Comprehensive review of emerging contaminants: Detection technologies, environmental impact, and management strategies
Ecotoxicology and Environmental Safety,
Год журнала:
2024,
Номер
278, С. 116420 - 116420
Опубликована: Май 2, 2024
Emerging
contaminants
(ECs)
are
a
diverse
group
of
unregulated
pollutants
increasingly
present
in
the
environment.
These
contaminants,
including
pharmaceuticals,
personal
care
products,
endocrine
disruptors,
and
industrial
chemicals,
can
enter
environment
through
various
pathways
persist,
accumulating
food
chain
posing
risks
to
ecosystems
human
health.
This
comprehensive
review
examines
chemical
characteristics,
sources,
varieties
ECs.
It
critically
evaluates
current
understanding
their
environmental
health
impacts,
highlighting
recent
advancements
challenges
detection
analysis.
The
also
assesses
existing
regulations
policies,
identifying
shortcomings
proposing
potential
enhancements.
ECs
pose
significant
wildlife
by
disrupting
animal
hormones,
causing
genetic
alterations
that
diminish
diversity
resilience,
altering
soil
nutrient
dynamics
physical
Furthermore,
increasing
health,
hormonal
disruptions,
antibiotic
resistance,
disruption,
neurological
effects,
carcinogenic
other
long-term
impacts.
To
address
these
critical
issues,
offers
recommendations
for
future
research,
emphasizing
areas
requiring
further
investigation
comprehend
full
implications
contaminants.
suggests
increased
funding
support
development
advanced
technologies,
establishment
standardized
methods,
adoption
precautionary
regulations,
enhanced
public
awareness
education,
cross-sectoral
collaboration,
integration
scientific
research
into
policy-making.
By
implementing
solutions,
we
improve
our
ability
detect,
monitor,
manage
ECs,
reducing
risks.
Язык: Английский
Algae Application for Treating Wastewater Contaminated with Heavy Metal Ions
Environmental science and engineering,
Год журнала:
2024,
Номер
unknown, С. 297 - 322
Опубликована: Янв. 1, 2024
Язык: Английский
Detection and Remediation Techniques for Emerging Contaminants
Environmental science and engineering,
Год журнала:
2025,
Номер
unknown, С. 223 - 253
Опубликована: Янв. 1, 2025
Язык: Английский
Antarctic Soil and Viable Microbiota After Long-Term Storage at Constant −20 °C
Biology,
Год журнала:
2025,
Номер
14(3), С. 222 - 222
Опубликована: Фев. 20, 2025
During
an
Antarctic
expedition
that
took
place
in
December
2010–January
2011
the
East
coastal
region,
soil
samples
were
collected
aseptic
conditions
and
stored
for
over
a
decade
freezers
at
−20
°C.
Due
to
shortly
afterward
passing
of
researcher
charge,
Teodor
Negoiță,
remained
unintentionally
frozen
long
period
made
available
research
13
years
later.
A
chemical
analysis
as
well
screening
viable
microbial
presence
was
performed;
conducted
via
inductively
coupled
plasma
atomic
emission
spectroscopy
(ICP-AES)
Fourier-transform
infrared
with
attenuated
total
reflection
(FTIR-ATR).
The
aerobic
facultative
microbiotas
evaluated
through
Biolog
Ecoplates
assay,
isolated
strains
16S
sequenced
final
taxonomic
identification.
results
obtained
new
insights
into
characteristics
from
both
microbiological
aspects,
even
after
conservation.
Язык: Английский
Microbial remediation using biomass for sustainable environmental management
Farooq Sher,
Seyid Zeynab Hashimzada,
Emina Boškailo
и другие.
Elsevier eBooks,
Год журнала:
2025,
Номер
unknown, С. 99 - 121
Опубликована: Янв. 1, 2025
Язык: Английский
Microbiome Migration from Soil to Leaves in Maize and Rice
Microorganisms,
Год журнала:
2025,
Номер
13(4), С. 947 - 947
Опубликована: Апрель 20, 2025
The
interactions
between
plants
and
microbes
are
essential
for
enhancing
crop
productivity.
However,
the
mechanisms
underlying
host-specific
microbiome
migration
functional
assembly
remain
poorly
understood.
In
this
study,
from
soil
to
leaves
in
rice
(Oryza
sativa)
maize
(Zea
mays)
was
analyzed
through
16S
rRNA
sequencing
phenotypic
assessments.
When
we
used
same
source
grow
maize,
microbiota
traits
were
specifically
enriched
by
its
phyllosphere
rhizosphere.
This
indicated
that
can
selectively
assemble
microbiomes
a
shared
source.
Therefore,
22
strains
isolated
phyllospheres
of
construct
synthetic
microbial
community
(SynCom).
growth
inoculated
with
SynCom,
belonging
Bacillus
compared
phyllosphere.
Additionally,
strain
Rhizobium
rhizosphere
These
results
suggest
plant
species
influence
within
their
respective
compartments.
Compared
mock
inoculation,
SynCom
inoculation
significantly
enhanced
growth.
microbiomes,
Achromobacter,
which
assembled
both
played
role
Our
findings
underscore
importance
dynamics
leveraging
plant–microbe
sustainable
agriculture.
Язык: Английский
Impact of abiotic stressors on nutrient removal and rhizomicrobiome composition in floating treatment wetland with Equisetum hyemale
The Science of The Total Environment,
Год журнала:
2024,
Номер
946, С. 174468 - 174468
Опубликована: Июль 3, 2024
Floating
treatment
wetlands
(FTW)
are
receiving
growing
interest
as
a
phyto-technology.
However,
there
significant
research
gaps
regarding
the
actual
role
of
plant
species
and
plant-microbiome
interactions.
In
this
study,
nutrient
uptake
Equisetum
hyemale
was
examined
in
FTW
microcosms
under
influence
abiotic
stressors:
As
(3
mg/L)
Pb
well
Cl−
(300
800
reference
to
control
during
short
screening
experiment.
High
removal
efficiency
nutrients
water
solutions,
up
88
%
for
TN
93
PO4-P,
observed.
PO4-P
inhibited
reactor,
with
maximum
only
11
%.
Lead
were
removed
high
efficiency,
reaching
98
79
respectively.
At
same
time
effectively
bound
root
biomass,
51
Limited
accumulation
0.5
roots
suggests
that
microbial
processes
play
major
its
reduction.
The
development
structure
microbiome
analysed
by
means
16S
rRNA
gene
amplicon
sequencing,
proving
most
influential
factor
terms
selection
pressure
on
specified
bacterial
groups.
treatment,
emergence
Serratia
subpopulation
observed,
while
preserved
rhizobiome
composition
closely
resembling
control.
This
study
indicates
E.
is
suitable
use
FTWs
treating
polluted
at
capable
withstand
periodic
increases
salinity.
exhibits
low
binding
biomass;
however,
extended
exposure
might
amplify
effect
because
slow-acting,
but
beneficial,
mechanism
shoots.
Microbiome
analysis
complements
insights
into
mechanisms
performance
impact
stress
factors
functions.
Язык: Английский