Turkish Journal of Fisheries and Aquatic Sciences,
Journal Year:
2024,
Volume and Issue:
24(5)
Published: Jan. 26, 2024
As
the
global
demand
for
aquaculture
products
continues
to
rise,
sustainable
and
efficient
feed
sources
are
crucial
industry's
growth.
Insects
have
emerged
as
a
promising
alternative
due
their
high
nutritional
content,
low
environmental
impact,
potential
alleviate
overreliance
on
conventional
ingredients.
This
abstract
delves
into
role
of
insects
in
aquaculture,
elucidating
benefits
challenges.
offer
rich
source
fats,
minerals,
proteins,
vitamins
that
meet
dietary
requirements
various
aquatic
species.
Their
rapid
growth
rates
ability
thrive
organic
waste
contribute
eco-friendly
nature,
reducing
burden
associated
with
aqua-feed
production.
Notably,
can
be
reared
substrates,
minimizing
competition
arable
land
demands
wild
fish
hoards
utilized
fishmeal
construction.
However,
integrating
presents
certain
hurdles.
Standardized
production
methods,
quality
control,
regulatory
frameworks
need
established
ensure
consistent
safe
insect-derived
feed.
Additionally,
understanding
impacts
insect-based
diets
health,
growth,
product
is
vital.
It
conclusion
hold
immense
addressing
while
challenges
through
collaborative
researcher
research,
sector.
Aquaculture and Fisheries,
Journal Year:
2021,
Volume and Issue:
7(2), P. 166 - 178
Published: Nov. 9, 2021
Fish
culture
plays
an
important
role
in
supplying
high-quality
proteins
and
omega-3
(n-3)
long-chain
polyunsaturated
fatty
acids.
Aquaculture
has
been
the
fastest
growing
sector
agriculture.
Fishmeal
is
component
of
commercial
fish
feeds,
but
ensuring
a
sustainable
supply
fishmeal
question.
A
good
source
aquafeeds
insects.
For
past
20
years,
investigations
have
carried
out
on
insect
meals
as
alternative
sources
for
fishmeal.
Thus
far,
results
replacing
feeding
aquaculture
species
promising.
However,
some
challenging
issues
including
costs
scaling
up
production
remains.
In
this
review,
we
aim
to
summarize
status
applying
eight
formulated
aquafeeds.
We
also
discussed
feeds
with
listed
future
research
directions
make
green,
profitable
(GPS)
aquaculture.
It
certain
that
near
future,
large-scale
farming
processing
produce
ingredient
will
positive
impact
sustainability
profitability
Entomological Research,
Journal Year:
2022,
Volume and Issue:
52(4), P. 161 - 177
Published: April 1, 2022
Abstract
An
overview
is
given
on
recent
developments
in
insects
as
food
and
by
reviewing
the
literature
which
has
appeared
during
last
few
years
edible
insects.
outlook
to
future
provided.
About
a
decade
ago,
attention
shifted
from
harvesting
tropics
farming
all
over
world
for
feed
applications.
Most
production
targeted
towards
pet
food,
but
it
will
turn
aquafeed
next
two
decades.
More
than
80%
of
publications
dealing
with
five
years.
Crickets
mealworms
are
used
human
while
black
soldier
fly
main
species
animal
feed.
The
criteria
choose
insect
automation,
cheap
substrates,
disease
avoidance,
market
potential.
Genetics
increasingly
explored
improve
production.
environmental
impact
producing
compares
well
other
alternative
proteins,
particular
their
capacity
degrade
organic
waste
streams.
Edible
not
only
good
source
nutrients
also
seem
provide
health
benefits
humans
animals,
plants
(left
substrate).
challenge
convincing
Western
consumers
reviewed
whether
sustainability
an
issue.
Processing
techniques
being
developed.
sector
developing
fast
thanks
conducive
legislative
framework.
It
progress
further,
provided
that
industry,
academia,
governmental
organizations,
public
society
closely
cooperate.
