Conservation
planning
focuses
on
core
habitats,
often
overlooking
ecotones,
which
can
hold
unrecognised
potential
for
biodiversity
conservation.
This
study
focused
ecotonal
habitat
use
in
alpine
reptile
communities,
with
emphasis
a
grassland
specialist,
the
critically
endangered
she-oak
skink,
Cyclodomorphus
praealtus.
Survey
transects
grasslands
and
woodlands
Kosciuszko
National
Park
Australian
Alps
were
used
to
investigated
occupancy
richness.
Data
was
analysed
using
multi-species
model
relation
(1)
distance
from
nearest
assess
specialists'
into
woodland
areas
while
accounting
imperfect
detection,
(2)
normalised
difference
vegetation
index
(NDVI)
importance
of
high
resource
patches.
Among
11
species
detected,
our
hypothesis
that
specialists
would
inhabit
ecotones
confirmed.
The
furthest
occurrence
C.
praealtus
closest
41
m
predicted
0.059
(0.004
–
0.169
95%
Bayesian
credible
intervals)
at
100
m.
Contrary
conventional
edge
effect
theories,
results
revealed
no
increase
richness
nearer
or
higher
NDVI
values
underscores
including
buffers
ecological
impact
assessments
conservation
plans.
findings
emphasize
need
broader
survey
efforts
beyond
habitats
capture
distribution
threatened
effectively.
Incorporating
strategies
is
crucial,
particularly
specialist
whose
dynamic
may
help
safeguard
them
amidst
transformation
anthropogenic
influences
climate
change.
Science,
Год журнала:
2025,
Номер
387(6732), С. 420 - 425
Опубликована: Янв. 23, 2025
Pathways
to
achieving
net
zero
carbon
emissions
commonly
involve
deploying
reforestation,
afforestation,
and
bioenergy
crops
across
millions
of
hectares
land.
It
is
often
assumed
that
by
helping
mitigate
climate
change,
these
strategies
indirectly
benefit
biodiversity.
Here,
we
modeled
the
habitat
requirements
14,234
vertebrate
species
show
impact
on
species’
area
tends
not
arise
through
mitigation,
but
rather
conversion.
Across
locations,
reforestation
provide
more
both
land-cover
change
whereas
loss
from
afforestation
cropping
typically
outweighs
mitigation
benefits.
This
work
shows
how
where
land-based
can
be
deployed
without
inadvertently
reducing
for
global
Conservation Letters,
Год журнала:
2023,
Номер
17(1)
Опубликована: Ноя. 9, 2023
Abstract
Negative
landscape‐scale
fragmentation
effects
are
often
inferred
from
negative
patch‐scale
edge
effects.
I
tested
this
cross‐scale
extrapolation
using
two
evaluations.
First,
searched
for
studies
that
estimated
the
direction
of
both
a
effect
and
effect.
The
directions
were
concordant
discordant
in
55%
45%
cases,
respectively.
Second,
extracted
literature
sample
on
individual
species.
Then,
each
species
which
could
calculate
slope
its
Species
showing
nearly
equally
likely
to
show
or
positive
effects,
likewise
results
mean
efficacy
policies
related
habitat
cannot
be
observed
Such
require
evidence,
comparing
species'
responses
landscapes
with
different
levels
fragmentation.
Forests,
Год журнала:
2025,
Номер
16(1), С. 87 - 87
Опубликована: Янв. 8, 2025
The
majority
of
the
world’s
forests
are
located
at
landscape
edges
and
highly
fragmented;
plantations
on
Loess
Plateau
no
exception,
experiencing
pronounced
edge
effects.
However,
effects
often
overlooked
in
assessments
carbon
storage
biodiversity,
extent
impact
these
remain
inadequately
understood.
objective
this
study
is
to
reveal
how
influence
biodiversity
species
composition
examine
their
long-term
impacts
ecosystem
structure
function.
Furthermore,
it
aims
explore
mechanisms
underlying
plantation
systems.
Examining
essential
for
guiding
forest
management
practices
formulating
effective
conservation
strategies,
thereby
providing
scientific
insights
support
ecological
restoration
sustainable
plantations.
In
study,
we
classified
44
sample
plots
into
four
groups
according
distances
from
compare
analyze
composition.
Additionally,
evaluated
intensity
range
stand
structure,
diversity,
storage.
Shannon
index
understory
vegetation
was
used
as
dependent
variable,
with
canopy
cover,
distance,
density
independent
variables.
We
multiple
linear
regression
factors
(shrubs,
herbs,
trees).
key
findings
were
follows:
(1)
Tree
height
did
not
exhibit
across
any
distance
range,
while
index,
richness,
showed
within
54
m
edge.
Diameter
breast
(DBH),
density,
cover
exhibited
0–83
(2)
significance
values
0.99
0.51,
respectively,
showing
significant
correlation.
contrast,
had
a
positive
effect
(p
=
0.03).
(3)
Notable
differences
observed
between
outermost
innermost
plantation.
Climatic
conditions
exert
dominant
plants,
altering
abundance.
High
appeared
moderate
microclimate,
contributing
higher
but
reducing
Our
suggest
that
varying
degrees
different
indicators.
Management
decisions
should
be
guided
by
specific
silvicultural
objectives,
whether
manager’s
goals
optimize
biomass
accumulation,
enhance
recovery,
or
achieve
balance
two
goals.
