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Acute toxicity of several oil dispersants towards the green algae Chlamydomonas and Dunaliella
Chemosphere No. 3, PP 247 - 255, 1978.
Pergamon Press.
Printed in Great Britain.
ACUTE T O X I C I T Y OF S E V E R A L OIL D I S P E R S A N T S TOWARDS THE GREEN ALGAE C H L A M Y D O M O N A S AND D U N A L I E L L A
Mikal Heldala{
Svein Norlanda!
T o r l e i v Lien a)
and Gjert Knutsenb! a) I n s t i t u t e of G e n e r a l M i c r o b i o l o g y .
b) Botani-
cal Laboratory. U n i v e r s i t y of Bergen,
All~gt.
70,
5014 N Bergen,
Norway. (Received in The Netherlands 1 March 1978; received in UK for ~51ication 13 March 1978) Introduction
W i t h the increased oil d r i l l i n g a c t i v i t i e s
in the N o r t h Sea
and m o s t p r o b a b l y also further north in N o r w e g i a n waters,
the
p o s s i b l e needs for c h e m i c a l oil spill c l e a n i n g increase.
For
r e a l i s t i c c o n s e q u e n c e a n a l y s i s of the a p p l i c a t i o n of such chemicals,
t o x i c i t y data p e r t i n e n t to the actual c h e m i c a l s must be
available.
M u c h i n f o r m a t i o n has b e e n g a t h e r e d about the toxicity
of oil d i s p e r s a n t s
towards animals,
and as an example we shall
m e n t i o n that a series of such c o m p o u n d s has b e e n a p p r o v e d
for use
at open sea by B r i t i s h a u t h o r i t i e s after testing for acute toxicity w i t h b r o w n shrimp~
U n f o r t u n a t e l y no similar data on effects
on p h y t o p l a n c t o n has b e e n a v a i l a b l e , a n d
c o n s i d e r i n g their key
role as p r i m a r y p r o d u c e r s such lack of t o x i c i t y data makes consequence a n a l y s e s of c h e m i c a l c l e a n up o p e r a t i o n s s e v e r e l y incomplete. We have t h e r e f o r e tested several d i s p e r s a n t s w i t h the unic e l l u l a r green algae C h l a m y d o m o n a s r e i n h a r d t i and D u n a l i e l l a marina.
Methods
Chlamydomonas reinhardti
(Cambridge C u l t u r e C o l l e c t i o n strain
no 11/32 b) was c u l t i v a t e d and s y n c h r o n i z e d as d e s c r i b e d in the 2 p r e c e e d i n g paper. Dunaliella marina
(G~ttingen Culture Collection,
247
synonymous
P48
No. 3
with was
D, biocula~a,
Cambridge
Chlamydomonas. which
was
supplemented
electronically
testing
a plate
(details
test,
are g i v e n
exponentially
using
for cell
Sweden).
the
transferred last well
charged. containing contained
1/3%
a control The p l a t e s
lids and
illuminated
After
48 h toxic
which
gave
sible. dead.
as w e l l s
Occasionally
Usually tures,
found b e t w e e n In the tube
w i t h NaCI, mits were
parallel
test w i t h
asynchronous estimated
to that w i t h
row,
to
suspension
Each plate of test
sub-
plastic
light at 2 k lux.
at higher
appeared
intermediate
completely
green
concen-
and almost
degrees
"all dead
also
the same dark
cells
discrepancies
50 ~i
At d i l u t i o n s
had
whereas
intermediate
invi-
to be
shades
of effect.
bleached cells",
microcul-
can e a s i l y
than one d i l u t i o n
step
series. Dunaliella
cultures
were
differently.
Chlamydomonas.
subfirstly
transfer
transparent
was b l e a c h e d
dessignated
Flow
from it and dis-
visible.
the a f f e c t e d
larger
was
mixing
instead
their
one or two w e l l s w i t h
and s e l d o m
of test
g r e e n algal
of w e l l s
giving
plates,
After
fluorescent
clearly
of the wells
in the f o l l o w i n g
be d e t e c t e d
thorough
removed
with
by Rasmus-
of a series
to each well.
of the control
dilution
of tests,
of the type used
dilutions
and so on.
the c o n t e n t s
representing
the h i g h e s t
plates
growth medium
covered
were
2.
50 ~i of test s u b s t a n c e
After
added
the m i c r o s c o p e
could be found,
were
effects
the c o n t e n t s Under
and then
from above with
no e f f e c t
appearance trations
were
no.
Chlamydomonas
Titertek/Linbro
50 ~i were
row with
stance.
types
like one d e v e l o p e d
150 ~i of a s l i g h t l y
NaHCO 3 were
done
p a p e r 2) and a tube test w i t h
of double
of the series.
and mixing,
three
titration
to the next well
Finally
were
in r e f e r e n c e
synchronous
To each well
50 ~i of g r o w t h medium,
for
medium
cultures.
