Conservation Physiology,
Год журнала:
2020,
Номер
8(1)
Опубликована: Янв. 1, 2020
The
field
of
conservation
physiology
strives
to
achieve
goals
by
revealing
physiological
mechanisms
that
drive
population
declines
in
the
face
human-induced
rapid
environmental
change
(HIREC)
and
has
informed
many
successful
actions.
However,
studies
still
struggle
explicitly
link
individual
measures
impacts
across
biological
hierarchy
(to
ecosystem
levels)
instead
rely
on
a
'black
box'
assumptions
scale
up
results
for
implications.
Here,
we
highlight
some
examples
were
scaling
beyond
level,
including
two
case
well-researched
species,
using
other
challenges
future
opportunities
increase
impact
research
hierarchy.
We
first
examine
use
population-level
discuss
several
emerging
fields
have
made
significant
steps
toward
addressing
gap
between
individual-based
demographic
studies,
such
as
macrophysiology
landscape
physiology.
Next,
how
can
from
or
species-level
community-
ecosystem-level
avenues
lead
implications
at
abiotic
gradients
interspecific
interactions.
In
process,
review
methods
researchers
make
links
hierarchy,
crossing
disciplinary
boundaries,
collaboration
data
sharing,
spatial
modelling
incorporating
multiple
markers
(e.g.
physiological,
behavioural
demographic)
into
their
research.
recommend
tools
consider
diversity
'landscapes'
experienced
animals
higher
levels
will
more
effective
contributions
management
decisions.
Conservation Physiology,
Год журнала:
2016,
Номер
4(1), С. cow046 - cow046
Опубликована: Янв. 1, 2016
The
state
of
the
art
research
on
environmental
physiology
marine
fishes
is
reviewed
from
perspective
how
it
can
contribute
to
conservation
biodiversity
and
fishery
resources.
A
major
constraint
application
physiological
knowledge
for
limited
base;
international
collaboration
needed
study
a
wider
range
species.
Multifactorial
field
laboratory
studies
biomarkers
hold
promise
relate
ecophysiology
directly
habitat
quality
population
status.
'Fry
paradigm'
could
have
broad
applications
if
provides
universal
mechanism
link
function
with
ecological
performance
dynamics
fishes,
through
effects
abiotic
conditions
aerobic
metabolic
scope.
available
data
indicate,
however,
that
paradigm
not
universal,
so
further
required
wide
diversity
Fish
physiologists
should
interact
closely
researchers
developing
models,
in
order
investigate
integrating
information
improves
confidence
projecting
global
change;
example,
mechanistic
models
define
suitability
based
upon
potential
scope
or
outputs
dynamic
energy
budget.
One
challenge
upscaling
individuals
level
species
communities
incorporating
intraspecific
variation,
which
be
crucial
component
species'
resilience
change.
Understanding
what
do
wild
also
challenge,
but
techniques
biotelemetry
biologging
are
providing
novel
towards
effective
conservation.
Overall,
fish
must
strive
render
more
applicable
management
decision-making.
There
various
avenues
flow,
shorter
term
biomarker
longer
by
collaborating
modellers
biologists.
Conservation Physiology,
Год журнала:
2016,
Номер
4(1), С. cov072 - cov072
Опубликована: Янв. 1, 2016
Migration
is
a
widespread
phenomenon
among
many
taxa.
This
complex
behaviour
enables
animals
to
exploit
temporally
productive
and
spatially
discrete
habitats
accrue
various
fitness
benefits
(e.g.
growth,
reproduction,
predator
avoidance).
Human
activities
global
environmental
change
represent
potential
threats
migrating
(from
individuals
species),
research
underway
understand
mechanisms
that
control
migration
how
responds
modern
challenges.
Focusing
on
behavioural
physiological
aspects
of
can
help
provide
better
understanding,
management
conservation
migratory
populations.
Here,
we
highlight
different
physiological,
biomechanical
animal
will
us
interact
with
current
future
anthropogenic
threats.
We
are
in
the
early
stages
changing
planet,
our
understanding
physiology
linked
persistence
still
developing;
therefore,
regard
following
questions
as
being
central
migrations.
