Page 128 - 79_04
P. 128
Microalgae:
the
first
nuclear
engineers?
7.
ACKNOWLEDGEMENTS
Many
people
helped
us
with
enthusiasm
and
effectiveness.
We
highlight
the
contributions
of
the
nuclear
engineers
D.
Beaz
and
J.
L.
Valle
(Westinghouse)
and
the
scientists
PhDs
M.
Igual,
A.
García
Sanchez,
E.
Huertas
and
A.
Delgado
(CSIC).
We
especially
appreciate
thecontribution
of
CIEMAT.
To
Lara
de
Miguel
for
her
excellent
technical
support
and
Pedro
Caravantes
for
his
sampling
help.
Supported
by
the
spanish
Secretaría
de
Estado
de
Investigación,
Desarrollo
e
Innovación
grant
CTM
2012--34757
and
Biotechnological
Environmental
Solutions
(BES).
Special
thanks
are
given
to
Prof.
M.
T.
Miras--Portugal.
Part
of
this
work
is
reflected
in
the
Patent
P201201203.
The
microalgae
strain
is
deposited
in
the
Deposit
of
Microorganisms
for
the
Purposes
of
Patent
Procedures
no.
BEAD04--12.
8.
REFERENCES
1. Cowan,
G.
A.
Natural
Fission
Reactor.
Scientific
American
235,
36–47
(1976).
2. Meshik,
A.
P.
The
Workings
of
an
Ancient
Nuclear
Reactor.
Scientific
American.
In
press
(2005).
3. Kuroda,
P.
K.
On
the
Nuclear
Physical
Stability
of
the
Uranium
Minerals.
Journal
of
Chemical
Physics
25
(4),
781–782;
1295–1296
(1956).
4. Gauthier--Lafaye,
F.;
Holliger,
P.;
Blanc,
P.L.
Natural
fission
reactors
in
the
Franceville
Basin,
Gabon:
a
review
of
the
conditions
and
results
of
a
"critical
event"
in
a
geologic
system.
Geochimica
et
Cosmochimica
Acta
60
(25),
4831–4852
(1996).
5. Meshik,
A.
P.;
Hohenberg,
C.
M.;
Pravdivtseva,
O.V.
Record
of
Cycling
Operation
of
the
Natural
Nuclear
Reactor
in
the
Oklo/Okelobondo
Area
in
Gabon.
Physical
Review
Letters
93
(18),
182302
(2004).
6. Lovelock,
J.:
The
ages
of
gaia:
A
biography
of
our
living
planet;
W.W.
Norton;
New
York;
1998,
116--117.
7. Markich,
S.J.
Uranium
speciation
and
bioavailability
in
aquatic
systems:
an
overview.
Sci.
World
J.
2,
707–729
(2002).
8. Arribas,
A.
Sobre
el
origen
de
las
mineralizaciones
españolas
de
uranio
en
rocas
meta--
sedimentarias.
Bol.
Geol.
Min.
48,
705--711
(1987).
9. Costas,
E.;
Flores--Moya,
A.;
Perdigones,
N.;
Maneiro,
E.;
Blanco,
J.L.;
García,
M.E.;
López--
Rodas,
V.
How
eukaryotic
algae
can
adapt
to
the
Spain’s
Rio
Tinto:
A
neo--Darwinian
proposal
for
rapid
adaptation
to
an
extremely
hostile
ecosystem.
New
Phytol.
175,
334--
339
(2007).
10. Costas,
E.;
Flores--Moya,
A.;
López--Rodas,
V.
Rapid
adaptation
of
algae
to
extreme
environments
(geothermal
waters)
by
single
mutation
allows
“Noah’s
Arks”
for
photosynthesizers
during
the
Neoproterozoic
“Snowball
Earth”?.
New
Phytol.
189,
922--
932
(2008).
11. Seckbach,
J.;
Oren,
A.
Oxygenic
photosynthetic
microorganisms
in
extreme
environments;
In:
Seckbach
J.
(ed.);
Algae
and
Cyanobacteria
in
Extreme
Environments;
Springer;
Dordrecht;
2007,
4--25.
12. Desssouki,
Tarik
C.E.;
Hudson,
Jeff
J.;
Neal,
Brian
R.;
Bogard,
Matthew
J.
The
effects
of
phosphorus
additions
on
the
sedimentation
of
contaminants
in
a
uranium
mine
pit--lake.
Water
Research
39,
3055--3061(2005).
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