Brazilian Journal of Biology,
Год журнала:
2022,
Номер
84
Опубликована: Сен. 27, 2022
Abstract
The
present
study
was
carried
out
in
Hayat
Abad
Industrial
Estate
located
Peshawar
to
assess
the
levels
of
cadmium
(Cd)
that
were
soil
as
well
plant
parts
(Roots
and
shoots).
To
evaluate
phytoremediation
potential
plants
different
factors
i.e.
Bioconcentration
Factor
(BCF),
Translocation
(TF),
Bioaccumulation
Coefficient
determined.
These
grown
their
native
habitats
(BAC).
We
have
analysed,
concentration
from
which
are
collected
50
locations
ranged
11.54
mg/Kg
(the
lowest)
89.80
(highest).
maximum
(89.80
mg/Kg)
found
HIE-ST-16L
Marble
City
HIE-ST-7
Bryon
Pharma
(88.51
while
its
minimum
(12.47
detected
Site
(HIE-ST-14L
Royal
PVC
Pipe)
(11.54
at
site
(HIE-ST-11
Aries
Pharma).
Most
species
showed
huge
for
based
approaches
like
phyto-extraction
phytoremediation.
They
also
phyto-stabilization
well.
Based
on
most
efficient
phytoextraction
Cnicus
benedictus,
Parthenium
hysterophorus,
Verbesina
encelioides,
Conyza
canadensis,
Xanthium
strumarium,
Chenopodium
album,
Amaranthus
viridis,
Chenopodiastrum
murale,
Prosopis
juliflora,
Convolvulus
arvensis,
Stellaria
media,
Arenaria
serpyllifolia,
Cerastium
dichotomum,
Chrozophora
tinctoria,
Mirabilis
jalapa,
Medicago
polymorpha,
Lathyrus
aphaca,
Dalbergia
sissoo,
Melilotus
indicus
Anagallis
arvensis.
heavy
metals
examined
effectively
removed
by
these
species.
murale
reported
be
effective
phyto-stabilizing
Cd
concentrations
selected
roots
BCFs,
TFs,
BACs
values.
Biology,
Год журнала:
2022,
Номер
11(5), С. 676 - 676
Опубликована: Апрель 27, 2022
With
the
increasing
industrial
activity
of
growing
human
population,
accumulation
various
contaminants
in
soil,
including
heavy
metals,
has
increased
rapidly.
Heavy
metals
as
non-biodegradable
elements
persist
soil
environment
and
may
pollute
crop
plants,
further
accumulating
body
causing
serious
conditions.
Hence,
phytoremediation
land
contamination
an
environmental
restoration
technology
is
desirable
for
both
health
broad-sense
ecology.
Legumes
(Fabaceae),
which
play
a
special
role
nitrogen
cycling,
are
dominant
plants
contaminated
areas.
Therefore,
use
legumes
associated
nitrogen-fixing
rhizobia
to
reduce
concentrations
or
toxic
effects
environmentally
friendly
becomes
promising
strategy
phytostabilization.
Rhizobia,
have
such
plant
growth-promoting
(PGP)
features
phosphorus
solubilization,
phytohormone
synthesis,
siderophore
release,
production
beneficial
compounds
most
all
fixation,
promote
legume
growth
while
diminishing
metal
toxicity.
The
aim
present
review
provide
comprehensive
description
main
leguminous
benefits
using
legume–rhizobium
symbiosis
with
wild-type
genetically
modified
bacteria
enhance
efficient
recovery
lands.
Plants,
Год журнала:
2022,
Номер
11(5), С. 595 - 595
Опубликована: Фев. 23, 2022
The
accumulation
of
anthropogenic
heavy
metals
in
soil
is
a
major
form
pollution.
Such
potentially
toxic
elements
are
nonbiodegradable
and
persist
for
many
years
as
threats
to
human
environmental
health.
Traditional
forms
remediation
costly
damaging
the
land.
An
alternative
strategy
phytoremediation,
where
plants
used
capture
from
environment.
Industrial
hemp
(Cannabis
sativa)
promising
candidate
phytoremediation.
Hemp
has
deep
roots
tolerant
different
metals.
In
addition,
crop
biomass
potential
commercial
uses
after
harvesting
completed.
Furthermore,
recent
availability
an
annotated
genome
sequence
provides
powerful
tool
bioengineering
C.
sativa
better
Soil Systems,
Год журнала:
2022,
Номер
6(1), С. 3 - 3
Опубликована: Янв. 4, 2022
Cadmium
(Cd)
is
a
heavy
metal
present
in
atmosphere,
rocks,
sediments,
and
soils
without
known
role
plants.
It
relatively
mobile
can
easily
enter
from
soil
into
groundwater
contaminate
the
food
chain.
Its
presence
excess
amounts
may
cause
severe
conditions
humans,
therefore
prevention
of
cadmium
entering
chain
its
removal
contaminated
are
important
steps
preserving
public
health.
In
last
several
years,
approaches
for
Cd
remediation
have
been
proposed,
such
as
use
amendments
or
biological
systems
reduction
contamination.
One
phytoremediation,
which
involves
plants
clean-up.
this
review
we
summarized
current
data
on
different
phytoremediation
well
information
about
used
to
enhance
phytoremediation.
This
includes
increasing
bioavailability
soil,
plant
biomass,
accumulation
capacity
seed
priming
promising
novel
approach
enhancing.
Brazilian Journal of Biology,
Год журнала:
2022,
Номер
84
Опубликована: Сен. 27, 2022
Abstract
The
present
study
was
carried
out
in
Hayat
Abad
Industrial
Estate
located
Peshawar
to
assess
the
levels
of
cadmium
(Cd)
that
were
soil
as
well
plant
parts
(Roots
and
shoots).
To
evaluate
phytoremediation
potential
plants
different
factors
i.e.
Bioconcentration
Factor
(BCF),
Translocation
(TF),
Bioaccumulation
Coefficient
determined.
These
grown
their
native
habitats
(BAC).
We
have
analysed,
concentration
from
which
are
collected
50
locations
ranged
11.54
mg/Kg
(the
lowest)
89.80
(highest).
maximum
(89.80
mg/Kg)
found
HIE-ST-16L
Marble
City
HIE-ST-7
Bryon
Pharma
(88.51
while
its
minimum
(12.47
detected
Site
(HIE-ST-14L
Royal
PVC
Pipe)
(11.54
at
site
(HIE-ST-11
Aries
Pharma).
Most
species
showed
huge
for
based
approaches
like
phyto-extraction
phytoremediation.
They
also
phyto-stabilization
well.
Based
on
most
efficient
phytoextraction
Cnicus
benedictus,
Parthenium
hysterophorus,
Verbesina
encelioides,
Conyza
canadensis,
Xanthium
strumarium,
Chenopodium
album,
Amaranthus
viridis,
Chenopodiastrum
murale,
Prosopis
juliflora,
Convolvulus
arvensis,
Stellaria
media,
Arenaria
serpyllifolia,
Cerastium
dichotomum,
Chrozophora
tinctoria,
Mirabilis
jalapa,
Medicago
polymorpha,
Lathyrus
aphaca,
Dalbergia
sissoo,
Melilotus
indicus
Anagallis
arvensis.
heavy
metals
examined
effectively
removed
by
these
species.
murale
reported
be
effective
phyto-stabilizing
Cd
concentrations
selected
roots
BCFs,
TFs,
BACs
values.
