Soil Science Society of America Journal,
Год журнала:
2024,
Номер
88(2), С. 326 - 338
Опубликована: Фев. 19, 2024
Abstract
Soil
biology
is
vital
for
maintaining
productivity,
enhancing
soil
health,
and
creating
resilient
agroecosystems.
However,
many
questions
remain
on
how
microbial
communities
are
impacted
by
different
properties
management
practices,
especially
grower‐managed
fields.
This
study
examined
biological
health
(0–15
cm)
field
history
data
from
310
fields
within
Michigan
between
Fall
2019
Spring
2021.
The
objectives
were
to
evaluate
the
impact
of
texture,
tillage,
crop
diversity
populations
examine
relationship
indicators
community.
Phospholipid
fatty
acid
analysis
was
used
estimate
total
abundance
composition
broad
taxonomic
groups
like
bacteria,
fungi,
arbuscular
mycorrhizal
actinomycetes,
eukaryotes.
Other
measured
organic
carbon,
permanganate
oxidizable
potentially
mineralizable
nitrogen,
phosphorus,
calcium,
potassium,
magnesium,
water‐stable
aggregation.
texture
did
not
significantly
influence
community
except
which
higher
in
fine‐textured
soils.
Tillage
had
largest
communities,
with
lower
values
all
microbes
tilled
compared
no‐till
Crop
a
minimal
impact,
affecting
only
fungi
eukaryote
populations.
All
positively
associated
phosphorous,
negative
correlation
(
r
=
−0.56
−0.66).
Overall,
we
conclude
that
tillage
dominant
driver
across
Michigan.
Consequently,
adoption
practices
where
possible
can
help
restore
long‐term
sustainability
Smart Agricultural Technology,
Год журнала:
2024,
Номер
8, С. 100487 - 100487
Опубликована: Июнь 11, 2024
The
article
provides
a
comprehensive
review
of
the
use
Internet
Things
(IoT)
in
agriculture,
along
with
its
advantages
and
disadvantages.
However,
it's
important
to
recognize
that
IoT
holds
immense
potential
for
generating
new
ideas
could
drive
innovations
modern
agriculture
address
several
challenges
faced
by
farmers
today.
Applications
such
as
smart
irrigation,
precision
farming,
crop
soil
tracking,
greenhouses,
supply
chain
management,
livestock
monitoring,
agricultural
drones,
pest
disease
prevention,
farm
machinery
are
among
areas
considered
implementation
this
paper.
These
innovative
solutions
have
revolutionize
farming
practices,
improve
efficiency,
reduce
resource
wastage,
ultimately
enhance
productivity
sustainability.
analysis
examines
each
application
terms
utility
outlines
measures
necessary
effectiveness.
Key
considerations
include
addressing
connectivity
issues,
managing
costs,
ensuring
data
security
privacy,
scaling
appropriately,
effectively
data,
promoting
awareness
adoption
tools.
Despite
these
challenges,
offers
numerous
benefits
sector.
paper
underscores
importance
collaboration
farmers,
technology
companies,
academia,
policymakers
issues
fully
harness
IoT.
To
achieve
goal,
ongoing
research,
development,
acceptance
IoT-driven
essential
sustain
viable
option
amidst
emerging
climate
change
scarcity.
Current Research in Microbial Sciences,
Год журнала:
2024,
Номер
7, С. 100251 - 100251
Опубликована: Янв. 1, 2024
The
adoption
of
sustainable
agricultural
practices
is
increasingly
imperative
in
addressing
global
food
security
and
environmental
concerns,
with
microbial
based
bio-inoculums
emerging
as
a
promising
approach
for
nurturing
soil
health
fostering
crop
production.This
review
article
explores
the
potential
bio-inoculumsor
biofertilizers
transformative
toenhance
plant
disease
resistance
growth.
It
commercial
prospects
biofertilizers,
highlighting
their
role
concerns
associated
conventional
fertilizers
while
meeting
growing
demand
eco-friendly
practices.
Additionally,
this
discusses
future
emphasizing
ongoing
advancements
biotechnology
formulation
techniques
that
are
expected
to
enhance
efficacy
applicability.
Furthermore,
provides
insights
into
strategies
successful
acceptance
among
farmers,
including
importance
quality
control,
assurance,
education
initiatives
raise
awareness
about
benefits
overcome
barriers
adoption.
By
synthesizing
current
research
findings
industrial
developments,
offers
valuable
guidance
stakeholders
seeking
exploit
or
beneficial
microbes
promote
health,
ensure
production,
challenges
modern
agriculture.
Ecotoxicology and Environmental Safety,
Год журнала:
2025,
Номер
289, С. 117703 - 117703
Опубликована: Янв. 1, 2025
Understanding
the
complex
interactions
of
plants
and
soils
in
face
global
food
security
environmental
degradation
challenges
is
critical
to
future
sustainable
agriculture.
This
review
discusses
important
link
between
soil
health
crop
productivity
by
providing
comprehensive
assessment
properties
management
methods.
By
examining
physical,
chemical,
biological
soil,
it
uncovers
key
limitations
posed
environment
on
growth.
The
highlights
how
texture,
nutrient
availability,
moisture
levels
directly
impact
root
growth,
water
uptake,
use
efficiencies,
while
also
exploring
diverse
cropping
systems
enhance
ecology
biodiversity.
utilizing
state-of-the-art
bioinformatics,
we
offer
an
in-depth
exploration
rhizosphere
microbial
communities,
emphasizing
functions
phosphate-solubilizing
nitrogen-fixing
bacteria
promoting
vital
cycles.
potential
using
fertilizers
increase
resistance
disease
stress
hold
a
major
premise
for
sustainability
In
this
regard,
long-term
impacts
cultivation
diversity,
revealing
intricate
selection
processes
crops
their
partners
shaping
crop-soil-microbe
interactions.
terms
management,
practical
strategies
are
proposed
based
testing,
benefits
organic
farming
conservation
tillage
health.