(e.g.
Series
as follows:
to the first well were
micro
and c u l t u r i n g
given
with
test u s i n g
is e s s e n t i a l l y
flat b o t t o m e d
stance was made
performed
Dunaliella
test
typing
Laboratories,
added
was
as used
2,5%.
distributions
in the p r e c e e d i n g
grown
The p l a t e 3
to give
to the m e t h o d s
a tube
strain LB 19/4)
the C h l a m y d o m o n a s
and cell v o l u m e
according
Toxicity namely
w i t h NaCI
Collection
type of a p p a r a t u s
As m e d i u m was used
Cell c o u n t i n g
sen
Culture
g r o w n at 27 ° and in the same
Since
the m e d i u m was used,
Otherwise
and
supplemented
the t o x i c i t y
the test was
Dunaliella
grows
li-
analogous.
appreciably
No. 3
249
Table
1.
sants
alone
Results
(Experimental
Dispersant
Finasol
W
from
and water details
plate
test
extracts are
type
given
with
of
Chlamydomonas
mixtures
in
the
Dispersant
of
oil
and
and
disper-
dispersant.
text).
alone
Water extracts of mixtures of oil and dispersant
ii0
350
120
500
55
125
"
K
"
CC
"
OSR-2
150.000
800
"
OSR-5
195
175
(Norske
Fina
A/S)
"
OSR-7
230
250
iCorexit
7664
83.000
> 1000
"
8666
50.000
> 1000
"
9600
138.000
> 1000
"
9527
195
180
100.000
> 1000
i00.000
> i000
50.000
> i000
38.000
> 1000
BP
1100 "
X
"
WD
Shell
Dispersant
"
Oil
Dasic
Slickgone
Gamlen
LT
(nr.
Chlorothene Cold
Cleaner
Norclean Regal
A
C
X-12 Emulsol Servo
LT
Herder
CD
1000
Pero-Kleen
> 1000
LT2
100.000
> i000
154)
63.000
> 1250
7.500
> 1000
430
590
60
70
i00.000
> 1000
170
> 1000
> 250.000
> 1250
> 250.000
> 1250
> 250.000
> 1250
> 250.000
> 1250
Synperonic
26.000
> 1250
Sabreslick
> 250.000
635
BMD
(SM53)
868
360
250
No. 3
slower
than C h l a m y d o m o n a s
obtaining
significant
The t o x i c i t y wing
a 24 h testing
p e r i o d was n e c e s s a r y
for
results.
limits
were
estimated
according
to the follo-
espression:
Toxicity
effect
Bt - Btox
= I-
t
Bt B t is the b i o m a s s
of the control
and Bto x t of the
both at the end of the experiment. into a c c o u n t periment, degree
the g r o w t h
and h e n c e
the t o x i c i t y
of the c o n t r o l
the test period. number
of the culture
of u n d e r e s t i m a t i o n
biomass
culture
test culture,
does
not take
from the start of the ex-
in the p r e s e n t
increased
was m e a s u r e d
average
formula
is u n d e r e s t i m a t e d .
is small
Biomass
and w e i g h t e d
This
about
However,
case
25-fold
as the p r o d u c t
the
since
the
during of cell
cell volume.
Results
Our
investigation
concentration-series
of oil and d i s p e r s a n t s
i.
Dispersants
method of
developed
alone.
and
Table
i.
great
range
experiments
from
tested with
the s y n c h r o n o u s
LC 50 values,
as well
These values
from a p a r a l l e l
plate
The most
99.5%
The a v e r a g e
toxic
test.
limit varies
system
higher
over
a
250 000 ppm
were
further
to e s t a b l i s h
giving
2 together of LC v a l u e s
using
synchronous
toxicity
in
99.5%
with
dead
results
extended
from
to 700 p p m for Cold Cleaner.
of the two methods, in the
than
compounds
in Table
The range
results
are listed
CC to more
Chlamydomonas
are g i v e n
plate
d e a d cells
test gave
tested by the plate
as those c o n c e n t r a t i o n s
1 ppm for Shell Oil H e r d e r Comparison
ving
were
for each c o m p o u n d
55 ppm for F i n a s o l
of m i x t u r e s
themselves.
It c a n be seen that the t o x i c i t y
compounds.
about
compounds
extracts
as test organism.
for several
cells.
water
such m i x t u r e s
All
with Chlamydomonas
3-5 p a r a l l e l
in such a w a y that we tested
of dispersants,
for
the c o n c e n t r a t i o n s system,
6 compounds
shows and
that
lower
githe
for
3.
No. 3
251
Table
2.