Will
climate
influence
energetic
costs
migration?
shifting
temperatures
annual
clocks
animals?
influences
have
an
effect
orientation
during
increased
alteration
stopover
sites/migration
corridors
affect
stress
Can
knowledge
be
used
identify
strategies
for
facilitating
movement
Our
synthesis
reveals
given
inherent
challenges
migration,
additional
stressors
derived
from
altered
environments
change,
physical
habitat
alteration,
light
pollution)
or
interaction
human
infrastructure
wind
hydrokinetic
turbines,
dams)
fisheries)
could
lead
long-term
changes
phenotypes.
However,
uncertainty
remains
because
complexity
biological
systems,
inherently
dynamic
nature
environment
scale
at
which
migrations
occur
associated
operate,
necessitating
improved
integration
approaches
animals.
Identifying
the
early
warning
signals
of
catastrophic
extinctions
has
recently
become
a
central
focus
for
ecologists,
but
species'
functional
responses
to
environmental
changes
remain
an
untapped
source
sharpening
such
signals.
Telomere
length
(TL)
analysis
represents
promising
molecular
tool
with
which
raise
alarm
regarding
population
decline,
since
telomere
attrition
is
associated
aging
processes
and
accelerates
after
recurrent
exposure
stressors.
In
southern
margin
their
range,
populations
common
lizard
(Zootoca
vivipara)
became
extinct
at
lowest
elevations
due
in
climate
conditions.
However,
proximal
involved
these
demographic
declines
are
still
unknown.
Here,
we
sampled
100
yearling
lizards
from
10
natural
(n
=
per
population)
along
extinction
risk
gradient.
Relative
abundance
dramatically
dropped
over
12
years
low-altitude
characterized
by
warmer
ambient
temperatures
higher
body
growth
life.
A
non-linear
relationship
was
found
between
TL
risk,
shorter
telomeres
facing
high
when
compared
non-threatened
ones.
Our
results
identify
as
biomarker
imply
that
might
be
preceded
loop
physiological
aging.
Conservation Physiology,
Год журнала:
2017,
Номер
5(1)
Опубликована: Янв. 1, 2017
Sea
lamprey
(Petromyzon
marinus)
control
in
the
Laurentian
Great
Lakes
of
North
America
is
an
example
using
physiological
knowledge
to
successfully
invasive
species
and
rehabilitate
ecosystem
valuable
fishery.
The
parasitic
sea
contributed
devastating
collapse
native
fish
communities
after
invading
during
1800s
early
1900s.
Economic
tragedy
ensued
with
loss
fishery
severe
impacts
property
values
tourism
resulting
from
lamprey-induced
ecological
changes.
To
once
vibrant
economy,
Fishery
Commission
(Commission)
was
formed
by
treaty
between
Canada
United
States
1955.
has
developed
a
programme
based
on
their
vulnerabilities,
which
includes
(i)
application
selective
pesticides
(lampricides),
kill
sedentary
larvae
natal
streams;
(ii)
barriers
spawning
migrations
associated
traps
prevent
infestations
upstream
habitats
remove
adult
before
they
reproduce;
(iii)
release
sterilized
males
reduce
reproductive
potential
populations
select
streams.
Since
1958,
suppressed
~90%
peak
abundance.
have
rebounded
economy
now
thriving.
In
hopes
further
enhancing
efficacy
selectivity
programme,
exploring
use
chemosensory
cues
(pheromones
alarm
cues)
manipulate
behaviours
physiologies,
genetics
identify
genes
key
functions,
for
purposes.
Overall,
capitalizes
unique
physiology
strives
develop
diverse
integrated
species.
Conservation Physiology,
Год журнала:
2019,
Номер
8(1)
Опубликована: Дек. 3, 2019
Rates
of
human-induced
environmental
change
continue
increasing
with
human
population
size,
potentially
altering
animal
physiology
and
negatively
affecting
wildlife.
Researchers
often
use
glucocorticoid
concentrations
(hormones
that
can
be
associated
stressors)
to
gauge
the
impact
anthropogenic
factors
(e.g.
urbanization,
noise
light
pollution).
Yet,
no
general
relationships
between
glucocorticoids
have
emerged.
Given
number
recent
studies
reporting
baseline
stress-induced
corticosterone
(the
primary
in
birds
reptiles)
worldwide,
it
is
now
possible
conduct
large-scale
comparative
analyses
test
for
associations
disturbance
across
species.