Modern
precision
agricultural
tools
remote
sensing
technologies
encouraged
be
refined
effective
management.
At
policy
level,
evaluate
international
guidelines
aimed
at
fostering
sustainability,
suggesting
new
research
pathways
crop-soil
dynamics
offering
approaches
developing
indicators
challenges.
Global Change Biology,
Год журнала:
2025,
Номер
31(2)
Опубликована: Фев. 1, 2025
Understanding
the
intricate
interplay
between
plant
and
soil
microbiomes
their
effects
on
growth
productivity
is
vital
in
a
rapidly
changing
climate.
This
review
explores
interconnected
impacts
of
climate
change
plant-soil
profound
agricultural
productivity.
The
ongoing
rise
global
temperatures,
shifting
precipitation
patterns
extreme
weather
events
significantly
affect
composition
function
microbial
communities
rhizosphere.
Changes
diversity
activity
due
to
rising
temperatures
impact
nutrient
cycling,
enzyme
synthesis,
health
pest
disease
management.
These
changes
also
influence
dynamics
microbe
capability
promote
health.
As
changes,
plants'
adaptive
capacity
partners
become
increasingly
crucial
for
sustaining
agriculture.
Mitigating
adverse
requires
comprehensive
understanding
mechanisms
driving
these
processes.
It
highlights
various
strategies
mitigating
adapting
environmental
challenges,
including
management,
stress-tolerant
crops,
cover
cropping,
sustainable
land
water
crop
rotation,
organic
amendments
development
climate-resilient
varieties.
emphasises
need
further
exploration
within
broader
context
change.
Promising
mitigation
strategies,
precision
agriculture
targeted
microbiome
modifications,
offer
valuable
pathways
future
research
practical
implementation
food
security
Abstract
Soil
hosts
diverse
microbial
communities
including
bacteria,
fungi,
archaea,
protozoans
and
nematodes
among
others,
which
are
fundamental
to
sustainable
agriculture
drive
essential
processes
that
underpin
soil
fertility,
plant
health,
ecosystem
resilience.
They
promote
growth
through
mechanisms
like
nitrogen
fixation,
phosphorus
solubilization,
production
of
growth-promoting
substances,
enhancement
nutrient
uptake,
improvement
structure
detoxification
harmful
substances.
Recently,
there
has
been
increasing
interest
in
utilizing
microorganisms
improve
health
boost
efficiency,
despite
limited
understanding
diversity,
microbe-plant
interactions,
translating
laboratory
findings
field
conditions.
This
is
driven
by
the
urgent
need
feed
growing
global
population,
placing
pressure
on
arable
land
produce
high-quality
yields.
Conventionally,
synthetic
fertilizers
have
extensively
used
provide
nutrients,
growth,
increase
crop
productivity.
Although
revolutionized
since
green
revolution,
their
overuse
significantly
harmed
reduced
review
synthesizes
current
knowledge
microbes
influence
agricultural
practices,
with
a
focus
cycling
plant–microbe
interactions.
We
discuss
functions
important
groups,
such
as
nitrogen-fixing
phosphorus-solubilizing
bacteria
(PSB),
fungi.
Furthermore,
we
factors
highlight
gaps
future
research
maximize
potential
use
agriculture.
Understanding
significance
key
increases
harnessing
vital
contributors
Critical Reviews in Environmental Science and Technology,
Год журнала:
2023,
Номер
53(18), С. 1684 - 1708
Опубликована: Фев. 23, 2023
AbstractRemoving
recalcitrant
organic
contaminants
from
the
soil
via
sustainable
and
environmentally
friendly
technologies
are
essential
for
environment
human
health.
Microbial
enzyme
is
a
promising
biocatalyst,
particularly
in
environmental
bioremediation.
To
improve
their
stability
catalytic
ability,
enzymes
often
immobilized
on
supporting
materials.
Nevertheless,
most
appropriate
immobilization
technology
materials
must
be
selected
advance
to
achieve
high
eco-remediation
efficiency.
This
review
highlighted
recent
advances
provided
future
perspectives
of
techniques
materials,
with
particular
attention
ensuring
basic
features
possibilities
contaminated
soil.
The
bioavailability,
biodegradability
cost
carriers
have
limited
industrial
application
commercialization
remediation
soil,
which
was
hereby
thoroughly
reviewed.
Finally,
directions,
including
minimizing
production
costs,
inexpensive
scalable
carriers,
methods,
were
offer
new
soil.HIGHLIGHTSImmobilized
approaches
classified
introduced.Immobilized
tremendous
potential
eco-remediation.The
main
mechanism
presence
suitable
microenvironment.Bioavailability,
accessibility
large-scale
applications.Future
directions
proposed.Keywords:
Eco-remediationenzyme
immobilizationimmobilization
technologyorganic
contaminantssoil
remediationsupporting
materialsHANDLING
EDITORS:
Frederic
Coulon
Lena
Q.
Ma
Disclosure
statementNo
conflict
interest
reported
by
authors.Additional
informationFundingThe
authors
gratefully
acknowledge
financial
supports
National
Key
R
&
D
Program
Science
Technology
China
(2020YFC1808801),
Beijing
Postdoctoral
Research
Foundation
(2022ZZ124),
Fundamental
Funds
University
Civil
Engineering
Architecture
(X22017).