Toxicity
of some oil d i s p e r s a n t s
synchronous
cultures
Synchronous
and w i t h
as e v a l u a t e d
the p l a t e
cells
Plate
with
test.
test i
Conc. giving 99,5% d e a d cells
LC 50
Lowest conc. giving "all cells
dead"
i
Shell
Oil H e r d e r
Nokomis
III
1
195-390
10
Butyl J a y s o l v e
435
85
Finasol
CC
37
60
49
Finasol
K
37
38
98
Finasol
W
12
13
98
Finasol
OSR 7
440
630
195
Finasol
OSR 5
510
900
195
Corexit
9527
575
900
350
150
350
49-93
25
28
195
700
950
195-781
Norclean
A
X-12 Cold
Cleaner
2.
Mixtures
a)
Plate
We m i x e d
test w i t h w a t e r 5 ml E k o f i s k
shaken
shaking
several
about
section.
Two p a r a l l e l
and in the cases w h e r e
during
we used
94.5 ml C h l a m y d o m o n a s funnel.
an 8 h period,
before
then tested extractions
the w a t e r
were
done
2.5 ml d i s p e r s a n t
The m i x t u r e
and from the
last
in the M e t h o d s
for each c o m p o u n d
gave d i f f e r i n g
and tests were
medium
p h a s e was collected.
as d e s c r i b e d
the two e x t r a c t s
new e x t r a c t i o n s
OSR-2,
and C h l a m y d o m o n a s .
oil with
in a 250 ml s e p a r a t o r y
16 h e l a p s e d
e x t r a c t was
Finasol
extracts
crude
times
The w a t e r
in the test,
h
of oil and d i s p e r s a n t .
and 0.5 ml d i s p e r s a n t was
h
performed.
results With
and 92.5 ml m e d i u m
plus
OSR
Finasol
Finasol
~
OSR
OSR
Finasol
~.~• ~
7
5
2 x)
Dasic
~! ul
9527 x)
Corexit
Corexit
OSR
Finasol
~
O i l s o l v e x'
x)
Slickgone
Dispersol X-12
7
5
2 x)
L T 2 x)
O S D x)
9527 x"~
OSR OSR
Finasol Finasol
o~
%
1000 xj
Synpersonic
CD
~ ml ~ o ~ ~o ~
Servo
%
ocox) U ~ Q
S a b r e s l i c k x)
L.W. x)
~.~~
Emulsol
Cleaner
(SM 53)
Jaysolve
I I 0 0 W D x)
Cold
BMD
ppm
I I 0 0 X x)
1100
Butyl
BP
BP
BP
100-1000
U . K . 1.
Pero-Kleen
the
S a m l e n x)
X-12
in
Oil Herder
A
Shell
Norclean
Finasol
III
K
W
Finasol
Nokomis
CC
< 100 p p m
approved
Finasol
cals
LT
9600
Dasic
Slickgone
7664
O i l s o l v e x)
Corexit
ppm
8666
! D i s p e r s o l x)
Shell
Corexit
Corexit
1000-10000
LT2 x)
C
Corexit
Regal
> 10000
7644
ppm
E f f e c t s of m i x t u r e s of E k o f i s k c r u d e o i l w i t h d i s p e r s a n t s in i:i r a t i o on C h l a m y d o m o n a s a n d Dunaliella. T h e c o m p o u n d s a r e g r o u p e d a c c o r d i n g to l o w e s t c o n c e n t r a t i o n w h i c h k i l l e d a l l c e l l s of the t e s t p o p u l a t i o n . C o m p o u n d s m a r k e d x) a r e o n t h e W a r r e n S p r i n g L a b o r a t o r y list of chemi-
O~
3.
~!
>
o
Table
o
No. 3
253
5 ml oil,
the f i v e - f o l d
being
to the p r o c e d u r e
due
producer.
The results
compounds
we have only
below which
more
comparison with tions e m p l o y e d
increased fold
in d i s p e r s a n t
of a p p l i c a t i o n
are g i v e n
e x a c t results
their about
toxicity. 200-fold
effect.
are given,
those of d i s p e r s a n t s
alone
and testing
Exception
and F i n a s o l
by the
i, and for m o s t of the
concentrations,
had no acute
for e x t r a c t i o n
concentration
recommended
in T a b l e
registered
the c o m p o u n d s
the d i s p e r s a n t s
not change
increase
1000 or 1250 ppm, For
the rest of
and they
that under
the condi-
the p r e s e n c e
are F i n a s o l which
show upon
of oil did
OSR-2 w h i c h
decreased
about
35-
in toxicity. The most
British
recent method
a i:i ratio. series
Our final
test was
of such m i x t u r e s
test was
well
as w i t h Dunaliella.
of all cells 1000-10 tested
000 p p m and over
in this way.
