Communications in Soil Science and Plant Analysis,
Journal Year:
2024,
Volume and Issue:
55(17), P. 2636 - 2650
Published: June 18, 2024
Soil
is
an
important
reservoir
of
innumerable
natural
and
biological
resources
fundamental
to
the
sustainability
life
earth's
functionality.
The
soil
complex
due
changing
biodiversity,
physicochemical
characteristics,
disturbances,
pedogenesis,
which
are
constituent
indices
required
for
measurement
its
healthiness.
Hence,
there
a
need
concertedly
protect
by
consciously
promoting
practices
behaviors
that
optimize
priority
functions
in
delivering
ecosystem
services.
It
further
significant
crop
yield,
hence
pay
more
attention
health.
healthiness
also
reflection
capacity
support
biogeochemical
processes,
abiotic
communities,
plant
animal
productions.
However,
agronomic
studies,
until
recently,
focused
on
use
chemical
indicators
determining
health,
despite
versatile
ecophysiological
role
microorganisms
formation,
resource
cycling,
management.
These
phenomena
expressed
microbial
communities
form
basis
conversion
diverse
organic
matters
into
bioutilizable
plants'
healthy
development.
This
review,
therefore,
explored
underlining
mechanisms,
particularly
climate
change-related,
caused
divergent
properties
how
this
impacted
composition
soil.
Likewise,
several
pieces
literature
physical
ecological
services,
were
compared
toward
innovative
best
management
improving
Water,
Journal Year:
2023,
Volume and Issue:
15(5), P. 913 - 913
Published: Feb. 27, 2023
Bioretention
cells
(BRCs)
are
a
promising
low-impact
development
(LID)
practice
that
commonly
used
in
urban
settings
to
improve
the
water
quality
and
mitigate
hydrological
effects
of
stormwater
runoff.
BRCs
have
been
subject
extensive
research
order
better
comprehend
their
function
effectiveness.
However,
BRC
performance
differs
greatly
among
regions
terms
hydrologic
enhancement.
Due
this
variance
effectiveness,
current
study
conducted
comprehensive
systematic
review
answer
question,
“Are
an
effective
LID
method
for
catchment
management?”.
This
analyzed
effectiveness
mitigating
impacts
enhancing
runoff
catchments.
A
114
field,
laboratory,
modeling
studies
on
found
may
be
one
most
successful
approaches
restore
hydrology
cycle
quality.
With
further
BRCs,
quantity
will
become
more
reliable,
helping
develop
long-term
solutions
drainage
issues.
At
end
review,
knowledge
gaps
future
prospects
presented.
In
addition
providing
foundational
grasp
BRC,
outlines
key
design
recommendations
implementation
address
issues
raised
by
certain
errors.
The Science of The Total Environment,
Journal Year:
2025,
Volume and Issue:
unknown, P. 178310 - 178310
Published: Jan. 1, 2025
We
present
the
results
of
a
1-year
study
that
quantified
salt
levels
in
stormwater,
soils,
and
plant
tissues
from
14
stormwater
detention
basins
across
Northern
VA
an
above-average
snow
year.
characterize
(1)
level
stress
plants
experience,
(2)
extent
to
which
current
communities
feature
tolerant
species,
(3)
capacity
these
species
phytoremediate
soils
reduce
impacts
deicer
anti-icer
use.
Our
suggest
basin
vegetation
experience
range
depend
on
drainage
area
type
(roads:
moderate
high
>
parking
lots:
low
pervious
areas:
none).
Established
thresholds
for
sensitive
(Na+,
Cl+,
electrical
conductivity,
sodium
adsorption
ratio,
exchangeable
percentage)
were
exceeded
at
least
twice
or
all
systems
draining
roads
half
lots.
Winter
exceedances
most
common,
but
saline
conditions
did
persist
into
growing
season,
particularly
sites
roads.
Two
hundred
fifty-five
identified
basins,
including
48
natives
capable
tolerating
elevated
(electrical
conductivity
≥2
dS/m).
Within-tissue
concentrations
chloride
ions
highest
Typha
(latifolia
angustifolia)
(11.1
mg
Na+/g;
30
Cl-/g),
making
it
our
top
phytoremediation
candidate.
Scaling
up,
we
estimate
standard-size
highway
(2000-3000
m2)
with
100
%
cattail
cover
can
up
kg
Na+
200
Cl-
per
Uptake
this
is
not
sufficient
offset
winter
application,
constituting
only
5-6
inputs.
This
suggests
should
be
considered
standalone
solution
salinization,
although
could
one
approach
many
broader
management
strategy.
Atmosphere,
Journal Year:
2024,
Volume and Issue:
15(4), P. 403 - 403
Published: March 25, 2024
Nature-based
solutions
(NbSs)
are
considered
to
form
an
innovative
stormwater
management
approach
that
has
living
resolutions
grounded
in
natural
processes
and
structures.
NbSs
offer
many
other
environmental
benefits
over
traditional
grey
infrastructure,
including
reduced
air
pollution
climate
change
mitigation.
This
review
predominantly
centers
on
the
hydrological
aspect
of
furnishes
a
condensed
summary
collective
understanding
about
as
alternatives
for
management.
In
this
study,
which
employed
CIMO
(Context,
Intervention,
Mechanism,
Outcome)
framework,
corpus
187
NbS-related
publications
(2000–2023)
extracted
from
Web
Science
database
were
used,
we
expounded
upon
origins,
objectives,
significance
urban
runoff
change,
operational
mechanisms
(including
green
roofs,
permeable
pavements,
bioretention
systems,
constructed
wetlands),
widely
used
management,
also
discussed.
Additionally,
efficacy
improving
quality
quantity
is
discussed
depth
study.
particular,
critical
role
reducing
nutrients
such
TSS,
TN,
TP,
COD
heavy
metal
pollutants
Fe,
Cu,
Pb,
Zn
emphasized.
Finally,
main
barriers
encountered
promotion
application
different
countries
regions,
financial,
technological
physical,
regulatory,
public
awareness,
listed,
future
directions
strategizing
NbS
implementation
proposed.
gathered
knowledge
diverse
sources
provide
overview
NbSs,
enhancing
comprehension
their
applications.
It
underscores
specific
areas
requiring
research
attention.
