Fish and Fisheries,
Год журнала:
2021,
Номер
23(3), С. 631 - 647
Опубликована: Дек. 24, 2021
Abstract
Nearly
all
organisms
rely
on
natural
fluctuations
of
light
as
cues
for
synchronizing
physiological
processes
and
behavioural
actions
associated
with
foraging,
growth,
sleep
rest,
reproduction,
migration.
Consequently,
although
artificial
lighting
sources
have
provided
a
plethora
benefits
humans,
they
can
lead
to
disruptions
wild
organisms.
With
one
quarter
the
human
population
living
within
100
km
coastlines,
there
is
great
potential
at
night
(ALAN)
influence
physiology,
behaviour
fitness
fishes.
Through
review
literature
(
n
=
584
publications
focused
effects
ALAN
individual
or
ecosystems),
we
illustrate
that
most
papers
concentrated
terrestrial
species
(59%)
compared
aquatic
(20%)
mixed
approach
(21%).
Fishes
been
underrepresented
in
comparison
many
other
taxa
such
birds,
insects
mammals,
representing
focus
less
than
8%
taxa‐specific
publications.
While
number
per
year
focusing
fishes
has
generally
increasing
since
mid‐2000s,
downturn
publication
rate
last
few
years.
To
understand
where
research
related
focused,
partitioned
studies
into
categories
found
mostly
concerned
(41.0%),
abundance
community
structure
(24.4%),
physiology
(22.8%),
while
longer‐term
(6.9%)
are
lacking.
We
synthesize
completed
outline
future
priorities
will
help
ascertain
short‐
long‐term
consequences
this
relatively
novel
stressor
fish
health
persistence.
Limnology and Oceanography Bulletin,
Год журнала:
2018,
Номер
27(3), С. 76 - 81
Опубликована: Июль 30, 2018
Abstract
Bright
night
lights
have
become
a
symbol
of
development
and
prosperity
in
the
modern
world.
But
you
ever
wondered
how
artificial
light
at
(ALAN)
may
be
affecting
living
beings
our
cities,
it
us?
As
illumination
is
transforming
nocturnal
environments
around
world,
pollution
associated
with
its
use
becoming
topic
increasing
interest
scientific
public
communities.
Light
disrupts
natural
regimes
many
regions
raising
concerns
about
ecological
health
impacts
this
novel
anthropogenic
pressure.
Most
obviously,
ALAN
can
influence
night‐active
animals
urban
suburban
areas,
most
research
growing
field
focuses
on
terrestrial
organisms
such
as
bats,
birds,
insects.
Effects
aquatic
ecosystems
are
much
less
known.
In
particular,
primary
producers,
microalgae,
cyanobacteria,
plants,
rarely
been
studied
despite
their
critical
positioning
base
food
webs
fundamental
role
that
plays
ecology.
For
key
source
both
energy
environmental
information;
influences
growth,
production,
community
structure.
has
therefore
large
potential
to
communities
induce
bottom‐up
changes
ecosystem
functions.
Journal of the World Aquaculture Society,
Год журнала:
2019,
Номер
51(4), С. 990 - 1001
Опубликована: Апрель 12, 2019
Taurine
has
been
reported
as
an
important
nutrient
in
some
fish
species,
but
its
efficacy
black
sea
bream,
Acanthopagrus
schlegelii
not
determined.
Therefore,
a
study
was
performed
to
explore
the
effects
of
taurine
supplementation
on
growth
performance,
serum
parameters,
and
related
gene
expression
bream
juveniles
fed
all‐plant
protein
diets.
A
fishmeal
diet
(FM)
five
diets
with
graded
levels
(T0,
T0.25,
T0.5,
T1,
T2)
were
formulated.
The
results
showed
that
could
significantly
inhibit
growth,
dietary
improve
weight
gain,
thermal
unit
coefficient,
feed
efficiency,
retention
efficiency
when
are
diet.
No
significant
differences
observed
moisture,
crude
protein,
lipid
content
whole
body
dorsal
muscle
among
all
treatments.
Dietary
increase
total
albumin
decrease
cholesterol
hepatic
bile
acid
Fish
T0
lower
7α‐hydroxylase
(
CYP7A1
)
messenger
RNA
(mRNA)
level
than
FM
group,
mRNA
expression.
Fish and Fisheries,
Год журнала:
2021,
Номер
23(3), С. 631 - 647
Опубликована: Дек. 24, 2021
Abstract
Nearly
all
organisms
rely
on
natural
fluctuations
of
light
as
cues
for
synchronizing
physiological
processes
and
behavioural
actions
associated
with
foraging,
growth,
sleep
rest,
reproduction,
migration.
Consequently,
although
artificial
lighting
sources
have
provided
a
plethora
benefits
humans,
they
can
lead
to
disruptions
wild
organisms.
With
one
quarter
the
human
population
living
within
100
km
coastlines,
there
is
great
potential
at
night
(ALAN)
influence
physiology,
behaviour
fitness
fishes.
Through
review
literature
(
n
=
584
publications
focused
effects
ALAN
individual
or
ecosystems),
we
illustrate
that
most
papers
concentrated
terrestrial
species
(59%)
compared
aquatic
(20%)
mixed
approach
(21%).
Fishes
been
underrepresented
in
comparison
many
other
taxa
such
birds,
insects
mammals,
representing
focus
less
than
8%
taxa‐specific
publications.
While
number
per
year
focusing
fishes
has
generally
increasing
since
mid‐2000s,
downturn
publication
rate
last
few
years.
To
understand
where
research
related
focused,
partitioned
studies
into
categories
found
mostly
concerned
(41.0%),
abundance
community
structure
(24.4%),
physiology
(22.8%),
while
longer‐term
(6.9%)
are
lacking.
We
synthesize
completed
outline
future
priorities
will
help
ascertain
short‐
long‐term
consequences
this
relatively
novel
stressor
fish
health
persistence.
