Processes,
Год журнала:
2024,
Номер
12(2), С. 396 - 396
Опубликована: Фев. 16, 2024
The
increased
concentration
of
CO2
in
the
atmosphere
has
a
strong
impact
on
global
warming.
Therefore,
efficient
technologies
must
be
used
to
reduce
emissions.
One
methods
is
biofixation
by
microalgae
and
cyanobacteria.
This
now
widely
described
technology
that
can
improve
economics
biomass
production
There
are
no
reports
possibility
using
it
clean
exhaust
gases
from
biogas
combustion.
aim
research
was
determine
Arthrospira
platensis
cultures
remove
efficiency
effectiveness
biological
fixation
were
evaluated.
use
led
more
increase
cyanobacterial
biomass.
growth
rate
exponential
phase
209
±
17
mgVS/L·day,
allowing
2040
49
mgVS/L.
However,
decrease
pH
culture
medium
rapid
decline
population.
cyanobacteria
effectively
fixed
CO2,
its
limited
13
1%
1.3
0.7%.
influence
changes
qualitative
composition
In
fed
with
gas,
A.
population
quickly
entered
death
phase,
which
requires
close
monitoring.
an
important
indication
for
potential
operators
large-scale
photobioreactors.
Green Chemistry Letters and Reviews,
Год журнала:
2024,
Номер
17(1)
Опубликована: Июнь 6, 2024
Heavy
metal
compounds
are
used
in
a
variety
of
industrial
processes,
including
tanning,
chrome
plating,
anti-corrosion
treatments,
and
wood
preservation.
ion
pollution
water
wastewater
is
often
caused
by
effluent
discharge
into
open
sources.
Toxic
heavy
ions
such
as
As
(III),
Cr
(VI),
Cd
(II),
Pb
(II)
well-known
enter
the
body
through
pathways,
food
chain,
respiration,
skin
absorption,
drinking
water.
These
produce
oxidative
stress
cells,
resulting
cell
organelle
destruction.
metals
toxicity
may
cause
genetic
material
mutation
or
change,
histone
modification,
epigenetic
alteration
at
various
stages.
Furthermore,
linked
to
heart
failure,
renal
damage,
liver
problems.
For
cleanup,
several
standard
approaches
utilized.
Nonetheless,
these
technologies
costly
result
toxic
sludge
after
treatment.
result,
there
an
urgent
need
for
appropriate,
environmentally
safe,
efficient
removal
technology.
removal,
microbial-based
regarded
both
benign
cost-effective.
This
review
focuses
on
water,
its
harmful
consequences,
cleanup
microbiological
means.
The
unintended
consequences
of
introducing
nontarget
organisms
into
a
new
habitat
are
major
cause
worry
as
they
can
have
negative
impact
on
biodiversity
and
ecosystem
function.
Microbial
inoculants
typically
expected
to
targeted
effect
specific
functions
but
less
impacts
resident
microbial
population,
whereas
invasive
macroorganisms
the
focus
these
studies.
As
become
increasingly
important
for
attaining
sustainable
agricultural
productivity,
it
is
crucial
note
that
often
interact
with
native
communities,
potentially
impacting
processes.
This
chapter
will
give
broad
view
influence
some
upon
soil
population.
International Journal of Molecular Sciences,
Год журнала:
2023,
Номер
24(8), С. 7227 - 7227
Опубликована: Апрель 13, 2023
Plant
growth-promoting
bacteria
(PGPB)
can
promote
plant
growth
in
various
ways,
allowing
PGPB
to
replace
chemical
fertilizers
avoid
environmental
pollution.
is
also
used
for
bioremediation
and
pathogen
control.
The
isolation
evaluation
of
are
essential
not
only
practical
applications,
but
basic
research.
Currently,
the
known
strains
limited,
their
functions
fully
understood.
Therefore,
mechanism
needs
be
further
explored
improved.
Bacillus
paralicheniformis
RP01
strain
with
beneficial
activity
was
screened
from
root
surface
Brassica
chinensis
using
a
phosphate-solubilizing
medium.
inoculation
significantly
increased
length
brassinosteroid
content
upregulated
expression
growth-related
genes.
Simultaneously,
it
number
that
promoted
reduced
detrimental
bacteria.
genome
annotation
findings
revealed
possesses
variety
mechanisms
tremendous
potential.
This
study
isolated
highly
potential
elucidated
its
possible
direct
indirect
mechanisms.
Our
results
will
help
enrich
library
provide
reference
plant-microbe
interactions.
