Methane,
Год журнала:
2023,
Номер
2(3), С. 279 - 303
Опубликована: Июль 19, 2023
Methane,
a
potent
greenhouse
gas,
has
gained
significant
attention
due
to
its
environmental
impact
and
economic
potential.
Chemical
industries
have
focused
on
specialized
catalytic
systems,
like
zeolites,
convert
methane
into
methanol.
However,
inherent
limitations
in
selectivity,
irreversibility,
pore
blockages
result
high
costs
energy
requirements,
thus
hindering
their
commercial
viability
profitability.
In
contrast,
biological
conversion
using
methanotrophs
emerged
as
promising
alternative,
offering
higher
rates,
self-renewability,
improved
economically
feasible
upstream
processes.
Nevertheless,
oxidation
encounters
challenges
including
the
difficulty
cultivating
slow
growth
which
hinder
large-scale
bioprocessing.
Another
highlighted
limitation
is
limited
mass
transfer
of
liquid
bioreactors.
Practical
strategies
enhance
optimizing
reactor
design
improve
transfer,
altering
metal
concentrations,
genetic
engineering
monooxygenases,
enzyme
encapsulation,
utilizing
microbial
consortia
are
discussed.
By
addressing
chemical
approaches
highlighting
potential
methods,
review
concluded
that
utilization
genetically
engineered
methanotrophic
biofilms
beads
within
biotrickling
reactor,
along
with
enhanced
aeration
will
likely
subsequent
rates.
Microorganisms,
Год журнала:
2021,
Номер
9(2), С. 426 - 426
Опубликована: Фев. 19, 2021
A
growing
body
of
evidence
demonstrates
the
potential
various
microbes
to
enhance
plant
productivity
in
cropping
systems
although
their
successful
field
application
may
be
impaired
by
several
biotic
and
abiotic
constraints.
In
present
work,
we
aimed
at
developing
multifunctional
synthetic
microbial
consortia
used
combination
with
suitable
bioactive
compounds
for
improving
crop
yield
quality.
Plant
growth-promoting
microorganisms
(PGPMs)
different
functional
attributes
were
identified
a
bottom-up
approach.
comprehensive
literature
survey
on
PGPMs
associated
maize,
wheat,
potato
tomato,
commercial
formulations,
was
conducted
examining
peer-reviewed
scientific
publications
results
from
relevant
European
projects.
Metagenome
fragment
recruitments
genomes
represented
databases
also
performed
help
identify
(PGP)
strains.
Following
ability
coexist,
isolated
synthetically
assembled
into
three
consortia.
Additionally,
effects
growth
individually
tested
starvation
conditions.
The
products
based
non-microbial
biostimulants
(BS)
appear
worth
considering
greenhouse
open
trials
select
those
potentially
adoptable
sustainable
agriculture.
Engineering in Life Sciences,
Год журнала:
2022,
Номер
23(1)
Опубликована: Апрель 14, 2022
The
application
of
artificial
microbial
consortia
for
biotechnological
production
processes
is
an
emerging
field
in
research
as
it
offers
great
potential
the
improvement
established
well
development
novel
processes.
In
this
review,
we
summarize
recent
highlights
usage
various
of,
example,
platform
chemicals,
biofuels,
or
pharmaceutical
compounds.
It
aims
to
demonstrate
co-cultures
by
employing
different
organisms
and
interaction
mechanisms
exploiting
their
respective
advantages.
Bacteria
yeasts
often
offer
a
broad
spectrum
possible
products,
fungi
enable
utilization
complex
lignocellulosic
substrates
via
enzyme
secretion
hydrolysis,
microalgae
can
feature
abilities
fixate
CO
Frontiers in Bioengineering and Biotechnology,
Год журнала:
2023,
Номер
11
Опубликована: Фев. 10, 2023
Plant
Growth
Promoting
Rhizobacteria
(PGPR)
has
gained
immense
importance
in
the
last
decade
due
to
its
in-depth
study
and
role
of
rhizosphere
as
an
ecological
unit
biosphere.
A
putative
PGPR
is
considered
only
when
it
may
have
a
positive
impact
on
plant
after
inoculation.
From
various
pieces
literature,
been
found
that
these
bacteria
improve
growth
plants
their
products
through
growth-promoting
activities.
microbial
consortium
effect
(PGP)
activities
evident
by
literature.
In
natural
ecosystem,
rhizobacteria
interact
synergistically
antagonistically
with
each
other
form
consortium,
but
there
are
oscillating
environmental
conditions
affect
potential
mechanism
consortium.
For
sustainable
development
our
environment,
utmost
necessity
maintain
stability
rhizobacterial
fluctuating
conditions.
decade,
studies
conducted
design
synthetic
helps
integrate
cross-feeding
over
strains
reveal
social
interactions.
this
review,
authors
emphasized
covering
all
designing
consortiums,
strategies,
mechanism,
application
field
ecology
biotechnology.
Journal of Applied Microbiology,
Год журнала:
2022,
Номер
133(5), С. 2742 - 2759
Опубликована: Авг. 30, 2022
Abstract
Presently,
agriculture
worldwide
is
facing
the
major
challenge
of
feeding
increasing
population
sustainably.
The
conventional
practices
have
not
only
failed
to
meet
projected
needs,
but
also
led
tremendous
environmental
consequences.
Hence,
ensure
a
food-secure
and
environmentally
sound
future,
thrust
on
sustainable
alternatives.
Due
challenges
associated
with
means
application
biocontrol
agents
in
management
biotic
stresses
agroecosystems,
significant
transformations
this
context
are
needed.
crucial
role
played
by
soil
microbiome
efficiently
sustainably
managing
agricultural
production
has
unfolded
newer
approach
rhizosphere
engineering
that
shows
immense
promise
mitigating
an
eco-friendly
manner.
strategy
generating
synthetic
microbial
communities
(SynComs),
integrating
omics
approaches
traditional
techniques
enumeration
in-depth
analysis
plant–microbe
interactions,
encouraging.
review
discusses
significance
rhizospheric
plant's
fitness,
its
manipulation
for
enhancing
plant
attributes.
focus
critically
analyse
potential
tools
design
utilization
SynComs
as
ameliorate
plants.
Furthermore,
based
synthesis
reports
area,
we
put
forth
possible
solutions
some
critical
issues
impair
large-scale
agriculture.
Pure and Applied Chemistry,
Год журнала:
2022,
Номер
94(10), С. 1161 - 1194
Опубликована: Окт. 1, 2022
Abstract
Pesticides
constitute
an
integral
part
of
modern
agriculture.
However,
there
are
still
concerns
about
their
effects
on
non-target
organisms.
To
address
this
the
European
Commission
has
imposed
a
stringent
regulatory
scheme
for
new
pesticide
compounds.
Assessment
aquatic
toxicity
pesticides
is
based
range
advanced
tests.
This
does
not
apply
to
terrestrial
ecosystems,
where
soil
microorganisms,
outdated
and
crude
test
(N
mineralization).
gap
reinforced
by
recent
methodological
standardization
advances
in
microbial
ecology.
The
inclusion
such
standardized
tools
revised
risk
assessment
will
enable
accurate
estimation
microorganisms
associated
ecosystem
services.
In
review
we
(i)
summarize
work
point
ammonia-oxidizing
(AOM)
arbuscular
mycorrhizal
fungi
(AMF)
as
most
relevant
bioindicator
groups
(ii)
identify
limitations
experimental
approaches
used
propose
mitigation
solutions,
(iii)
scientific
gaps
(iv)
procedure
assess
microorganisms.
