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
Journal of Sustainable Water in the Built Environment,
Journal Year:
2023,
Volume and Issue:
9(2)
Published: Jan. 12, 2023
Bioretention
is
a
popular
stormwater
control
measure
(SCM)
with
limited
information
regarding
the
impact
of
compost
addition
to
media.
Although
combined
bioretention
soil
media
(BSM)
has
potential
for
increased
pollutant
removal
and
water
storage,
it
also
may
leach
harmful
nutrients.
This
project
analyzes
effects
incorporating
two
forms
compost,
biosolids-derived
green
waste–derived,
at
compost-BSM
ratios,
on
nutrients
performance;
aluminum-based
treatment
residual
(WTR)
was
evaluated.
mesocosm
column
studies
compared
leaching/removal
standard
BSM
(sand,
topsoil,
hardwood
mulch)
mixed
15%
30%
(biosolids
waste)
as
well
tap
water–washed
biosolids
green-waste
+
WTR.
Synthetic
applied
columns
effluent
analyzed
total
nitrogen
(TN),
phosphorus
(TP),
their
speciation.
All
compost-amended
leached
greater
TN
(2.1-fold
67-fold)
TP
(2.8-fold
19-fold)
concentrations
than
BSM-only,
leaching
most
largely
due
exported
within
initial
flush,
but
continued
mineralization
organic
matter,
resulting
in
constant
2-fold
21-fold
1.3-fold
28-fold
BSM.
Initial
washout
fines
contributed
discharge.
Based
results
from
this
study,
not
recommended.
Unamended
produced
nutrient
input
stormwater.
The Science of The Total Environment,
Journal Year:
2023,
Volume and Issue:
876, P. 162749 - 162749
Published: March 10, 2023
Phosphorus
(P)
export
from
urban
areas
via
stormwater
runoff
contributes
to
eutrophication
of
downstream
aquatic
ecosystems.
Bioretention
cells
are
a
Low
Impact
Development
(LID)
technology
promoted
as
green
solution
attenuate
peak
flow
discharge,
well
the
excess
nutrients
and
other
contaminants.
Despite
their
rapidly
growing
implementation
worldwide,
predictive
understanding
efficiency
bioretention
in
reducing
P
loadings
remains
limited.
Here,
we
present
reaction-transport
model
simulate
fate
transport
cell
facility
greater
Toronto
metropolitan
area.
The
incorporates
representation
biogeochemical
reaction
network
that
controls
cycling
within
cell.
We
used
diagnostic
tool
determine
relative
importance
processes
immobilizing
predictions
were
compared
multi-year
observational
data
on
1)
outflow
loads
total
(TP)
soluble
reactive
(SRP)
during
2012-2017
period,
2)
TP
depth
profiles
collected
at
4
time
points
2012-2019
3)
sequential
chemical
extractions
performed
core
samples
filter
media
layer
obtained
2019.
Results
indicate
exfiltration
underlying
native
soil
was
principally
responsible
for
decreasing
surface
water
discharge
(63
%
reduction).
From
2012
2017,
cumulative
SRP
only
accounted
1
2
corresponding
inflow
loads,
respectively,
hence
demonstrating
extremely
high
reduction
this
Accumulation
predominant
mechanism
loading
(57
retention
load)
followed
by
plant
uptake
(21
retention).
Of
retained
layer,
48
occurred
stable,
41
potentially
mobilizable,
11
easily
mobilizable
forms.
There
no
signs
capacity
approaching
saturation
after
7
years
operation.
modeling
approach
developed
here
can
principle
be
transferred
adapted
fit
designs
hydrological
regimes
estimate
reductions
range
temporal
scales,
single
precipitation
event
long-term
(i.e.,
multi-year)
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
