The increase of an allelopathic and unpalatable plant undermines reindeer pasture quality and current management in the Norwegian tundra
Communications Earth & Environment,
Год журнала:
2024,
Номер
5(1)
Опубликована: Авг. 3, 2024
Abstract
Ongoing
Arctic
greening
can
increase
productivity
and
reindeer
pasture
quality
in
the
tundra.
However,
may
also
entail
proliferation
of
unpalatable
species,
with
consequences
for
pastoral
social-ecological
systems.
Here
we
show
extensive
across
20
districts
Norway
between
2003
2020,
which
has
reduced
diversity.
The
allelopathic,
evergreen
dwarf-shrub
crowberry
increased
its
biomass
by
60%,
smaller
increases
deciduous
shrubs
no
forbs
graminoids,
most
species
rich
growth
forms.
There
was
evidence
higher
densities
promoting
crowberry.
current
management
decision-making
process
aims
at
sustainable
but
does
not
explicitly
account
changes
Large-scale
shifts
towards
evergreening
allelopathy
thus
undermine
resource
base
this
key
herbivore
system.
Management
that
is
sensitive
to
diversity
could
avoid
mismanagement
a
system
transition.
Язык: Английский
Endangered Deep‐Snow Mountain Caribou Have a Distinct Winter Diet and Gut Microbiome That May Be Altered by Maternal Penning
Molecular Ecology,
Год журнала:
2025,
Номер
34(11)
Опубликована: Май 7, 2025
ABSTRACT
Understanding
species‐
or
population‐specific
dietary
specialisation
is
key
to
informing
habitat
conservation
needs
and
successful
ex
situ
recovery
programs
for
many
endangered
species.
One
of
the
most
populations
in
Canada,
behaviourally
distinct
deep‐snow
ecotype
Southern
Mountain
caribou,
characterised
by
a
winter
diet
arboreal
rather
than
terrestrial
lichens.
We
hypothesised
that
this
variation
would
produce
gut
microbiome
mountain
caribou
relative
their
shallow‐snow
counterparts.
additionally
temporary
alteration
natural
diets
programs,
including
provision
commercial
pelleted
feed
volunteer‐collected
lichens
during
maternity
penning
pregnant
cows,
may
alter
specialised
microbiome.
Here,
we
use
faecal
DNA
metabarcoding
compare
composition
among
various
herds
deep‐
captive
from
Revelstoke
pen,
semi‐domesticated
reindeer.
Our
results
confirm
free‐ranging
specialise
on
hair
Bryoria
Nodobryoria,
show
correlates
with
specialising
Cladonia
Stereocaulon
.
also
significantly
altered
forage
consumption
composition:
penned
consumed
more
foliose
had
compared
caribou.
suggest
managers
should
carefully
consider
preferred
when
designing
interventions
require
modification.
further
samples
other
specialists
be
routinely
monitored
composition,
especially
periods
captivity
modification,
as
an
additional
component
assessments.
Язык: Английский
Exploring the potential of forest snow modelling at the tree and snowpack layer scale
Опубликована: Дек. 15, 2023
Abstract.
Boreal
and
subalpine
forests
host
seasonal
snow
for
multiple
months
per
year,
however
regimes
in
these
environments
are
rapidly
changing
due
to
rising
temperatures
forest
disturbances.
Accurate
prediction
of
dynamics,
relevant
ecohydrology,
biogeochemistry,
cryosphere,
climate
sciences,
requires
process-based
models.
While
schemes
that
track
the
microstructure
individual
layers
have
been
proposed
avalanche
research,
tree-scale
process
resolving
canopy
representations
so
far
only
exist
a
few
snow-hydrological
A
framework
enables
layer
simulations
at
meter
scale
is
lacking
date.
To
fill
this
research
gap,
study
introduces
modelling
FSMCRO,
which
combines
two
detailed,
state-of-the
art
model
components:
representation
from
Flexible
Snow
Model
(FSM2),
snowpack
Crocus
ensemble
system
(ESCROC).
We
apply
FSMCRO
discontinuous
boreal
sites
showcase
how
processes
affect
layer-scale
properties.
Simulations
contrasting
locations
reveal
marked
differences
stratigraphy
throughout
winter.
These
arise
different
prevailing
under-canopy
versus
gap
locations,
variability
metamorphism
dictated
by
spatially
variable
energy
balance.
Ensemble
allow
us
assess
robustness
uncertainties
simulated
stratigraphy.
Spatially
explicit
unravel
dependencies
properties
on
structure
previously
unfeasible
level
detail.
Our
findings
thus
demonstrate
hyper-resolution
can
complement
observational
approaches
improve
our
understanding
highlighting
potential
such
models
as
tool
interdisciplinary
studies.
Язык: Английский
Exploring the potential of forest snow modeling at the tree and snowpack layer scale
The cryosphere,
Год журнала:
2024,
Номер
18(10), С. 4607 - 4632
Опубликована: Окт. 8, 2024
Abstract.
Boreal
and
sub-alpine
forests
host
seasonal
snow
for
multiple
months
per
year;
however,
regimes
in
these
environments
are
rapidly
changing
due
to
rising
temperatures
forest
disturbances.