100 ppm,
trations
above
one range more cating domonas
namely
i0 000 ppm.
that D u n a l i e l l a with respect
With
twenty-two
is s o m e w h a t
killed
and only
Of the r e m a i n i n g
more
when
all cells
1 at c o n c e n -
9 compounds
sensitive
ppm,
6 did so
7 were
than for C h l a m y d o m o n a s
effects
death
of the
extents,
whereas
as
in
100-1000
to equal
000 range,
to n e g a t i v e
culture
ranges g i v i n g
i00 ppm,
p p m range,
for D u n a l i e l l a
dilution
are p r e s e n t e d
of the c o m p o u n d s
3 in the I000-i0
toxic
which
affected
in the 100-1000
by in
oil and d i s p e r s a n t s .
in s y n c h r o n o u s
under
10 000 ppm.
Eighteen
is s p e c i f i e d
performed with
four c o n c e n t r a t i o n
b o t h algae were
at c o n c e n t r a t i o n s below
crude
The results,
under
of the culture,
compounds
grouped
therefore
done w i t h C h l a m y d o m o n a s
3, are g r o u p e d
which
of oil and d i s p e r s a n t s
of E k o f i s k
This
Table
of t e s t i n g
a u t h o r i t i e s 4 uses m i x t u r e s
indi-
than C h l a m y -
of the tested oil dis-
persants.
Discussion
Comparison dispersants the m a j o r i t y systems
of t o x i c i t y
with
data o b t a i n e d
the similar
of the c o m p o u n d s
are by and
large m o r e
data
w i t h our a l g a e and 1 shrimps shows that
for b r o w n
w h i c h have b e e n toxic
towards
tested with both
algae
than
towards
the animals. The p l a t e
test has
its m e r i t s
as a s c r e e n i n g
test,
its m a i n
254
No. 3
advantages
being
to p e r f o r m
so that h i g h l y
the c h e a p
that no e q u i p m e n t
is n e e d e d
Its r e p r o d u c i b i l i t y precision with
those
trend
wards
table
w i t h oil
the f r e s h w a t e r
according
to the
spondance
between indicates
structures
cells
points
the p l a s m a
aware
difficulties
screening
tests
concentration
The toxicity without
are
which
between
that
corre-
compounds
act on g e n e r a l
The s h r i n k i n g
site of action.
is a long w a y
from l a b o r a t o r y
spill
site.
tests
over
cleaning
value
at sea,
give
to-day. a ranking
chemicals.
between
toxicity
the ranking
the least h a r m f u l
a few
at each c o n c e n -
are not p o s s i b l e
and the effects
the
with performing
can at least
spill
However,
of s u b s t a n c e s
of the t r a n s f e r
in c h o o s i n g
of the a f f e c t e d
as the
knowledge
user
to-
Dunaliella,
response
in the l a b o r a t o r y a potential
Our c l a s s i f i -
to toxic
respect
are c o n n e c t e d
oil
test.
The close
investigations
potential
well
with
a small n u m b e r
such
tube
of d i s p e r s a n t s
and say w i t h two p a r a l l e l S
so g r e a t
laboratory
the
is to test
and the m a r i n a
of a p o t e n t i a l
even w i t h
steps,
laborious, chemicals
ranking
membrane
that there
to e c o s y s t e m s
of the results.
of testing.
or processes.
practical
tration,
organisms
that the tested
towards
We are well conditions
a group
alga C h l a m y d o m o n a s
these
strongly
but m o r e
and
it c o m p a r e s
in a one to one ratio 4.
gives
it is simple
into a c c o u n t
with
oil c l e a n i n g
latest p r i n c i p l e
cellular
Taking
obtained
accurate,
in t e s t i n g
therefore
that
is unnecessary,
for the r e g i s t r a t i o n
the r e s u l t s
from the more
t h e m in m i x t u r e cation
needed,
labour
is satisfactory.
of the test
The next
equipment skilled
of
Even found
can a s s i s t
compound.
Aknowledgments
We wish
to thank The N o r w e g i a n
and the H u m a n i t i e s Council to M a r t a
and The N o r w e g i a n
for f i n a n c i a l Nesvik
cal a s s i s t a n c e
Research
support
and M a r i a n n e
Fisheries
of this work. Str#mme
and J o r u n n A k e r v o l l
Council
Research
We are also
for their
for typing
for Science
skilled
indepted
techni-
the m a n u s c r i p t .
so. 3
255
References i.
Jeffery,
P.G. and Nichols,
J.A. 1974:
(OP), Warrens Spring Laboratory, 2.
Heldal, M, Norland,
Report No LR 193
Stevenage,
Herts, England.
S., Lien, T. and Knutsen, G. 1978:
Chemosphere 3.
Rasmussen,
P. 1976:
Organiska MiljWgifter i Vatten.
Nordic Symposium on Water Research. NORDFORSK, 4.
Wilson,
Milj~v~rdssekretariatet,
K.W. 1976:
Agriculture,
Helsinki.
Personal communication.
Ministry of
Fisheries and Food, Fisheries Laboratory,
Burnham-on-Crouch,
Essex,
England.
