Impact
on
gut
microbiota
health
in
L.
vannamei
postlarvae
after
salinity
reduction
treatment
Chủ
nhật
-
21/02/2021
20:49
Addition
of
Bdellovibrio
and
like
organisms
(BALOs)
significantly
increases
PL
gut
microbiota
biodiversity,
functionality
Results
of
this
study
show
that
the
gut
microbiota
of
L.
vannamei
shrimp
postlarvae,
both
compositionally
and
functionally,
had
been
significantly
affected
by
a
water
salinity
reduction
treatment,
and
that
the
addition
of
a
euryhaline
strain
of
BALOs,
BDN-1F2,
considerably
improved
its
biodiversity
and
strengthened
its
functionalities.
Photo
by
Fernando
Huerta.
A
wide
range
of
infectious
agents
–
including
viral,
bacterial,
fungal
and
others
–
can
affect
cultured
shrimp
in
hatcheries
and
farms.
Vibrios
are
a
group
of
well-recognized
opportunistic
pathogens
that
vibriosis
in
shrimp.
A
common
practice
in
many
shrimp
hatcheries
in
China
is
to
subject
shrimp
postlarvae
4
to
5
days
old
(PL4-5)
to
a
gradual
water
salinity
reduction,
from
around
20
ppt
down
to
4
to
5
ppt
or
even
zero,
then
back
to
various
salinities
to
suit
the
needs
of
different
shrimp
farmers.
The
effect
of
this
process
has
been
demonstrated
by
researchers
that
reported
that
shrimp
postlarvae
(PLs)
subjected
to
a
gradual
salinity
reduction
resulted
in
lower
counts
of
Vibrios
in
the
PLs.
However,
these
researchers
also
mentioned
that
although
this
salinity
reduction
treatment
enabled
PLs
to
carry
fewer
Vibrios,
whether
it
produced
healthier
PLs
was
not
known.
In
recent
years,
it
has
been
reported
from
many
shrimp
growout
farms
in
China
that
PL8-10
stocked
in
ponds
frequently
experienced
symptoms
of
disease,
such
as
white
feces
and
even
mortalities
within
30
days,
some
as
early
as
8
to
10
days.
One
concern
reported
is
if
salinity
reduction
treatments
that
reduce
or
eliminate
Vibrios
in
PLs
could
be
affecting
their
gut
microbiota
and
making
the
PLs
less
adaptable
to
various
environments
and/or
more
vulnerable
to
(potential)
pathogenic
attacks.
Many
researchers
have
reported
that
a
balanced
microbial
community
structure
is
crucial
in
maintaining
health
and
preventing
diseases. Bdellovibrio and
like
organisms
(BALOs)
are
a
group
of
very
small
bacteria,
naturally
existing
in
terrestrial
and/or
aquatic
ecosystems
as
well
as
in
the
intestine
of
various
organisms
including
shrimp
and
humans.
BALOs
are
very
diverse
but
have
a
common
feature:
parasitizing
and
killing
other
bacteria.
Significant
research
work
shows
that
BALOs
can
be
used
to
control
Vibrios,
to
alter
or
restore
a
microbial
community
structure,
and
to
promote
growth
and
survival
of
cultured
organisms.
This
article
–
adapted
and
summarized
from
the original
publication (Cao
Q,
F.
Najnine,
H.
Han
,
B.
Wu
and
J.
Cai.
2020.
BALOs
Improved
Gut
Microbiota
Health
in
Postlarval
Shrimp
(Litopenaeus
vannamei)
After
Being
Subjected
to
Salinity
Reduction
Treatment.
Front.
Microbiol.)
–
evaluated
the
effect
of
BALOs
on
the
rearing
of
second-generation L.
vannamei shrimp
PLs
after
the
animals
had
been
subjected
to
a
salinity
reduction
treatment,
to
assess
if
BALOs
could
restore
PL
gut
microbiota,
and
if
salinity
reduction
treatments
have
any
impact
on
PL
gut
microbiota.
Study
setup
L.
vannamei PL7-8
(body
length:
0.7
to
0.8
cm
on
average)
were
sourced
from
a
shrimp
hatchery
in
Guangdong
Province,
China.
They
were
second-generation
PLs
and
had
been
subjected
to
salinity
reduction
treatment
before
the
salinity
was
brought
back
to
15
ppt
to
meet
our
testing
need.
These
PL7-8
were
visually
healthy
with
no
apparent
signs
of
diseases.
Nine
plastic,
aerated
tanks
with
boiled,
15
ppt
water
(to
eliminate
any
microbial
contamination)
were
used
to
randomly
stock
70
PLs
into
each
tank.
At
the
lab
(South
China
University
of
Technology,
Guangzhou,
China),
the
PLs
were
divided
into
three
treatment
groups:
CD,
SD,
and
BD
groups,
each
in
triplicate.
The
treatments
involved
the
applications
of
a
euryhaline
strain
of
BALOs,
BDN-1F2
(treatment
BD),
and Bacillus
subtilis (treatment
SD)
to
the
rearing
of
second-generation
shrimp
PLs
after
salinity
reduction
treatment
so
as
to
determine
if
they
could
impact
PL
gut
microbiota.
In
the
BD
group,
BDN-1F2
was
added
to
a
final
concentration
of
1
×
104 Plaque
Forming
Units,
PFU
per
mL
[a
Plaque
Forming
Unit,
PFU,
is
a
measure
used
in
virology
to
describe
the
number
of
virus
particles
capable
of
forming
plaques
per
unit
volume].