Approaches
estimating
landscape
effects
on
biodiversity
frequently
focus
a
single
extent,
finding
one
'optimal'
or
use
narrow
extents.
However,
species
perceive
the
environment
in
different
ways,
select
habitat
hierarchically,
and
respond
to
multiple
selection
pressures
at
extents
that
best
predict
each
pressure.
We
aimed
assess
multi-scale
relationships
between
primary
productivity
occurrences
abundances.
used
approach,
called
'scalograms',
level
of
productivity,
form
Dynamic
Habitat
Indices
(DHIs)
abundances
100
Argentinian
forest
bird
species.
average
DHI
values
within
(3
$$\times$$
3
101
pixels;
30
m
resolution),
11
'scalogram'
metrics
as
environmental
inputs
occurrence
abundance
models.
Average
cumulative
81
pixels
(5.9
–
9.2
km2)
maximum
across
were
top
three
predictors
(included
models
for
41%
18%
species,
respectively).
various
contributed
~
1.6
times
more
predictive
power
than
expected.
For
abundances,
scalogram
measures
<
2%
less
model
expected,
regardless
type
(cumulative,
minimum,
variation).
occurrences,
but
not
high
levels
multiple,
broad
rather
extent.
Factors
other
appear
be
important
predicting
abundance.
Plants,
Год журнала:
2025,
Номер
14(8), С. 1188 - 1188
Опубликована: Апрель 11, 2025
Human-caused
habitat
conversion,
degradation,
and
climate
change
threaten
global
biodiversity,
particularly
in
tropical
forests
where
vascular
epiphytes—non-parasitic
plants
growing
on
other
plants—may
be
especially
vulnerable.
Epiphytes
play
vital
ecological
roles,
nutrient
cycling
by
providing
habitat,
but
are
disproportionately
affected
land-use
changes
due
to
their
reliance
host
trees
specific
microclimatic
conditions.
While
tree
species
secondary
recover
relatively
quickly,
epiphyte
recolonization
is
slower,
humid
montane
regions,
richness
may
decline
up
96%
compared
primary
or
old-growth
forests.
A
review
of
nearly
300
pertinent
studies
has
revealed
a
geographic
bias
toward
the
Neotropics,
with
limited
research
from
Asia,
Africa,
temperate
regions.
The
can
grouped
into
four
main
areas:
1.
trade,
use
conservation,
2.
effects
change,
3.
diversity
human-modified
habitats,
4.
responses
disturbance.
In
agricultural
timber
plantations,
those
using
exotic
like
pine
eucalyptus,
significantly
reduced.
contrast,
most
native
shade-grown
agroforestry
systems
support
higher
richness.
Traditional
polycultures
dense
canopy
cover
maintain
88%
diversity,
while
intensive
management
practices,
such
as
removal
coffee
cacao
cause
substantial
biodiversity
losses.
Conservation
strategies
should
prioritize
preserving
forests,
maintaining
forest
fragments,
minimizing
land
management.
Active
restoration,
including
translocation
fallen
epiphytes
planting
vegetation
nuclei,
more
effective
than
passive
approaches.
Future
include
long-term
monitoring
understand
dynamics
assess
broader
impacts
loss
ecosystem
functioning.
Plants People Planet,
Год журнала:
2025,
Номер
unknown
Опубликована: Апрель 14, 2025
Societal
Impact
Statement
Forest
management
for
wood
products
involves
the
conversion
of
primary
forests
to
younger
plantations.
This
has
an
immediate
impact
on
biota
such
as
ectomycorrhizal
fungi,
a
diverse
symbiotic
fungal
community.
Alternatives
large
clearcuts
may
be
one
way
mitigate
harvesting
effects.
We
tested
this
premise
by
examining
communities
across
forest
edges
in
1‐ha
openings
at
nearly
three
decades
postharvest.
found
reductions
species
richness
and
shifts
community
composition
were
still
evident,
illustrating
how
recovery
was
limited
open
canopies
trees.
Sustainable
ectomycorrhiza
require
further
conservation
strategies,
particularly
green‐tree
retention.
Summary
Ectomycorrhizal
fungi
(EMF)
are
sensitive
stand‐removing
disturbances;
EMF
communities,
especially
rarer
typical
old‐growth
stands,
take
century
re‐establish.
Proximity
mature
via
small
cutovers
could
accelerate
postharvest
recovery,
thereby
supporting
sustainable
management.
Alternatively,
impose
fragmentation
effect,
which
eventually
negatively
influence
taxa
remaining
forest.
compared
both
succession
patterns
27
years
high‐elevation
coniferous
sampled
90‐m
transects
nine
openings,
using
long‐read
metabarcoding
from
mycorrhizal
root
tips,
Sanger
sequencing
epigeous
sporocarps
assess
response.
A
timber
effect
tip
with
differences
among
assemblages
between
opening,
edge
zone,
interior
habitats.
tips
declined
27%,
average,
beginning
10
m
edge.
While
roots
consistent
plots,
fruiting
curtailed
within
zones,
alongside
some
forest‐dependent
taxa.
Overall,
potential
benefits
apparently
constrained
environmental
factors
that
delay
re‐establishment
late‐seral
under
canopies.
The
negative
reproduction
abundance
adjacent
is
relevant
when
designing
retention
forestry
systems,
suggesting
medium
patches
trees
reduce
stress
better
sustain
array
fungi.