Twelfth
p. 553.
Pergamon Press.
Printed in Great Britain.
ACUTE T O X I C I T Y OF S E V E R A L OIL D I S P E R S A N T S TOWARDS THE GREEN ALGAE C H L A M Y D O M O N A S AND D U N A L I E L L A
Mikal Heldala{
Svein Norlanda!
T o r l e i v Lien a)
and Gjert Knutsenb! a) I n s t i t u t e of G e n e r a l M i c r o b i o l o g y .
b) Botani-
cal Laboratory. U n i v e r s i t y of Bergen,
All~gt.
70,
5014 N Bergen,
Norway. (Received in The Netherlands 1 March 1978; received in UK for ~51ication 13 March 1978) Introduction
W i t h the increased oil d r i l l i n g a c t i v i t i e s
in the N o r t h Sea
and m o s t p r o b a b l y also further north in N o r w e g i a n waters,
the
p o s s i b l e needs for c h e m i c a l oil spill c l e a n i n g increase.
For
r e a l i s t i c c o n s e q u e n c e a n a l y s i s of the a p p l i c a t i o n of such chemicals,
t o x i c i t y data p e r t i n e n t to the actual c h e m i c a l s must be
available.
M u c h i n f o r m a t i o n has b e e n g a t h e r e d about the toxicity
of oil d i s p e r s a n t s
towards animals,
and as an example we shall
m e n t i o n that a series of such c o m p o u n d s has b e e n a p p r o v e d
for use
at open sea by B r i t i s h a u t h o r i t i e s after testing for acute toxicity w i t h b r o w n shrimp~
U n f o r t u n a t e l y no similar data on effects
on p h y t o p l a n c t o n has b e e n a v a i l a b l e , a n d
c o n s i d e r i n g their key
role as p r i m a r y p r o d u c e r s such lack of t o x i c i t y data makes consequence a n a l y s e s of c h e m i c a l c l e a n up o p e r a t i o n s s e v e r e l y incomplete. We have t h e r e f o r e tested several d i s p e r s a n t s w i t h the unic e l l u l a r green algae C h l a m y d o m o n a s r e i n h a r d t i and D u n a l i e l l a marina.
Methods
Chlamydomonas reinhardti
(Cambridge C u l t u r e C o l l e c t i o n strain
no 11/32 b) was c u l t i v a t e d and s y n c h r o n i z e d as d e s c r i b e d in the 2 p r e c e e d i n g paper. Dunaliella marina
(G~ttingen Culture Collection,
247
synonymous
P48
No. 3
with was
D, biocula~a,
Cambridge
Chlamydomonas. which
was
supplemented
electronically
testing
a plate
(details
test,
are g i v e n
exponentially
using
for cell
Sweden).
the
transferred last well
charged. containing contained
1/3%
a control The p l a t e s
lids and
illuminated
After
48 h toxic
which
gave
sible. dead.
as w e l l s
Occasionally
Usually tures,
found b e t w e e n In the tube
w i t h NaCI, mits were
parallel
test w i t h
asynchronous estimated
to that w i t h
row,
to
suspension
Each plate of test
sub-
plastic
light at 2 k lux.
at higher
appeared
intermediate
completely
green
concen-
and almost
degrees
"all dead
also
the same dark
cells
discrepancies
50 ~i
At d i l u t i o n s
had
whereas
intermediate
invi-
to be
shades
of effect.
bleached cells",
microcul-
can e a s i l y
than one d i l u t i o n
step
series. Dunaliella
cultures
were
differently.
Chlamydomonas.
subfirstly
transfer
transparent
was b l e a c h e d
dessignated
Flow
from it and dis-
visible.
the a f f e c t e d
larger
was
mixing
instead
their
one or two w e l l s w i t h
and s e l d o m
of test
g r e e n algal
of w e l l s
giving
plates,
After
fluorescent
clearly
of the wells
in the f o l l o w i n g
be d e t e c t e d
thorough
removed
with
by Rasmus-
of a series
to each well.
of the control
dilution
of tests,
of the type used
dilutions
and so on.
the c o n t e n t s
representing
the h i g h e s t
plates
growth medium
covered
were
2.
50 ~i of test s u b s t a n c e
After
added
the m i c r o s c o p e
could be found,
were
effects
the c o n t e n t s Under
and then
from above with
no e f f e c t
appearance trations
were
no.
Chlamydomonas
Titertek/Linbro
50 ~i were
row with
stance.
types
like one d e v e l o p e d
150 ~i of a s l i g h t l y
NaHCO 3 were
done
p a p e r 2) and a tube test w i t h
of double
of the series.
and mixing,
three
titration
to the next well
Finally
were
in r e f e r e n c e
synchronous
To each well
50 ~i of g r o w t h medium,
for
medium
cultures.