Accurate
prediction
of
dynamics,
relevant
ecohydrology,
biogeochemistry,
cryosphere,
climate
sciences,
requires
process-based
models.
While
schemes
that
track
the
microstructure
individual
layers
have
been
proposed
avalanche
research,
so
far,
tree-scale
processes
resolving
canopy
representations
only
exist
a
few
snow-hydrological
A
framework
enables
layer-
microstructure-resolving
simulations
at
meter
scale
is
lacking
date.
To
fill
this
research
gap,
study
introduces
modeling
FSMCRO,
which
combines
two
detailed,
state-of-the
art
model
components:
representation
from
Flexible
Snow
Model
(FSM2)
snowpack
Crocus
ensemble
system
(ESCROC).
We
apply
FSMCRO
discontinuous
boreal
sites
showcase
how
affect
layer-scale
properties.
Simulations
contrasting
locations
reveal
marked
differences
stratigraphy
throughout
winter.
These
arise
different
prevailing
under-canopy
versus
gap
variability
metamorphism
dictated
by
spatially
variable
energy
balance.
Ensemble
allow
us
assess
robustness
uncertainties
simulated
stratigraphy.
Spatially
explicit
unravel
dependencies
properties
on
structure
previously
unfeasible
level
detail.
Our
findings
thus
demonstrate
hyper-resolution
can
complement
observational
approaches
improve
our
understanding
highlighting
potential
such
models
as
tools
interdisciplinary
studies.
Язык: Английский
Long-term measurements of seasonal snowpacks indicate increases in mid-winter snowmelt and earlier snowpack disappearance in the northeastern U.S.
PLOS Climate,
Год журнала:
2024,
Номер
3(12), С. e0000529 - e0000529
Опубликована: Дек. 18, 2024
Snowpacks
are
changing
in
northeastern
North
America
as
the
regional
climate
warms,
yet
relative
influence
of
changes
precipitation
compared
to
ablation
on
snowpacks
is
poorly
understood.
We
use
56
years
weekly
snow
water
equivalent
(SWE)
measurements
from
three
locations
within
a
study
site
which
vary
elevation
and
aspect,
paired
with
adjacent
daily
measurements,
investigate
relationships
between
snowpack
onset,
maximum,
disappearance.
Maximum
size
duration
shrinking
at
all
sites,
rates
ranging
4.3
days/decade
coldest
9.6
warmest
site.
The
shorter
sites
results
an
earlier
disappearance,
stemming
largely
reduced
winter
maximum
sizes.
Trends
establishment
dates
vary,
south-facing
showing
trend
toward
later
but
two
north-facing
no
change.
date
varies
by
aspect
not
any
Using
0°
C
threshold
for
frozen
vs.
liquid
precipitation,
we
only
observed
decrease
proportion
falling
form
warmer,
period.
In
contrast,
total
period
has
been
increasing
least
marginally
each
site,
even
do
show
increases
thawing
conditions.
Ablation
range
0.4
cm/decade
1.4
1.2
sites.
shows
significant
trends
ablation,
interpret
being
limited
smaller
this
Overall,
conclude
that
rising
air
temperatures
leading
more
sensitive
change
becomes
evident
before
those
lead
form.
Язык: Английский
Comment on egusphere-2023-2781
Опубликована: Апрель 3, 2024
Boreal
and
subalpine
forests
host
seasonal
snow
for
multiple
months
per
year,
however
regimes
in
these
environments
are
rapidly
changing
due
to
rising
temperatures
forest
disturbances.
Accurate
prediction
of
dynamics,
relevant
ecohydrology,
biogeochemistry,
cryosphere,
climate
sciences,
requires
process-based
models.
While
schemes
that
track
the
microstructure
individual
layers
have
been
proposed
avalanche
research,
tree-scale
process
resolving
canopy
representations
so
far
only
exist
a
few
snow-hydrological
A
framework
enables
layer
simulations
at
meter
scale
is
lacking
date.
To
fill
this
research
gap,
study
introduces
modelling
FSMCRO,
which
combines
two
detailed,
state-of-the
art
model
components:
representation
from
Flexible
Snow
Model
(FSM2),
snowpack
Crocus
ensemble
system
(ESCROC).
We
apply
FSMCRO
discontinuous
boreal
sites
showcase
how
processes
affect
layer-scale
properties.
Simulations
contrasting
locations
reveal
marked
differences
stratigraphy
throughout
winter.
These
arise
different
prevailing
under-canopy
versus
gap
locations,
variability
metamorphism
dictated
by
spatially
variable
energy
balance.
Ensemble
allow
us
assess
robustness
uncertainties
simulated
stratigraphy.
Spatially
explicit
unravel
dependencies
properties
on
structure
previously
unfeasible
level
detail.
Our
findings
thus
demonstrate
hyper-resolution
can
complement
observational
approaches
improve
our
understanding
highlighting
potential
such
models
as
tool
interdisciplinary
studies.
