Bioengineered,
Journal Year:
2021,
Volume and Issue:
12(1), P. 7376 - 7416
Published: Jan. 1, 2021
Antibiotics,
as
antimicrobial
drugs,
have
been
widely
applied
human
and
veterinary
medicines.
Recently,
many
antibiotics
detected
in
the
environments
due
to
their
mass
production,
widespread
use,
but
a
lack
of
adequate
treatment
processes.
The
environmental
occurrence
has
received
worldwide
attention
potential
harm
ecosystem
health.
Research
status
environment
field
is
presented
by
bibliometrics.
Herein,
we
provided
comprehensive
overview
on
following
important
issues:
(1)
different
compartments,
such
wastewater,
surface
water,
soil;
(2)
toxicity
toward
non-target
organisms,
including
aquatic
terrestrial
organisms;
(3)
current
technologies
for
degradation
removal
antibiotics,
adsorption,
hydrolysis,
photodegradation
oxidation,
biodegradation.
It
was
found
that
macrolides,
fluoroquinolones,
tetracyclines,
sulfonamides
were
most
frequently
environment.
Compared
groundwaters,
wastewater
contained
high
concentration
antibiotic
residues.
Both
metabolites
exhibited
especially
organisms
(e.g.,
algae
fish).
Fluoroquinolones,
can
be
removed
through
abiotic
process,
photodegradation,
oxidation.
Fluoroquinolones
directly
undergo
Further
studies
chronic
effects
at
environmentally
relevant
concentrations
urgently
needed
fully
understand
hazards
help
government
establish
permissible
limits.
Biodegradation
promising
technology;
it
numerous
advantages
cost-effectiveness
friendliness.
Environmental Pollution,
Journal Year:
2021,
Volume and Issue:
285, P. 117402 - 117402
Published: May 19, 2021
The
prevalence
of
antibiotic
resistant
bacteria
(ARB)
and
resistance
genes
(ARGs)
in
the
microbiome
is
a
major
public
health
concern
globally.
Many
habitats
environment
are
under
threat
due
to
excessive
use
antibiotics
evolutionary
changes
occurring
resistome.
ARB
ARGs
from
farms,
cities
hospitals,
wastewater
treatment
plants
(WWTPs)
or
as
water
runoffs,
may
accumulate
water,
soil,
air.
We
present
global
picture
resistome
by
examining
ARG-related
papers
retrieved
PubMed
published
last
30
years
(1990-2020).
Natural
Language
Processing
(NLP)
was
used
retrieve
496,640
papers,
out
which
9374
passed
filtering
test
were
further
analyzed
determine
distribution
diversity
ARG
subtypes.
revealed
seven
families
together
with
their
respective
subtypes
different
on
six
continents.
Asia,
especially
China,
had
highest
number
related
compared
other
countries/regions/continents.
belonging
multidrug,
glycopeptide,
β-lactam
most
common
reports
hospitals
sulfonamide
tetracycline
WWTPs,
soil.
also
highlight
'omics'
tools
research,
describe
some
factors
that
shape
development
resistome,
suggest
future
work
needed
better
understand
goal
show
nature
order
encourage
collaborate
research
efforts
aimed
at
reducing
negative
impacts
One
Health
concept.
Environmental Science and Ecotechnology,
Journal Year:
2022,
Volume and Issue:
9, P. 100145 - 100145
Published: Jan. 1, 2022
The
existence
of
continually
increasing
concentrations
antibiotics
in
the
environment
is
a
serious
potential
hazard
due
to
their
toxicity
and
persistence.
Unfortunately,
conventional
treatment
techniques,
such
as
those
utilized
wastewater
plants,
are
not
efficient
for
containing
antibiotic.
Recently,
algae-based
technologies
have
been
found
be
sustainable
promising
technique
antibiotic
removal.
Therefore,
this
review
aims
provide
critical
summary
important
role
treatment.
Algal
removal
mechanisms
including
bioadsorption,
bioaccumulation,
biodegradation
discussed
detail,
with
using
algae-bacteria
consortia
treatment,
integration
algae
other
microorganisms
(fungi
multiple
algal
species),
hybrid
constructed
wetlands,
factors
affecting
degradation
comprehensively
described
assessed.