Additionally,
we
control
may
influence
context,
such
as
life
history
stage,
conditions
urban
adaptability
a
Here,
take
phylogenetically
informed
approach
data
from
HormoneBase
if
are
valid
indicators
exposure
footprint
index,
density,
artificial
at
night
reptiles.
Our
results
show
negative
relationship
characterized
avoiders.
While
our
indicate
avoiders
more
sensitive
than
other
species,
overall
study
suggests
varies
species
contexts;
found
impacts
birds,
nor
Therefore,
should
not
assumed
high
or
low
levels
levels,
respectively,
closely
related
even
individuals,
will
respond
similarly.
Moving
forward,
measuring
alternative
physiological
traits
alongside
reproductive
success,
health
survival
provide
context
better
understand
potential
effects
change.
Conservation Physiology,
Год журнала:
2017,
Номер
5(1)
Опубликована: Янв. 1, 2017
Policy
development
and
management
decisions
should
be
based
upon
the
best
available
evidence.
In
recent
years,
approaches
to
evidence
synthesis,
originating
in
medical
realm
(such
as
systematic
reviews),
have
been
applied
conservation
promote
evidence-based
environmental
management.
Systematic
reviews
involve
a
critical
appraisal
of
evidence,
but
studies
that
lack
necessary
rigour
(e.g.
experimental,
technical
analytical
aspects)
justify
their
conclusions
are
typically
excluded
from
or
down-weighted
terms
influence.
One
strengths
physiology
is
reliance
on
experimental
help
more
clearly
establish
cause-and-effect
relationships.
Indeed,
biology
ecology
much
offer
building
base
needed
inform
policy
options
related
pressing
issues
such
enacting
endangered
species
recovery
plans
evaluating
effectiveness
interventions.
Here,
we
identify
number
pitfalls
can
prevent
findings
being
relevant
would
lead
exclusion
down-weighting
during
review.
We
conclude
well
positioned
support
conservation,
provided
designs
robust
physiologists
understand
nuances
associated
with
informing
decision-making
processes
so
they
relevant.
Conservation Physiology,
Год журнала:
2021,
Номер
9(1)
Опубликована: Янв. 1, 2021
Abstract
Environmental
change
and
biodiversity
loss
are
but
two
of
the
complex
challenges
facing
conservation
practitioners
policy
makers.
Relevant
robust
scientific
knowledge
is
critical
for
providing
decision-makers
with
actionable
evidence
needed
to
inform
decisions.
In
Anthropocene,
science
that
leads
meaningful
improvements
in
conservation,
restoration
management
desperately
needed.
Conservation
Physiology
has
emerged
as
a
discipline
well-positioned
identify
mechanisms
underpinning
population
declines,
predict
responses
environmental
test
different
situ
ex
interventions
diverse
taxa
ecosystems.
Here
we
present
consensus
list
10
priority
research
themes.
Within
each
theme
specific
questions
(100
total),
answers
which
will
address
problems
should
improve
biological
resources.
The
themes
frame
set
related
following:
(i)
adaptation
phenotypic
plasticity;
(ii)
human–induced
change;
(iii)
human–wildlife
interactions;
(iv)
invasive
species;
(v)
methods,
biomarkers
monitoring;
(vi)
policy,
engagement
communication;
(vii)
pollution;
(viii)
actions;
(ix)
threatened
(x)
urban
systems.
hopefully
guide
inspire
researchers
while
also
helping
demonstrate
makers
many
ways
physiology
can
help
support
their
Conservation Physiology,
Год журнала:
2021,
Номер
9(1)
Опубликована: Янв. 1, 2021
Abstract
Multidisciplinary
approaches
to
conservation
and
wildlife
management
are
often
effective
in
addressing
complex,
multi-factor
problems.
Emerging
fields
such
as
physiology
behaviour
can
provide
innovative
solutions
strategies
for
target
species
systems.
Sensory
ecology
combines
the
study
of
‘how
animals
acquire’
process
sensory
stimuli
from
their
environments,
ecological
evolutionary
significance
respond’
this
information.
We
review
benefits
that
bring
by
discussing
case
studies
across
major
taxa
modalities.
Conservation
practices
informed
a
approach
include
amelioration
traps,
control
invasive
species,
reduction
human–wildlife
conflicts
relocation
establishment
new
populations
endangered
species.
illustrate
facilitate
understanding
mechanistic
physiological
explanations
underlying
particular
issues
also
help
develop
ameliorate