Язык: Английский
Exploring temporal activity of dholes, their prey, and competitors in East Java, Indonesia
Ecology and Evolution,
Год журнала:
2024,
Номер
14(7)
Опубликована: Июль 1, 2024
Dholes
(
Язык: Английский
Seasonal somatic reserves of a northern ungulate influenced by reproduction and a fire-mediated landscape
Frontiers in Ecology and Evolution,
Год журнала:
2024,
Номер
12
Опубликована: Сен. 12, 2024
Wildlife
contend
with
seasonal
fluctuations
in
resource
availability
and
have
adapted
survival
reproductive
strategies
to
overcome
limitations.
Many
northern
ungulates
are
a
dynamic
nutritional
landscape
rely
on
somatic
reserves
accumulated
during
the
short
growing
season.
Moose
(
Alces
alces
)
populations
boreal
forest
respond
variation
their
landscapes
that
quickly
change
after
wildland
fires.
We
tested
associations
between
energy
of
female
moose
suite
factors
relevant
demands
nutrient
scale
fires
Kenai
Peninsula,
Alaska.
From
2015–2022,
we
immobilized
97
individual,
adult
n
=163
early
winter;
=98
late
winter)
collected
over
223,000
GPS
locations.
evaluated
if
cow
were
influenced
by
endogenous
or
exogenous
demands,
access
forage
accumulate
reserves.
Cows
gave
birth
lost
neonate(s)
summer
had
more
winter
body
fat
(14.39%
±
0.24SE)
compared
cows
neonate
survived
4-months-old
(10.59%
0.34SE).
Body
measured
was
positively
correlated
home
ranges
higher
percent
cover
aspen
forage.
Late
negatively
forage,
but
willows
shoulder
season
forages.
Our
results
highlight
plant
species
seral
states
is
needed
across
for
moderate
loss
year.
Furthermore,
our
emphasize
importance
forages
when
snow
depth
low.
Managing
through
interagency
fire
management
could
create
mosaic
enhances
while
reducing
hazards
along
urban
interface
providing
ecosystem
services.
Язык: Английский
Landscape heterogeneity buffers the impact of an extreme weather event on wildlife
Communications Biology,
Год журнала:
2024,
Номер
7(1)
Опубликована: Ноя. 15, 2024
Extreme
weather
events
are
becoming
more
frequent,
with
poorly
known
consequences
for
wildlife.
In
December
2021,
an
atmospheric
river
brought
record-shattering
amounts
of
rain
and
snow
to
interior
Alaska,
creating
conditions
expected
cause
mass
mortality
in
grazing
ungulate
populations
that
need
access
ground
forage.
We
characterized
snowpack
following
the
storm
used
a
36-year
monitoring
dataset
quantify
impacts
on
caribou
(Rangifer
tarandus)
their
primary
predator,
wolves
(Canis
lupus).
precipitation
was
7.3
SD
above
99-year
mean
2.5-fold
higher
than
prior
record,
return
period
333
years.
However,
ice
thickness
within
highly
variable
across
vegetation
types,
shifted
use
elevations
can
blow
free
snow.
Caribou
wolf
rates
were
1.3–1.8
normal
population
growth
low
but
similar
recent
years,
indicating
surprisingly
weak
demographic
response.
These
findings
indicate
landscape
diversity
may
bolster
resistance
wildlife
short-term,
potentially
devastating
effects
extreme
weather.
Using
data
combined
multi-decadal
data,
heterogeneous
habitat
topography
shown
mitigate
impact
event
Alaska.
Язык: Английский
Comment on egusphere-2023-2781
Опубликована: Май 6, 2024
Boreal
and
subalpine
forests
host
seasonal
snow
for
multiple
months
per
year,
however
regimes
in
these
environments
are
rapidly
changing
due
to
rising
temperatures
forest
disturbances.
Accurate
prediction
of
dynamics,
relevant
ecohydrology,
biogeochemistry,
cryosphere,
climate
sciences,
requires
process-based
models.
While
schemes
that
track
the
microstructure
individual
layers
have
been
proposed
avalanche
research,
tree-scale
process
resolving
canopy
representations
so
far
only
exist
a
few
snow-hydrological
A
framework
enables
layer
simulations
at
meter
scale
is
lacking
date.
To
fill
this
research
gap,
study
introduces
modelling
FSMCRO,
which
combines
two
detailed,
state-of-the
art
model
components:
representation
from
Flexible
Snow
Model
(FSM2),
snowpack
Crocus
ensemble
system
(ESCROC).
We
apply
FSMCRO
discontinuous
boreal
sites
showcase
how
processes
affect
layer-scale
properties.
Simulations
contrasting
locations
reveal
marked
differences
stratigraphy
throughout
winter.
These
arise
different
prevailing
under-canopy
versus
gap
locations,
variability
metamorphism
dictated
by
spatially
variable
energy
balance.
Ensemble
allow
us
assess
robustness
uncertainties
simulated
stratigraphy.
Spatially
explicit
unravel
dependencies
properties
on
structure
previously
unfeasible
level
detail.
Our
findings
thus
demonstrate
hyper-resolution
can
complement
observational
approaches
improve
our
understanding
highlighting
potential
such
models
as
tool
interdisciplinary
studies.
Язык: Английский