t r a c t e d extraction
interferences,
a similar
sample was ~ d j u s t e d
ammonium p y r r o l i d i n e
a Graphite
the mercury d e t e r m i n a t i o n .
lead.
transport levels of
of
The r u n o f f
Fig.2.
currents,
The T h e r -
heavy m e t a l s c o m p a i r e d is
t he most p o l l u t e d .
heavy m e t a l
wash o f f
areas
by t h e c o a s t a l
Kavala Gulf increase
sewage a r e d i s -
t he u n p o l l u t e d
as we can see in
causes an a d d i t i o n a l
Gulfo
in
concentrations
in the b e g i n i n g street
dust
from t h e r i v e r pollution
of
of winter.
rich
in
Axios,which
heavy m e t a l s
86
S e d i me n t s The heavy m e t a l T a b l e 2.
concentrations
These r e s u l t s
higher, especially o n l y a small
the values of
portion
of
nisms.
of
l e a d and z i n c
The c o n c e n t r a t i o n s
zinc
Cu and Mn a r e c l o s e
to
the o v e r a l l of metals
the u n t r e a t e d
Ditate
is
mean v a l u e g i v e n in
domestic
sediments
and i n d u s t r i a l
mecha-
sediments of
The v a l u e s ~f Zn,
for
other
near to the
and K a v a l a G u l f s
anaeYobic c o n d i t i o n s
The v a r y i n g
transport
Pb and Hg i n
in
combined wit h
the o p p o s i t e .
Kavala G u l f .
in
areas are
Lead e x i s t e d is
show d i f f e r e n t
than those o f
in T h e s s a l o n i k i
of the G u l f
it
of metals-mainly
The h i g h c o n c e n t r a t i o n s
part
to o t h e r
t h e main p o r t i o n
in w a t e r
higher
due to
s e d i m e n t s ar e p r e s e n t e d
l e a d and m e r c u r y 7,9.
Thermaikos are also
a r e a and h a r b o r
the
those refered
the w a t e r s ,
suspended e l e m e n t s I however w i t h relationship
in
c o m p a i r e d to
areas.
industrial are p r o b a b l y
sewage o u t f a l l s ,
in
d o m i n a t e and heavy m e t a l s
these
preci-
as s u l p h i d e s .
Conclusions: From the d a t a concentration diments
is
of
presented
considerably
regions.The
Gulf
Tqe p r e s e n t
situation
cal
and b i o l o g i c a l
in
this
t h e ileavy m e t a l s of
higher
K a v a l a is could
treatment
sewage would be i m m e d i a t e l y
s t u d y , w e can c o n c l u d e t h a t investigated
than lesser
be for set
those found polluted
improved if t he into
both in
the
i n w a t e r and se-
literature
for
other
than Thermaikos G u l f . t he a l r e a d y
industrial function.
planned chemi-
waste and the dornest,~c
FIG.
1
~~
NORTH AEGEANSEA
GULF
OF
TH ES S A L O N I KI
N
s•
R~AL
A~IEA
AIRPORT
4~
OF T H E SSALO N IKI
BAY
\~OOST
,~ ~l~l]~
"11
~n "-4
---I "1"
I i
__----
'~
~ |
"--,.. " " y| ZF
"-" ....
-- ........ +'1
,*"iiif
~
. . . . . . . . .
. . . .
f "++" 4,--"" . . . . .
++""" ,+...~
. . . . . . . . . . .
i_++
li
Jf
~
l
v
j
iI
I ~k
"" ~ ~ I
I
t
[
"
~li
d I
f/
~
~
i I i i ",, ",",,,'
i I tl
t L
. t Z t ~
" "
. . . .
I+""-'--+--i
p'--.
I--,.----.- i
II
~ ~ "<.I
I
1
~Z
t tl
Fig.
KAVAL A
I
3 ~ KAVALA
GULF
r
kARVAL
OF
30
©
40 ,^
g
•~
~
~
-r.J
"~ Z
b4
(;3
0
0
0
0
0
~
r~
CO
0
r~ s..._
c
~
-0
~-
k,O
cO
CO
¢,~
o~
uL~
0
o
h-
0
~J
~
q--
~
Od
ra
c
~-
~"
rG
c
cl
V-
~
og
~
0
0
91
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