In
the
SD
group, Bacillus
subtilis GIM
1.136
was
added
to
a
final
concentration
of
1
×
106 Colony
Forming
Units,
CFU
per
mL
[a
Colony
Forming
Unit,
CFU,
is
used
in
microbiology
to
estimate
the
number
of
viable
bacteria
or
fungal
cells
in
a
sample].
In
the
CD
(control)
group,
nothing
was
added.
BDN-1F2
and Bacillus
subtilis GIM
1.136
were
added
to
relevant
groups
once
only
at
the
start
of
the
test.
The
test
lasted
for
7
days
and
the
experimental
PLs
were
fed
twice
a
day
with
commercial
shrimp
flakes.
No
water
was
changed
throughout
the
test
period.
Water
temperature,
dissolved
oxygen
(DO)
and
pH
were
recorded
daily.
The
number
of
dead
shrimp
was
recorded,
and
the
survival
rates
were
calculated
at
the
end
of
the
test.
For
detailed
information
on
the
experimental
design;
preparation
of
the
bacterial
strains;
enumeration
numeration
of
BALOs,
total
cultivable
bacterial
and
vibrios
counts;
high-throughput
sequencing
of
selected
genes;
and
data
analyses,
refer
to
the
original
publication.
Results
and
discussion
Throughout
the
seven-day
test
period,
water
in
the
tanks
for
all
groups
were
relatively
clear
with
a
little
feed
residue
at
the
bottom
of
the
tanks.
Water
temperature
was
maintained
at
28
degrees-C
±
0.5
degrees-C.
Dissolved
oxygen
was
maintained
at
5
±
0.6
ppm
and
pH
was
in
the
range
of
7.5
to
7.9
in
all
groups.
The
number
of
dead
shrimp
on
average
was
10
±
2.83,
11
±
2.16,
and
6
±
1.41
in
the
SD,
CD
and
BD
groups,
respectively,
corresponding
to
survival
rates
of
83.3
percent
±
4.7
percent,
81.7
percent
±
3.6
percent,
and
90.0
percent
±
2.4
percent,
respectively.
PLs
in
the
BD
group
had
the
highest
percentage
accumulated
weight
gain
(5.51
percent
±
0.34
percent)
in
all
three
groups.
The
highest
survival
rate
and
percentage
accumulated
weight
gain
indicate
that
PLs
in
the
BD
group
grew
best
of
all
three
groups.
Results
show
that
PL
gut
microbiota,
both
compositionally
and
functionally,
had
been
significantly
affected
after
the
salinity
reduction
treatment,
with
the
generally
recognized
as
opportunistic
pathogens Gammaproteobacteria being
the
only
dominant
class
at
day
1
of
the
test,
with
relative
abundances
of
99.43,
85.61
and
83.28
percent
in
the
BD,
SD
and
CD
groups,
respectively.
At
day
7, Gammaproteobacteria was
still
the
only
dominant
class
in
the
SD
and
CD
groups
with
relative
abundance
of
99.77
and
99.87
percent
correspondingly,
whereas
in
the
BD
group,
its
value
dropped
to
8.44
percent.
Regarding
biodiversity,
the
Shannon
Diversity
Index
[a
measure
of
the
species
biodiversity
in
an
ecological
community],
over
the
seven-day
test
period,
while
the
SD
group
was
unchanged
(0.98
to
0.93),
the
CD
group
decreased
to
0.94
from
2.94,
and
the
BD
group
was
raised
to
7.14
from
0.93.
Our
results
show
that
the
current
salinity
reduction
practice
used
in
China
does
not
kill
all
Vibrios
outright
in
some
PLs
and
could
be
improved.
Evaluating
the
data
and
considering
that
salinity
as
well
as
growth
stages
can
significantly
impact
microbiota
compositions,
we
feel
it
is
reasonable
to
suggest
that,
for
a
healthy
and
robust
gut
microbiota
of L.
vannamei at
the
early
postlarval
stage
(PL7–15)
a
Shannon
Index
of
2.0
or
above
should
be
expected;
below
this
value,
PL
microbiota
may
not
be
in
a
healthy
state.
This
is
supported
by
the
better
percentage
of
accumulated
weight
gain
and
higher
survival
rate
in
the
BD
group
as
compared
to
the
SD
and
CD
groups
in
our
study.
Our
data
clearly
showed
that
addition
of
BDN-1F2
to
the
water
in
the
experimental
tanks
at
the
start
had
a
major
positive
impact
on
PL
gut
microbiota,
both
compositionally
and
functionally,
significantly
enhancing
their
biodiversities
and
strengthening
their
functionalities.
Regarding
health
management
and
disease
outbreaks,
the
traditional
strategy
of
focusing
on
a
specific
pathogen
seems
not
quite
adequate
and
may
be
outdated
from
an
ecological
management
perspective.
As
other
researchers
have
suggested,
the
strategy
should
be
to
manage
the
entire
community
rather
than
just
aiming
at
Vibrios.
Others
have
proposed
a
holistic
approach,
and
De
Schryver
and
Vadstein
(doi:
10.1038/ismej.2014.84)
also
hypothesized
that
“manipulation
of
the
biodiversity
of
the
gut
microbiota
can
increase
the
host’s
resistance
against
pathogenic
invasion
and
infection.”
Based
on
our
study
results,
we
believe
that
BALOs
are
a
group
of
appropriate
organisms
to
be
considered
for
this
approach.
Perspectives
Results
of
our
study
show
that
the
gut
microbiota
of L.
vannamei shrimp
PLs,
both
compositionally
and
functionally,
had
been
significantly
affected
after
being
subjected
to
a
water
salinity
reduction
treatment.
Addition
of
a
euryhaline
strain
of
BALOs,
BDN-1F2,
hugely
improved
its
biodiversity
and
strengthened
its
functionalities.
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