In
addition,
use
precursor
production
biochar
highlighted,
along
modification
materials
improve
its
capacity
advanced
oxidation
processes.
Furthermore,
recent
novel
approaches
enhancing
removal,
genetic
engineering
enhance
bioelectrochemical
systems
discussed.
Finally,
some
based
on
review,
key
future
research
perspectives
proposed.
Overall,
systematically
presents
current
progress
algae-mediated
technologies,
providing
insights
improved
alleviation
pollution
aquatic
environments.
Critical Reviews in Environmental Science and Technology,
Journal Year:
2022,
Volume and Issue:
53(3), P. 315 - 339
Published: March 20, 2022
Algae-bacteria
consortia
treatment
has
been
found
to
be
a
promising
method
for
the
remediation
of
aqueous
systems.
Given
scope
previous
reviews
on
algae-bacteria
interactions,
sections
chemical
signaling
between
algae
and
bacteria
don't
cover
current
knowledge
gap,
recent
advances
in
explore
full
depth.
Accordingly,
specific
aim
this
review
was
thoroughly
screen
summarize
peer-reviewed
literature
(1)
mechanism
algal
selection
enrichment
wastewater
treatment;
(2)
interactions
ecological
niche
environments;
(3)
bacteria;
(4)
using
consortia;
(5)
advanced
techniques
combined
with
systems
improved
remediation.
The
main
challenges
future
perspectives
are
proposed,
including:
(i)
comprehensively
establishing
network
bacteria,
especially
quorum
sensing
phycospheric
interactions;
(ii)
developing
detailed
understanding
exchange
microbial
species
based
molecular
diffusion
processes;
(iii)
tracking
complex
aquatic
environments
machine
learning
(ML),
providing
potential
tool
design
beneficial
customizable
synthetic
communities
(iv)
integrating
(e.g.,
MBRs,
UV
photolysis
biological
activated
carbon)
systems,
increasing
sustainability
applicability
processes.
Therefore,
provides
guidance
insights
development
their
application
Water Science & Technology,
Journal Year:
2022,
Volume and Issue:
85(7), P. 2076 - 2096
Published: March 11, 2022
The
textile
industry
is
one
of
the
most
intensive
industries
in
chemical
products
whose
wastewater
contains
hazardous
dyes,
pigments,
dissolved/suspended
solids,
and
heavy
metals.
Hence,
it
important
to
effectively
treat
generated
by
this
before
releasing
into
environment.
Although
field
treatment
has
made
tremendous
progress,
developed
methods
should
be
improved
further
make
them
economically
viable
friendly.
In
review,
characteristics
are
introduced.
We
have
primarily
focused
on
environmental
impact
toxicity
wastewater.
Toxic
harmful
contaminants
must
removed
from
reduce
extent
pollution
caused
when
released
rivers
or
reused.
various
techniques
that
used
discussed.
Finally,
challenges
faced,
prospects
been
discussed
detail.
Environmental Science and Ecotechnology,
Journal Year:
2022,
Volume and Issue:
13, P. 100212 - 100212
Published: Nov. 9, 2022
Antibiotics,
the
most
frequently
prescribed
drugs,
have
been
widely
applied
to
prevent
or
cure
human
and
veterinary
diseases
undoubtedly
led
massive
releases
into
sewer
networks
wastewater
treatment
systems,
a
hotspot
where
occurrence
transformation
of
antibiotic
resistance
take
place.
Extracellular
polymeric
substances
(EPS),
biopolymers
secreted
via
microbial
activity,
play
an
important
role
in
cell
adhesion,
nutrient
retention,
toxicity
resistance.
However,
potential
roles
sludge
EPS
related
removal
antibiotics
are
still
unclear.
This
work
summarizes
composition
physicochemical
characteristics
state-of-the-art
EPS,
highlights
critical
removal,
evaluates
their
defense
performances
under
different
exposures,
analyzes
typical
factors
that
could
affect
sorption
biotransformation
behavior
antibiotics.
Next,
interactions
between
genes
analyzed.
Future
perspectives,
especially
engineering
application
for
detection
defense,
also
emphatically
stressed.
