Frontiers in Ecology and the Environment,
Journal Year:
2021,
Volume and Issue:
19(6), P. 326 - 333
Published: May 3, 2021
Overcoming
challenges
of
water
scarcity
necessitates
creative
flow
management
approaches
that
account
for
multiple,
potentially
competing
needs
plants
and
animals
in
river
ecosystems.
Mechanistic
multispecies
models
can
guide
decision
making
by
evaluating
trade‐offs
associated
with
regimes
designed
specific
ecosystem
outcomes
before
implementation.
We
investigated
the
cross‐ecosystem
effects
environmental
to
benefit
focal
groups
riparian
vegetation,
fishes,
invertebrates.
The
revealed
among
different
designer
narrow
taxonomic
targets,
which
some
cases
caused
non‐target
taxa
become
locally
extirpated
within
short
(decadal)
timespans.
By
incorporating
multiple
frequencies
–
from
intra‐annual‐scale
pulses
large
decadal‐scale
floods
simulated
natural
regime
enabled
balanced,
albeit
smaller,
population
sizes
across
three
components:
72%
achieved
regimes,
on
average.
Although
returning
a
may
not
be
possible
highly
flow‐modified
rivers,
novel
must
incorporate
diverse
flood
drought
accommodate
occasionally
conflicting
requirements
at
times.
Geography and sustainability,
Journal Year:
2020,
Volume and Issue:
1(2), P. 98 - 108
Published: May 6, 2020
As
the
world's
top
two
economies,
United
States
(U.S.)
and
China
face
a
number
of
similar
water
resources
problems.
Yet,
few
studies
have
been
done
to
systematically
compare
policies
approaches
on
management
between
U.S.
This
study
compares
in
areas
national
authority,
supply,
quality,
ecosystem
use
draw
lessons
learned
shed
light
China,
U.S.,
rest
world.
The
from
comparison
include
six
aspects.
1)
New
paradigms
people-water
harmony
water-saving
society
are
urgently
needed
address
pressing
crisis
achieve
Nations
Sustainable
Development
Goals
(UN
SDGs).
2)
A
comprehensive,
consistent,
forward-looking
policy
is
necessary
sustainable
resources.
3)
Empowerment
river
basin
commissions
with
comprehensive
authority
over
integrative
air,
land,
water,
biological
could
significantly
enhance
benefits
effectiveness
economic
development
environmental
protection.
4)
Expansion
exchange
through
market
mechanisms
among
users
promotes
efficient
beneficial
uses.
5)
Use
for
services
should
be
an
integral
part
management.
has
set
up
blueprint
achieving
ecological
civilization;
maintaining
appropriate
amounts
flow
rivers
lakes
maintenance
wildlife
fisheries
ecosystems
institutionalized
as
this
strategy
well.
6)
By
sharing
their
rich
experiences
management,
development,
protection
other
countries,
can
help
world
global
human-water
UN
SDGs.
Ecohydrology,
Journal Year:
2020,
Volume and Issue:
13(8)
Published: Aug. 28, 2020
Abstract
River
health
is
sustained
by
time‐based
variation
in
their
flows,
and
the
maintenance
of
natural
flow
regime
essential
for
keeping
rivers
healthy.
However,
dynamism
now
stands
altered
changing
climate,
omnipresent
regulation
river
flows
throughout
world
has
severely
impacted
health.
It
well
documented
that
harnessing
altering
streams
comes
at
a
huge
cost.
Numerous
have
stopped
supporting
socially
economically
important
native
species
or
sustain
vibrant
ecosystems
offer
valuable
goods
services.
The
alteration
led
to
collapse
many
healthy
resilient
world.
Therefore,
ensure
appropriate
naturalized
regimes
riverine
organisms
sustainable
nexus
between
energy
demand,
water
requirements
more
understanding
required
study
consequences
triggered
climate
change
anthropogenic
interventions.
Moreover,
conservation
management
practices
must
be
firmly
based
on
scientific
principles
restore
integrity
ecosystems.
current
approaches
often
fail
take
into
consideration
basic
fundamental
principle
ecosystem
largely
determined
dynamic
character
regimes.
In
this
synthesis,
we
try
explain
how
an
requirement
maintaining
Proceedings of the National Academy of Sciences,
Journal Year:
2021,
Volume and Issue:
118(27)
Published: June 21, 2021
As
climate
change
unfolds,
changes
in
population
dynamics
and
species
distribution
ranges
are
expected
to
fundamentally
reshuffle
communities
worldwide.
Yet,
a
comprehensive
understanding
of
the
mechanisms
extent
community
reorganization
remains
elusive.
This
is
particularly
true
riverine
systems,
which
simultaneously
exposed
changing
temperature
streamflow,
where
land-use
continues
be
major
driver
biodiversity
loss.
Here,
we
use
most
compilation
fish
abundance
time
series
date
provide
global
synthesis
climate-
LU-induced
effects
on
biota
with
respect
thermal
streamflow
affinities.
We
demonstrate
that
increasingly
dominated
by
thermophilic
(warm-water)
limnophilic
(slow-water)
species.
Despite
being
consistent
trends
water
observed
over
recent
decades,
these
appear
largely
decoupled
from
each
other
show
wide
spatial
variation.
further
reveal
synergy
among
land
use-related
drivers,
such
thermophilization
heightened
more
human-modified
systems.
Importantly,
experience
flow
regimes
approach
or
exceed
their
tolerance
thresholds
(high
sensitivity),
as
well
species-poor
(low
resilience),
also
display
faster
rates
compositional
change.
research
illustrates
quantifying
vulnerability
systems
requires
broadening
narrower
focus
integrative
approaches
account
for
spatially
varying
multifaceted
sensitivity
organisms
interactive
temperature,
hydrology,
anthropogenic
changes.
Frontiers in Ecology and the Environment,
Journal Year:
2021,
Volume and Issue:
19(6), P. 326 - 333
Published: May 3, 2021
Overcoming
challenges
of
water
scarcity
necessitates
creative
flow
management
approaches
that
account
for
multiple,
potentially
competing
needs
plants
and
animals
in
river
ecosystems.
Mechanistic
multispecies
models
can
guide
decision
making
by
evaluating
trade‐offs
associated
with
regimes
designed
specific
ecosystem
outcomes
before
implementation.
We
investigated
the
cross‐ecosystem
effects
environmental
to
benefit
focal
groups
riparian
vegetation,
fishes,
invertebrates.
The
revealed
among
different
designer
narrow
taxonomic
targets,
which
some
cases
caused
non‐target
taxa
become
locally
extirpated
within
short
(decadal)
timespans.
By
incorporating
multiple
frequencies
–
from
intra‐annual‐scale
pulses
large
decadal‐scale
floods
simulated
natural
regime
enabled
balanced,
albeit
smaller,
population
sizes
across
three
components:
72%
achieved
regimes,
on
average.
Although
returning
a
may
not
be
possible
highly
flow‐modified
rivers,
novel
must
incorporate
diverse
flood
drought
accommodate
occasionally
conflicting
requirements
at
times.