Reviews in Aquaculture,
Journal Year:
2022,
Volume and Issue:
15(3), P. 1115 - 1141
Published: Nov. 23, 2022
Abstract
The
aims
of
this
review
are
to
describe
the
role
‘blue‐food
production’
(animals,
plants
and
algae
harvested
from
freshwater
marine
environments)
within
a
circular
bioeconomy,
discuss
how
such
framework
can
help
sustainability
resilience
aquaculture
summarise
key
examples
novel
nutrient
sources
that
emerging
in
field
fed‐aquaculture
species.
Aquaculture
now
provides
>50%
global
seafood
supply,
share
is
expected
increase
at
least
60%
next
decade.
an
important
tool
for
reducing
resource
consumption
protein
production
increasing
climate
change
other
disruptions
(i.e.
pandemics,
geo‐political
instability).
Importantly,
blue
foods
also
provide
essential
nutrition
growing
human
population.
Blue
helping
goal
‘zero
hunger’
(United
Nation's
Sustainable
Development
Goal
2)
while
dependency
on
finite
natural
resources
but
further
refinement
new
solutions
needed
make
industry
more
‘circular’
sustainable,
particularly
with
respect
sourcing
raw
materials
aquafeeds.
This
describes
feed
available
or
may
be
created
bioeconomy
framework,
their
ultimately,
these
contribute
de‐risking
establishing
resilient
chain.
Reviews in Aquaculture,
Journal Year:
2022,
Volume and Issue:
15(1), P. 62 - 88
Published: June 5, 2022
Abstract
In
the
aquaculture
feed
industry,
fishmeal
is
widely
used
as
a
source
of
animal
protein
due
to
its
high
palatability,
excellent
amino
acid
profile
and
increased
digestibility.
However,
incorporation
in
diets
increases
costs
production
declining
wild
fish
stocks
hence
an
urgent
need
search
for
sustainable
cheaper
alternative
sources.
The
use
fermented
plant
proteins
substitutes
has
recently
gained
attention
their
improved
nutritional
quality,
easy
availability
low
costs.
Therefore,
systematic
review
meta‐analysis
were
conducted
quantify
effects
on
growth
performance,
utilisation,
survival,
antioxidant,
metabolic
digestive
enzyme
activity
several
species.
Results
indicated
that
replacement
with
enhanced
antioxidant
activities
species
regardless
experimental
duration
protein.
Likewise,
(i.e.,
Alanine
aminotransferase
Aspartate
aminotransferase)
was
reduced
dietary
treatment
groups
relative
control
groups.
To
elucidate
influence
moderators
observed
effect
sizes,
mixed‐effects
model
results
substitution
levels
influenced
sizes
both
activity.
No
significant
differences
noted
survival
between
among
all
carnivorous
marine
exhibited
lower
values
specific
rate
efficiency
ratio
compared
diets.
freshwater
poor
FCR
Overall,
safe
viable
solution
production.
Reviews in Fisheries Science & Aquaculture,
Journal Year:
2024,
Volume and Issue:
32(3), P. 396 - 434
Published: Feb. 29, 2024
A
variety
of
new
feed
ingredients
are
emerging
in
the
aquaculture
sector.
While
technology
readiness
these
options
varies
across
and
within
ingredient
classes,
it
remains
important
to
consider
them
terms
overall
spectrum.
In
this
review,
use
marine,
grain,
terrestrial
animal
by-product
a
range
novel
(e.g.,
bacterial
yeast)
resources
being
considered
as
potential
protein
feedstuffs
for
aquafeeds
is
explored.
comparing
nutritional
attributes
each
an
assessment
framework
applied
based
on
understanding
critical
knowledge
required
be
able
accommodate
any
formulation
process.
To
further
examine
different
classes
Strength-Weakness-Opportunity-and-Threats
(SWOT)
analysis
applied,
enable
some
consideration
what
future
may
exist
spectrum
risks
opportunities
they
bring.
It
noted
that
all
have
strengths
weaknesses,
there
no
such
thing
perfect
ingredient.
By
better
appreciating
positives
negatives
ingredient,
becomes
possible
increase
adaptability
responding
various
their
feeds.