Plants,
Год журнала:
2024,
Номер
13(10), С. 1323 - 1323
Опубликована: Май 11, 2024
Global
food-production
levels
may
soon
be
insufficient
for
feeding
the
population,
and
changing
climatic
conditions
could
further
limit
agri-food
production
[...]
Journal of Xenobiotics,
Год журнала:
2024,
Номер
14(1), С. 79 - 95
Опубликована: Янв. 2, 2024
Metsulfuron-methyl,
a
widely
used
herbicide,
could
cause
damage
to
the
sensitive
plants
in
crop-rotation
systems
at
extremely
low
levels
soil.
The
potential
of
plant
growth-promoting
bacteria
(PGPB)
for
enhancing
resistance
against
herbicide
stress
has
been
discovered
recently.
Therefore,
it
is
poorly
understood
how
physiological
processes
occur
plants,
while
PGPB
reduce
phytotoxicity
herbicides
agricultural
crops.
In
greenhouse
studies,
effect
strains
Pseudomonas
protegens
DA1.2
and
chlororaphis
4CH
on
oxidative
damage,
acetolactate
synthase
(ALS),
enzymatic
non-enzymatic
antioxidants
canola
(Brassica
napus
L.),
wheat
(Triticum
aestivum
L.)
were
investigated
under
two
(0.05
0.25
mg∙kg-1)
metsulfuron-methyl
using
spectrophotometric
assays.
inoculation
herbicide-exposed
with
significantly
increased
shoots
fresh
weight
(24-28%),
amount
glutathione
GSH
(60-73%),
flavonoids
(5-14%),
as
well
activity
ascorbate
peroxidase
(129-140%),
superoxide
dismutase
SOD
(35-49%),
ALS
(50-57%).
Bacterial
treatment
stimulated
(37-94%),
(65-73%),
reductase
(19-20%),
accumulation
(61-261%),
(17-22%),
(27-33%)
canola.
Simultaneous
prevented
lipid
peroxidation
induced
by
plants.
Based
findings,
possible
that
protective
role
bacterial
metsulfuron-metil
linked
antioxidant
system
activation.
The Open Agriculture Journal,
Год журнала:
2024,
Номер
18(1)
Опубликована: Янв. 8, 2024
Ukraine
is
one
of
the
largest
producers
vegetable
products
in
world.
The
sustainable
development
this
industry
vital
for
food
security
many
countries
worldwide.
Recently,
farmers
are
facing
challenge
increasing
number
and
severity
bacterial
diseases.
This
problem
getting
particularly
harsh
production
vegetables.
changing
climatic
conditions
regions
contribute
to
increase
aggressiveness
pathogens.
also
experiencing
negative
consequences
rising
temperatures,
changes
amount
quality
precipitation,
stronger
winds.
These
factors
facilitate
stable
spread
In
Ukraine,
they
result
emergence,
successful
acclimatization
new
pathogens
crops,
particular,
Ralstonia
solanacearum
.
growing
risk
diseases
requires
strategies
control
their
causative
agents,
which
should,
at
same
time,
meet
requirements
environmental
safety.
paper
aimed
analyse
potential
plant
growth-promoting
bacteria
(PGPB)
based
bioformulations
crops
Ukraine.
Farmers
who
engaged
vegetables,
feel
lack
biocontrol
compositions
against
agents
because
range
with
antibacterial
activity
approved
use
country
limited.
most
commonly
used
protection
represented
by
preparations
on
genera
Bacillus
Pseudomonas
Most
such
market
those
developed
manufactured
Under
given
circumstances,
inoculants
PGPB
as
well
globally,
seems
very
promising.
Such
prevent
contamination
plants
phytopathogens
inducing
acquired
systemic
resistance
stimulating
growth
better
productivity.
Seed
inoculation
a
promising
way
using
crop
production.
farming
limited
shelf
life.
It
still
experiences
shortage
up-to-date
preparation
forms
that
would
ensure
long-term
viability
prolonged
them.
Thus,
introduction
encapsulated
nanopreparations
may
solving
biological
Plants,
Год журнала:
2024,
Номер
13(16), С. 2309 - 2309
Опубликована: Авг. 20, 2024
Plant-growth-promoting
bacteria
(PGPB)
have
beneficial
effects
on
plants.
They
can
promote
growth
and
enhance
plant
defense
against
abiotic
stress
disease,
these
are
associated
with
changes
in
the
metabolite
profile.
The
research
problem
addressed
this
study
was
impact
of
inoculation
PGPB
profile