(e.g.
Series
as follows:
to the first well were
micro
and c u l t u r i n g
given
with
test u s i n g
is e s s e n t i a l l y
flat b o t t o m e d
stance was made
performed
Dunaliella
test
typing
Laboratories,
added
was
as used
2,5%.
distributions
in the p r e c e e d i n g
grown
The p l a t e 3
to give
to the m e t h o d s
a tube
strain LB 19/4)
the C h l a m y d o m o n a s
and cell v o l u m e
according
Toxicity namely
w i t h NaCI
Collection
type of a p p a r a t u s
As m e d i u m was used
Cell c o u n t i n g
sen
Culture
g r o w n at 27 ° and in the same
Since
the m e d i u m was used,
Otherwise
and
supplemented
the t o x i c i t y
the test was
Dunaliella
grows
li-
analogous.
appreciably
No. 3
249
Table
1.
sants
alone
Results
(Experimental
Dispersant
Finasol
W
from
and water details
plate
test
extracts are
type
given
with
of
Chlamydomonas
mixtures
in
the
Dispersant
of
oil
and
and
disper-
dispersant.
text).
alone
Water extracts of mixtures of oil and dispersant
ii0
350
120
500
55
125
"
K
"
CC
"
OSR-2
150.000
800
"
OSR-5
195
175
(Norske
Fina
A/S)
"
OSR-7
230
250
iCorexit
7664
83.000
> 1000
"
8666
50.000
> 1000
"
9600
138.000
> 1000
"
9527
195
180
100.000
> 1000
i00.000
> i000
50.000
> i000
38.000
> 1000
BP
1100 "
X
"
WD
Shell
Dispersant
"
Oil
Dasic
Slickgone
Gamlen
LT
(nr.
Chlorothene Cold
Cleaner
Norclean Regal
A
C
X-12 Emulsol Servo
LT
Herder
CD
1000
Pero-Kleen
> 1000
LT2
100.000
> i000
154)
63.000
> 1250
7.500
> 1000
430
590
60
70
i00.000
> 1000
170
> 1000
> 250.000
> 1250
> 250.000
> 1250
> 250.000
> 1250
> 250.000
> 1250
Synperonic
26.000
> 1250
Sabreslick
> 250.000
635
BMD
(SM53)
868
360
250
No. 3
slower
than C h l a m y d o m o n a s
obtaining
significant
The t o x i c i t y wing
a 24 h testing
p e r i o d was n e c e s s a r y
for
results.
limits
were
estimated
according
to the follo-
espression:
Toxicity
effect
Bt - Btox
= I-
t
Bt B t is the b i o m a s s
of the control
and Bto x t of the
both at the end of the experiment. into a c c o u n t periment, degree
the g r o w t h
and h e n c e
the t o x i c i t y
of the c o n t r o l
the test period. number
of the culture
of u n d e r e s t i m a t i o n
biomass
culture
test culture,
does
not take
from the start of the ex-
in the p r e s e n t
increased
was m e a s u r e d
average
formula
is u n d e r e s t i m a t e d .
is small
Biomass
and w e i g h t e d
This
about
However,
case
25-fold
as the p r o d u c t
the
since
the
during of cell
cell volume.
Results
Our
investigation
concentration-series
of oil and d i s p e r s a n t s
i.
Dispersants
method of
developed
alone.
and
Table
i.
great
range
experiments
from
tested with
the s y n c h r o n o u s
LC 50 values,
as well
These values
from a p a r a l l e l
plate
The most
99.5%
The a v e r a g e
toxic
test.
limit varies
system
higher
over
a
250 000 ppm
were
further
to e s t a b l i s h
giving
2 together of LC v a l u e s
using
synchronous
toxicity
in
99.5%
with
dead
results
extended
from
to 700 p p m for Cold Cleaner.
of the two methods, in the
than
compounds
in Table
The range
results
are listed
CC to more
Chlamydomonas
are g i v e n
plate
d e a d cells
test gave
tested by the plate
as those c o n c e n t r a t i o n s
1 ppm for Shell Oil H e r d e r Comparison
ving
were
for each c o m p o u n d
55 ppm for F i n a s o l
of m i x t u r e s
themselves.
It c a n be seen that the t o x i c i t y
compounds.
about
compounds
extracts
as test organism.
for several
cells.
water
such m i x t u r e s
All
with Chlamydomonas
3-5 p a r a l l e l
in such a w a y that we tested
of dispersants,
for
the c o n c e n t r a t i o n s system,
6 compounds
shows and
that
lower
githe
for
3.
No. 3
251
Table
2.