Reviews in Aquaculture,
Journal Year:
2021,
Volume and Issue:
14(1), P. 237 - 251
Published: July 13, 2021
Abstract
We
retrieved
data
from
various
studies
to
investigate
the
consequences
of
insect
meal
production
and
meal‐based
diets
with
respect
their
environmental
impact,
including
global
warming
potential,
energy
use,
land
water
acidification,
eutrophication
as
well
economic
fish‐in
fish‐out
ratio
solid
waste
output
production.
Analysis
indicated
that
meals’
exerted
positive
effects
on
use
but
was
associated
greater
a
larger
carbon
footprint
compared
conventional
protein
sources.
Substitution
silkworm
(
Bombyx
mori
)
meals
for
fishmeal
in
aquatic
animal
significantly
reduced
phosphorus
insect‐free
diets.
In
contrast,
inclusion
black
soldier
fly
Hermetia
illucens
),
housefly
Musca
domestica
mealworm
Tenebrio
molitor
grasshopper
Zonocerus
variegatus
has
led,
comparison
diet,
nitrogen
waste.
Reducing
proportion
and,
lesser
extent
fish
oil,
by
diet
formulations
reduces
fish‐out,
indicating
less
marine
forage
required
per
unit
yield.
The
simulated
showed
benefit
insect‐containing
aquafeeds
meal‐free
feeds,
especially
species
M
.
T
all,
this
study
suggested
trade‐off
using
an
aquafeed
ingredient
regarding
consequence.
Since
excellent
potential
supply
coming
years,
improvement
systems
nutritional
composition
will
be
essential
make
sustainable
ingredient.
Journal of Insects as Food and Feed,
Journal Year:
2021,
Volume and Issue:
7(5), P. 743 - 759
Published: June 16, 2021
A
major
challenge
for
development
of
sustainable
aquafeeds
is
its
dependence
on
fish
meal
and
oil.
Similarly,
it
unwanted
to
include
more
plant
ingredients
which
adds
pressure
resources
like
arable
land,
freshwater
fertilisers.
New
that
do
not
require
these
but
rather
refine
valorise
organic
side
streams,
insects,
are
being
developed.
Increasing
evidence
indicates
using
insect
in
a
alternative
considerable
progress
has
been
made
this
topic
the
past
years.
The
aim
chapter
present
comprehensive
systematic
analysis
data
available
impact
insects
aquafeeds.
Systematic
search,
collection
selection
relevant
literature
from
databases
such
as
Web
Science
NCBI
was
performed.
search
enabled
91
scientific
papers
peer-reviewed
journals,
comprising
dataset
415
experimental
diets,
including
35
different
aquatic
species
14
be
included
meta-analysis,
covering
what
we
consider
close
complete
representation
credible
publications
topic.
Information
species,
dietary
composition
(amino
acids,
fatty
proximate
composition)
performance
outputs
(growth
indicators
nutrient
digestibility)
were
construction
dataset.
Regression
models
principal
component
analyses
performed
meta-data.
results
meta-analysis
revealed
great
degree
variation
maximum
threshold
inclusion
(from
4
37%)
based
subgroups
trophic
level
used,
statistical
method
output
parameter.
Overall,
25-30%
uncompromised
suggested.
Reduction
protein
digestibility,
imbalanced
amino
acid
profile
increasing
levels
saturated
identified
factors
limiting
higher
Reviews in Aquaculture,
Journal Year:
2022,
Volume and Issue:
14(3), P. 1637 - 1655
Published: Feb. 18, 2022
Abstract
The
present
work
employed
a
systematic
review
and
meta‐analysis
to
quantify
the
overall
effects
of
various
types
insect
meal
on
special
growth
rate
(SGR),
feed
conversion
ratio
(FCR)
protein
efficiency
(PER)
aquatic
animals.
A
total
107
studies
published
from
1990
2021,
targeting
23
freshwater
17
marine
fish
species,
employing
species
as
replacement
for
fishmeal,
was
compiled.
