Scientific Reports,
Journal Year:
2024,
Volume and Issue:
14(1)
Published: July 13, 2024
Abstract
The
Sundarbans
mangrove,
located
at
the
mouth
of
Ganges
and
Brahmaputra
Rivers,
is
world’s
largest
tidal
mangrove
forest.
These
mangroves
are
also
one
most
striking
sources
microbial
diversity,
essential
in
productivity,
conservation,
nutrient
cycling,
rehabilitation.
Hence,
main
objective
this
study
was
to
use
metagenome
analysis
provide
detailed
insight
into
communities
their
functional
roles
ecosystem.
A
comparative
done
with
a
non-mangrove
region
ecosystem
assess
capability
environmental
parameters
explain
variation
community
composition.
found
several
dominant
bacteria,
viz.,
Alphaproteobacteria
,
Actinomycetota
Bacilli
Clostridia
Desulfobacterota
Gammaproteobacteria
Nitrospira,
from
region.
sampling
site
reports
salt-tolerant
bacteria
like
Alkalibacillus
haloalkaliphilus
Halomonas
anticariensis
Salinivibrio
socompensis
.
We
some
probiotic
species,
Bacillus
clausii,
Lactobacillus
curvatus,
Vibrio
mediterranei
fluvialis,
mangrove.
Nitrifying
soils
were
Nitrococcus
mobilis
Nitrosococcus
oceani,
Nitrosomonas
halophila,
Nitrospirade
fluvii,
others.
Methanogenic
archaea,
Methanoculleus
marisnigri
Methanobrevibacter
gottschalkii,
Methanolacinia
petrolearia,
highly
abundant
as
compared
soils.
identified
methanotrophic
bacterial
Methylobacter
tundripaludum,
Methylococcus
capsulatus,
Methylophaga
thiooxydans,
Methylosarcina
lacus
expected
play
significant
role
degradation
methane
soil.
Among
bioremediation
species
identified,
Pseudomonas
alcaligenes
mendocina
Paracoccus
denitrificans,
Shewanella
putrefaciens
remediation
pollution.
Overall,
our
shows
for
first
time
that
Sundarbans,
world,
has
wide
range
methanogenic
methanotrophs,
pathogenic,
salt-tolerant,
probiotic,
nitrifying,
bacteria.
Biology,
Journal Year:
2024,
Volume and Issue:
13(3), P. 199 - 199
Published: March 21, 2024
Microalgae
have
commercial
potential
in
different
sectors
of
the
industry.
Specifically
modern
agriculture,
they
can
be
used
because
ability
to
supply
nutrients
soil
and
produce
plant
growth
hormones,
polysaccharides,
antimicrobial
compounds,
other
metabolites
that
improve
agricultural
productivity.
Therefore,
products
formulated
from
microalgae
as
biofertilizers
biostimulants
turn
out
beneficial
for
agriculture
are
positioned
a
novel
environmentally
friendly
strategy.
However,
these
bioproducts
present
challenges
preparation
affect
their
shelf
life
due
rapid
degradation
bioformulated
products.
this
work
aimed
provide
comprehensive
review
microalgae,
which
bibliometric
analysis
was
carried
establish
trends
using
scientometric
indicators,
technological
advances
were
identified
terms
formulation
methods,
global
market
analyzed.
Current Research in Microbial Sciences,
Journal Year:
2024,
Volume and Issue:
7, P. 100251 - 100251
Published: Jan. 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.
Frontiers in Microbiology,
Journal Year:
2022,
Volume and Issue:
13
Published: Sept. 20, 2022
Plant
growth-promoting
bacteria
(PGPB)
are
endowed
with
several
attributes
that
can
be
beneficial
for
host
plants.
They
opened
myriad
doors
toward
green
technology
approach
to
reduce
the
use
of
chemical
inputs,
improve
soil
fertility,
and
promote
plants’
health.
However,
many
these
PGPB
harbor
antibiotic
resistance
genes
(ARGs).
Less
attention
has
been
given
multi-resistant
bacterial
bioinoculants
which
may
transfer
their
ARGs
native
microbial
communities
other
environmental
reservoirs
including
animals,
waters,
humans.
Therefore,
large-scale
inoculation
crops
by
ARGs-harboring
could
worsen
evolution
dissemination
aggravate
negative
impacts
on
such
ecosystem
ultimately
public
Their
introduction
into
serve
as
invasion
inter
food
chain.
In
this
review,
we
underscore
plant-associated
bacteria,
criticize
lack
consideration
phenomenon
in
screening
application
processes,
provide
some
recommendations
well
a
regulation
framework
relating
development
bacteria-based
biofertilizers
aid
maximizing
value
applications
crop
improvement
while
reducing
risks
invasion.