Toxicity
of some oil d i s p e r s a n t s
synchronous
cultures
Synchronous
and w i t h
as e v a l u a t e d
the p l a t e
cells
Plate
with
test.
test i
Conc. giving 99,5% d e a d cells
LC 50
Lowest conc. giving "all cells
dead"
i
Shell
Oil H e r d e r
Nokomis
III
1
195-390
10
Butyl J a y s o l v e
435
85
Finasol
CC
37
60
49
Finasol
K
37
38
98
Finasol
W
12
13
98
Finasol
OSR 7
440
630
195
Finasol
OSR 5
510
900
195
Corexit
9527
575
900
350
150
350
49-93
25
28
195
700
950
195-781
Norclean
A
X-12 Cold
Cleaner
2.
Mixtures
a)
Plate
We m i x e d
test w i t h w a t e r 5 ml E k o f i s k
shaken
shaking
several
about
section.
Two p a r a l l e l
and in the cases w h e r e
during
we used
94.5 ml C h l a m y d o m o n a s funnel.
an 8 h period,
before
then tested extractions
the w a t e r
were
done
2.5 ml d i s p e r s a n t
The m i x t u r e
and from the
last
in the M e t h o d s
for each c o m p o u n d
gave d i f f e r i n g
and tests were
medium
p h a s e was collected.
as d e s c r i b e d
the two e x t r a c t s
new e x t r a c t i o n s
OSR-2,
and C h l a m y d o m o n a s .
oil with
in a 250 ml s e p a r a t o r y
16 h e l a p s e d
e x t r a c t was
Finasol
extracts
crude
times
The w a t e r
in the test,
h
of oil and d i s p e r s a n t .
and 0.5 ml d i s p e r s a n t was
h
performed.
results With
and 92.5 ml m e d i u m
plus
OSR
Finasol
Finasol
~
OSR
OSR
Finasol
~.~• ~
7
5
2 x)
Dasic
~! ul
9527 x)
Corexit
Corexit
OSR
Finasol
~
O i l s o l v e x'
x)
Slickgone
Dispersol X-12
7
5
2 x)
L T 2 x)
O S D x)
9527 x"~
OSR OSR
Finasol Finasol
o~
%
1000 xj
Synpersonic
CD
~ ml ~ o ~ ~o ~
Servo
%
ocox) U ~ Q
S a b r e s l i c k x)
L.W. x)
~.~~
Emulsol
Cleaner
(SM 53)
Jaysolve
I I 0 0 W D x)
Cold
BMD
ppm
I I 0 0 X x)
1100
Butyl
BP
BP
BP
100-1000
U . K . 1.
Pero-Kleen
the
S a m l e n x)
X-12
in
Oil Herder
A
Shell
Norclean
Finasol
III
K
W
Finasol
Nokomis
CC
< 100 p p m
approved
Finasol
cals
LT
9600
Dasic
Slickgone
7664
O i l s o l v e x)
Corexit
ppm
8666
! D i s p e r s o l x)
Shell
Corexit
Corexit
1000-10000
LT2 x)
C
Corexit
Regal
> 10000
7644
ppm
E f f e c t s of m i x t u r e s of E k o f i s k c r u d e o i l w i t h d i s p e r s a n t s in i:i r a t i o on C h l a m y d o m o n a s a n d Dunaliella. T h e c o m p o u n d s a r e g r o u p e d a c c o r d i n g to l o w e s t c o n c e n t r a t i o n w h i c h k i l l e d a l l c e l l s of the t e s t p o p u l a t i o n . C o m p o u n d s m a r k e d x) a r e o n t h e W a r r e n S p r i n g L a b o r a t o r y list of chemi-
O~
3.
~!
>
o
Table
o
No. 3
253
5 ml oil,
the f i v e - f o l d
being
to the p r o c e d u r e
due
producer.
The results
compounds
we have only
below which
more
comparison with tions e m p l o y e d
increased fold
in d i s p e r s a n t
of a p p l i c a t i o n
are g i v e n
e x a c t results
their about
toxicity. 200-fold
effect.
are given,
those of d i s p e r s a n t s
alone
and testing
Exception
and F i n a s o l
by the
i, and for m o s t of the
concentrations,
had no acute
for e x t r a c t i o n
concentration
recommended
in T a b l e
registered
the c o m p o u n d s
the d i s p e r s a n t s
not change
increase
1000 or 1250 ppm, For
the rest of
and they
that under
the condi-
the p r e s e n c e
are F i n a s o l which
show upon
of oil did
OSR-2 w h i c h
decreased
about
35-
in toxicity. The most
British
recent method
a i:i ratio. series
Our final
test was
of such m i x t u r e s
test was
well
as w i t h Dunaliella.
of all cells 1000-10 tested
000 p p m and over
in this way.
