Life,
Год журнала:
2023,
Номер
13(2), С. 512 - 512
Опубликована: Фев. 13, 2023
Evidence
shows
that
diversity
and
spatial
distributions
of
biological
communities
are
largely
driven
by
the
race
living
organisms
in
their
adaptation
to
chemicals
synthesized
neighbors.
In
this
report,
emergence
mathematical
models
on
pure
self-organization
induced
biochemical
suppression
(allelopathy)
competition
between
species
were
investigated
through
numerical
analysis.
For
both
random
patched
initial
species,
we
demonstrate
warfare
survivors
self-organized
landscape
Turing-like
patterns
diffusive
instabilities
allelochemicals.
These
simple;
either
all
coexist
at
low
diffusion
rates
or
massively
extinct,
except
for
a
few
high
diffusivities,
but
they
complex
biodiversity-sustained
intermediate
rates.
“Defensive
alliances”
ecotones
seem
be
basic
mechanisms
sustain
great
biodiversity
our
hybrid
cellular
automata
model.
Moreover,
coexistence
extinction
exhibit
multi-stationarity.
Nature Communications,
Год журнала:
2024,
Номер
15(1)
Опубликована: Янв. 6, 2024
Potential
climate
tipping
points
pose
a
growing
risk
for
societies,
and
policy
is
calling
improved
anticipation
of
them.
Satellite
remote
sensing
can
play
unique
role
in
identifying
anticipating
phenomena
across
scales.
Where
satellite
records
are
too
short
temporal
early
warning
points,
complementary
spatial
indicators
leverage
the
exceptional
spatial-temporal
coverage
remotely
sensed
data
to
detect
changing
resilience
vulnerable
systems.
Combining
Earth
observation
with
system
models
improve
process-based
understanding
their
interactions,
potential
cascades.
Such
fine-resolution
support
point
management
Emerging Topics in Life Sciences,
Год журнала:
2022,
Номер
6(3), С. 245 - 258
Опубликована: Июнь 9, 2022
Self-organized
spatial
patterns
are
ubiquitous
in
ecological
systems
and
allow
populations
to
adopt
non-trivial
distributions
starting
from
disordered
configurations.
These
form
due
diverse
nonlinear
interactions
among
organisms
between
their
environment,
lead
the
emergence
of
new
(eco)system-level
properties
unique
self-organized
systems.
Such
pattern
consequences
include
higher
resilience
resistance
environmental
changes,
abrupt
ecosystem
collapse,
hysteresis
loops,
reversal
competitive
exclusion.
Here,
we
review
exhibiting
patterns.
We
establish
two
broad
categories
depending
on
whether
self-organizing
process
is
primarily
driven
by
density-dependent
demographic
rates
or
movement.
Using
this
organization,
examine
a
wide
range
observational
scales,
microbial
colonies
whole
ecosystems,
discuss
mechanisms
hypothesized
underlie
observed
system-level
consequences.
For
each
example,
both
empirical
evidence
existing
theoretical
frameworks
developed
identify
causes
patterning.
Finally,
trace
qualitative
similarities
across
propose
possible
ways
developing
more
quantitative
understanding
how
self-organization
operates
scales
ecology.
Journal of Vegetation Science,
Год журнала:
2021,
Номер
32(6)
Опубликована: Ноя. 1, 2021
Abstract
Aims
The
fairy
circles
along
the
Namib
Desert
in
southern
Africa
are
round
grassland
gaps
that
have
puzzled
scientists
for
about
50
years.
With
discovery
of
Australia
2016,
debate
on
origin
has
been
extended
to
a
new
continent.
Research
interest
topic
since
then
risen
strongly
but
so
use
term
“fairy
circle”.
This
become
more
imprecise
and,
by
analogy,
applied
circular
vegetation
or
plant
rings
largely
unrelated
circles.
For
this
reason,
we
define
concept
identifying
their
three
main
characteristics
based
situ
field
observations
and
soil
excavations
larger‐scale
spatial
patterns,
regional‐scale
distribution.
Results
Following
approach,
defined
by:
(a)
being
“empty
gaps”
without
central
insect‐nest
structure;
(b)
ability
form
spatially
periodic
which
regular
hexagonal
patterns
with
an
extraordinary
degree
ordering;
(c)
regional
distribution
confined
within
narrow
arid
climatic
envelope.
In
these
combined
traits,
differ
from
other
common
which,
example,
always
structure
may
occur
across
broad
gradients
continents.
Also
own
specific
attributes
genuine
Conclusions
There
many
vegetation‐gap
lands
if
such
cannot
jointly
show
defining
circles,
they
should
be
carefully
discussed
own,
rather
than
mixing
them
up
Our
synthesis
provides
etymology
different
types
rings,
aiming
guide
reader
through
various
classes
patterns.
Journal of The Royal Society Interface,
Год журнала:
2025,
Номер
22(222)
Опубликована: Янв. 1, 2025
Plants
often
respond
to
drier
climates
by
slow
evolutionary
adaptations
from
fast-growing
stress-tolerant
species.
These
increase
the
plants’
resilience
droughts
but
involve
productivity
losses
that
bear
on
agriculture
and
food
security.
also
spatial
self-organization,
through
fast
vegetation
patterning
involving
differential
plant
mortality
increased
water
availability
surviving
plants.