Overall,
significantly
higher
Hedges’
g
value
SGR
lower
FCR
found
in
animals
fed
dietary
larval
defatted
mealworm
Tenebrio
molitor
pupal
full‐fat
silkworm
Bombyx
mori
compared
with
fishmeal
diet.
majority
meals
had
negative
linear
correlation
performance,
except
fly
Chrysomya
megacephala
,
which
positive
relationship,
prepupal
black
soldier
Hermetia
illucens
quadratic
relationship.
Some
meals,
including
G
.
bimaculatus
adult
grasshoppers
Oxya
fuscovittata
Zonocerus
variegatus
Cirina
butyrospermi
supported
adequate
at
plausible
inclusion
levels.
At
low
2.2%,
insect‐derived
chitin
performance
improved
utilization
species.
In
quest
minimize
aquafeeds,
holds
enormous
potential
but
is
not
sole
option;
rather,
integrating
novel/conventional
materials
more
strategic.
study
lays
groundwork
further
multidisciplinary
considerations
effective
use
an
alternative
aquafeed
goal
long‐term
sustainability.
Reviews in Aquaculture,
Journal Year:
2022,
Volume and Issue:
15(3), P. 965 - 975
Published: Nov. 29, 2022
Abstract
Feeding
cost
is
among
the
main
drivers
in
price
competitiveness
of
intensively‐fed‐aquaculture
(IFA)
products.
As
soaring
energy
prices
increase
costs
technologies
used
to
digestibility
plant
protein
feeds,
there
an
urgent
call
for
comprehensive
knowledge
on
mass
use
insects
as
fish
feed.
This
review
identifies
key
aspects
insect
incorporation
into
established
IFA
practices
and
puts
them
a
commercial
context.
Larvae
Black
soldier
fly
(BSFL)
identified
most
versatile
terms
(a)
variety
biowaste
usable
its
rearing,
(b)
automatization
scaling
up,
(c)
nutritional
value
(d)
circular
environmental
aspects.
Furthermore,
modifications
diets
can
levels
valuable
compounds
such
omega‐3
fatty
acids
fish.
Other
ants
or
mealworms
have
potential
meet
requirements
various
species.
While
today
production
BSFL
(mostly
around
3.5
€
kg
−1
)
are
mostly
determined
by
labour
costs,
it
predicted
that
intensified
industrialization
rearing
could
reduce
below
2
.
In
addition,
multiple
positive
economic
impacts,
well
spillovers,
been
identified.
It
proposed
further
research
should
be
directed
towards
refining
valorization
byproducts
from
farming
which
dissolve
cost.
Bringing
compliance
with
principles
economy
increases
reducing
improving
public
opinion.
Aquaculture Research,
Journal Year:
2022,
Volume and Issue:
53(16), P. 5536 - 5546
Published: Aug. 14, 2022
Black
soldier
fly
(Hermetia
illucens)
larvae
meal
(BSFLM)
is
a
novel
fish
feed
ingredient
with
high
crude
protein
content
(~40%
dry
matter,
DM).
However,
BSFLM
also
contains
chitin,
which
might
impair
nutrient
digestibility.
To
investigate
the
effect
of
chitin
on
digestibility
and
chitinase
activity
in
fish,
different
contents
were
tested
as
ingredients
for
Nile
tilapia
(Oreochromis
niloticus)
rainbow
trout
(Oncorhynchus
mykiss).
was
sieved
into
three
size
fractions
obtaining
contents:
0–200
μm
(fine),
200–400
(medium),
>400
(coarse),
1.8,
2.7
15.4%
DM
basis,
respectively.
Four
isoenergetic
isonitrogenous
diets
formulated
each
species
including
an
experimental
reference
diet
replacing
25%
matrix
one
fractions.
Dietary
inclusion
coarse
fraction
resulted
significantly
lower
apparent
DM,
protein,
nitrogen-free
extract
when
compared
other
treatment
groups
both
species,
supports
hypothesis
that
act
anti-nutrient.
it
found
could
digest
but
its
decreased
higher
dietary
level.
Furthermore,
β-N-acetylglucosaminidase
(exochitinase)
increased
proximal
distal
intestine
suggesting
exochitinase
production
can
be
upregulated
depending
intake.
Overall,
results
corroborate
source
well
anti-nutrient
trout.