100 ppm,
trations
above
one range more cating domonas
namely
i0 000 ppm.
that D u n a l i e l l a with respect
With
twenty-two
is s o m e w h a t
killed
and only
Of the r e m a i n i n g
more
when
all cells
1 at c o n c e n -
9 compounds
sensitive
ppm,
6 did so
7 were
than for C h l a m y d o m o n a s
effects
death
of the
extents,
whereas
as
in
100-1000
to equal
000 range,
to n e g a t i v e
culture
ranges g i v i n g
i00 ppm,
p p m range,
for D u n a l i e l l a
dilution
are p r e s e n t e d
of the c o m p o u n d s
3 in the I000-i0
toxic
which
affected
in the 100-1000
by in
oil and d i s p e r s a n t s .
in s y n c h r o n o u s
under
10 000 ppm.
Eighteen
is s p e c i f i e d
performed with
four c o n c e n t r a t i o n
b o t h algae were
at c o n c e n t r a t i o n s below
crude
The results,
under
of the culture,
compounds
grouped
therefore
done w i t h C h l a m y d o m o n a s
3, are g r o u p e d
which
of oil and d i s p e r s a n t s
of E k o f i s k
This
Table
of t e s t i n g
a u t h o r i t i e s 4 uses m i x t u r e s
indi-
than C h l a m y -
of the tested oil dis-
persants.
Discussion
Comparison dispersants the m a j o r i t y systems
of t o x i c i t y
with
data o b t a i n e d
the similar
of the c o m p o u n d s
are by and
large m o r e
data
w i t h our a l g a e and 1 shrimps shows that
for b r o w n
w h i c h have b e e n toxic
towards
tested with both
algae
than
towards
the animals. The p l a t e
test has
its m e r i t s
as a s c r e e n i n g
test,
its m a i n
254
No. 3
advantages
being
to p e r f o r m
so that h i g h l y
the c h e a p
that no e q u i p m e n t
is n e e d e d
Its r e p r o d u c i b i l i t y precision with
those
trend
wards
table
w i t h oil
the f r e s h w a t e r
according
to the
spondance
between indicates
structures
cells
points
the p l a s m a
aware
difficulties
screening
tests
concentration
The toxicity without
are
which
between
that
corre-
compounds
act on g e n e r a l
The s h r i n k i n g
site of action.
is a long w a y
from l a b o r a t o r y
spill
site.
tests
over
cleaning
value
at sea,
give
to-day. a ranking
chemicals.
between
toxicity
the ranking
the least h a r m f u l
a few
at each c o n c e n -
are not p o s s i b l e
and the effects
the
with performing
can at least
spill
However,
of s u b s t a n c e s
of the t r a n s f e r
in c h o o s i n g
of the a f f e c t e d
as the
knowledge
user
to-
Dunaliella,
response
in the l a b o r a t o r y a potential
Our c l a s s i f i -
to toxic
respect
are c o n n e c t e d
oil
test.
The close
investigations
potential
well
with
a small n u m b e r
such
tube
of d i s p e r s a n t s
and say w i t h two p a r a l l e l S
so g r e a t
laboratory
the
is to test
and the m a r i n a
of a p o t e n t i a l
even w i t h
steps,
laborious, chemicals
ranking
membrane
that there
to e c o s y s t e m s
of the results.
of testing.
or processes.
practical
tration,
organisms
that the tested
towards
We are well conditions
a group
alga C h l a m y d o m o n a s
these
strongly
but m o r e
and
it c o m p a r e s
in a one to one ratio 4.
gives
it is simple
into a c c o u n t
with
oil c l e a n i n g
latest p r i n c i p l e
cellular
Taking
obtained
accurate,
in t e s t i n g
therefore
that
is unnecessary,
for the r e g i s t r a t i o n
the r e s u l t s
from the more
t h e m in m i x t u r e cation
needed,
labour
is satisfactory.
of the test
The next
equipment skilled
of
Even found
can a s s i s t
compound.
Aknowledgments
We wish
to thank The N o r w e g i a n
and the H u m a n i t i e s Council to M a r t a
and The N o r w e g i a n
for f i n a n c i a l Nesvik
cal a s s i s t a n c e
Research
support
and M a r i a n n e
Fisheries
of this work. Str#mme
and J o r u n n A k e r v o l l
Council
Research
We are also
for their
for typing
for Science
skilled
indepted
techni-
the m a n u s c r i p t .
so. 3
255
References i.
Jeffery,
P.G. and Nichols,
J.A. 1974:
(OP), Warrens Spring Laboratory, 2.
Heldal, M, Norland,
Report No LR 193
Stevenage,
Herts, England.
S., Lien, T. and Knutsen, G. 1978:
Chemosphere 3.
Rasmussen,
P. 1976:
Organiska MiljWgifter i Vatten.
Nordic Symposium on Water Research. NORDFORSK, 4.
Wilson,
Milj~v~rdssekretariatet,
K.W. 1976:
Agriculture,
Helsinki.
Personal communication.
Ministry of
Fisheries and Food, Fisheries Laboratory,
Burnham-on-Crouch,
Essex,
England.
Twelfth
p. 553.