The
manners
in
which
these
two
response
forms
intermingle
affect
have
not
been
studied.
Here
we
ask:
can
inhibit
undesired
adaptation
without
compromising
ecosystem
resilience?
To
address
this
question,
integrate
adaptive
dynamics
pattern-formation
theories
show
less
productive,
more
species
over
a
wide
precipitation
range
while
increasing
their
stress.
This
homeostasis
results
high
plasticity
of
patterns,
associated
with
patch
thinning
dilution,
maintains
steady
local
despite
decreasing
precipitation.
Spatial
heterogeneity
expedites
onset
induces
at
an
earlier
stage
adaptation,
thereby
mitigating
loss
occurs
remains
spatially
uniform.
We
conclude
discussing
our
broader
context
retardation.
Proceedings of the National Academy of Sciences,
Год журнала:
2025,
Номер
122(11)
Опубликована: Март 13, 2025
We
study
how
self-organization
in
systems
showing
complex
spatiotemporal
dynamics
can
increase
ecosystem
resilience.
consider
a
general
simple
model
that
includes
positive
feedback
as
well
negative
mediated
by
an
inhibitor.
apply
this
to
Posidonia
oceanica
meadows,
where
and
feedbacks
are
documented,
there
is
empirical
evidence
of
the
role
sulfide
accumulation,
toxic
for
plant,
driving
dynamics.
describe
progressive
transition
from
homogeneous
meadows
extinction
through
dynamical
regimes
allow
avoid
typical
ecological
tipping
points
vegetation
covers.
A
predictable
sequence
distinct
observed
mortality
continuously
increased:
turbulent
regimes,
formation
spirals
wave
trains,
isolated
traveling
pulses
or
expanding
rings,
latter
being
harbinger
collapse,
however
far
beyond
point
cover.
The
used
paper
general,
results
be
applied
other
plant–soil
spatially
extended
systems,
regardless
mechanisms
behind
feedbacks.
Water Resources Research,
Год журнала:
2022,
Номер
58(10)
Опубликована: Сен. 26, 2022
Abstract
Canopy
structure
alters
net
precipitation
inputs,
partly
governing
the
quantity
of
water
recharging
soil
moisture.
Clumped
and
scattered
shrublands
are
structured
with
aggregated
isolated
canopies,
respectively,
demonstrating
contrasting
self‐organized
patterns.
However,
influence
self‐organization
on
rain
harvesting
is
largely
unknown.
Hence,
we
compared
rainfall
redistribution
patterns
different
shrubs
Vitex
negundo
moisture
responses
during
2020–2021
rainy
seasons
Loess
Plateau
China.
Our
results
indicated
that
harvested
more
throughfall
(85.6%
vs.
74.7%)
(90.8%
83.8%)
than
clumped
shrubs.
Comparatively,
stemflow
was
initiated
(57.2
60.4
min)
peaked
(198.9
207.7
earlier,
ceased
later
(84.4
54.5
min),
lasted
longer
(8.9
8.4
hr),
transported
swiftly
(397.0
373.8
mm
h
−1
),
yielded
a
larger
(400.8
355.1
mL),
respectively.
This
flux
funneled
efficiently
(160.1
versus
140.5
fold
to
rain),
productive
(1.768
1.346
g
)
per
unit
biomass
investment.
For
both
patterns,
led
wetter
soils,
but
resulted
in
quicker
response
top‐layer
remained
stable
post
under
Therefore,
via
partitioning,
organization
conducive
for
V
.
harvest
rain,
efficiently.
might
relate
morphological
adaptations
resist
drought
consequent
formation
maintenance
self‐organizations
at
landscape
scale.
American Journal of Botany,
Год журнала:
2024,
Номер
111(8)
Опубликована: Март 3, 2024
Theory
predicts
that
mixed
ploidy
populations
should
be
short-lived
due
to
strong
fitness
disadvantages
for
the
rare
ploidy.
However,
are
common,
suggesting
costs
ploidies
counterbalanced
by
ecological
benefits
emerge
when
rare.
We
investigated
whether
differences
in
interactions
with
soil
microbes
help
maintain
a
tetraploid-hexaploid
population
of
Larrea
tridentata
(creosote
bush)
Sonoran
Desert,
California,
United
States,
where
prior
work
documented
ploidy-specific
root-associated
microbes.
Temporal
shifts
to
drier
climates
impose
environmental
stresses
on
plant
communities
that
may
result
in
community
reassembly
and
threatened
ecosystem
services,
but
also
trigger
self-organization
spatial
patterns
of
biota
resources,
which
act
relax
these
stresses.
The
complex
relationships
between
counteracting
processes
–
have
hardly
been
studied.
Using
a
spatio-temporal
model
dryland
trait-based
approach,
we
study
the
response
such
increasing
water-deficit
stress.
We
first
show
patterning
acts
reverse
from
fast-growing
species
stress-tolerant
species,
as
well
functional-diversity
loss.
then
buffers
impact
further
stress
structure.
Finally,
identify
multistability
ranges
uniform
patterned
states
use
them
propose
forms
non-uniform
management
integrate
need
for
provisioning
services
with
preserve
