Biology,
Год журнала:
2025,
Номер
14(2), С. 175 - 175
Опубликована: Фев. 9, 2025
This
study
took
Xiangshan
Bay
as
an
example
to
illustrate
the
variation
characteristics
of
physicochemical
environments
(temperature,
salinity,
light,
nutrients,
and
currents)
during
one
kelp
cultivation
cycle.
The
was
conducted
from
November
2020
May
2021
through
tracking
down
observations.
Furthermore,
environmental
factors
were
evaluated
using
suitability
functions
growth,
aiming
provide
references
for
promoting
in
South
China.
We
discussed
self-limiting
effect
nutrients
culture
zone.
results
showed
that
average
temperature,
light
intensity
cruises
farm
characterized
by
seasonal
variations.
Temperature
found
be
most
critical
factor
determining
window
hence
yield
Bay.
dissolved
inorganic
nitrogen
(DIN)
concentrations
initially
decreased
then
increased,
while
phosphorus
(DIP)
remained
decreasing
along
with
cultivation.
surface
tide
currents
dramatically
attenuated
suspended
cultivation,
quasi-steady
circulations
which
played
a
key
role
nutrient
supplementation
not
weakened
Among
cruises,
indices’
ranges
0.02–0.94,
0.96–0.99,
0.97–1,
0.96–0.97
(DIN),
0.92–0.95
(DIP),
respectively.
demonstrated
salinity
conditions
very
suitable
would
cause
significant
risks.
Although
cultivated
could
greatly
absorb
index
adequate
even
late
stage
indicating
present
scale
has
reached
carrying
capacity
there
is
still
much
potential
development.
To
this
end,
further
selective
breeding
thermal
tolerance
variety
become
improving
performance
Meanwhile,
effects
relation
are
farm,
but
it
might
more
other
farms.
Heliyon,
Год журнала:
2024,
Номер
10(7), С. e28208 - e28208
Опубликована: Март 21, 2024
Seaweed
cultivation
has
garnered
significant
interest,
driven
by
its
wide
range
of
biomass
benefits.
However,
comprehensive
assessments
from
various
perspectives
are
imperative
to
ensure
the
sustainable
seaweed.
Biotic
and
Abiotic
factors
can
significantly
impact
seaweed
yield
in
complex
commercial
farming.
include
bacteria,
fungi,
viruses,
other
algae,
while
abiotic
environmental
conditions
such
as
temperature,
salinity,
light
intensity,
nutrient
availability.
Additionally,
susceptibility
seaweeds
pests
diseases
further
compounds
issue,
leading
potential
crop
losses.
This
study
endeavours
shed
on
immense
macroalgae
underscores
pressing
need
for
scientific
advancements
this
field.
The
review
clearly
explains
latest
developments
highlights
advances
diverse
research.
Moreover,
it
provides
insightful
glimpses
into
possible
future
that
could
shape
trajectory
promising
industry.
International Journal of Molecular Sciences,
Год журнала:
2024,
Номер
25(2), С. 797 - 797
Опубликована: Янв. 8, 2024
Seaweed,
a
miscellaneous
group
of
marine
algae,
has
long
been
recognized
for
its
rich
nutritional
composition
and
bioactive
compounds,
being
considered
nutraceutical
ingredient.
This
revision
delves
into
the
promising
role
seaweed-derived
nutrients
as
beneficial
resource
drug
discovery
innovative
product
development.
Seaweeds
are
abundant
sources
essential
vitamins,
minerals,
polysaccharides,
polyphenols,
unique
secondary
metabolites,
which
reveal
wide
range
biological
activities.
These
compounds
possess
potential
therapeutic
properties,
making
them
intriguing
candidates
leads
in
various
medical
applications
pharmaceutical
It
explores
their
pharmacological
including
antioxidant,
anti-inflammatory,
antimicrobial,
anticancer
activities,
shedding
light
on
agents.
Moreover,
manuscript
provides
insights
development
formulation
strategies
delivery
systems
to
enhance
bioavailability
stability
compounds.
The
also
discusses
challenges
opportunities
associated
with
integration
seaweed-based
industries.
Regulatory
considerations,
sustainability,
scalability
sustainable
seaweed
sourcing
cultivation
methods
addressed,
emphasizing
need
holistic
approach
harnessing
seaweed's
potential.
underscores
immense
valuable
reservoir
By
bridging
gap
between
biology,
pharmacology,
formulation,
this
research
contributes
critical
advancement
solutions
sectors.
Environmental Chemistry Letters,
Год журнала:
2023,
Номер
22(1), С. 273 - 295
Опубликована: Сен. 15, 2023
Abstract
Skin
exposure
to
solar
ultraviolet
radiation
and
pollutants
causes
several
skin
disorders,
calling
for
protection
methods
such
as
sunscreen
application.
However,
common
contains
chemicals
that
have
displayed
toxicity
when
exposed
radiation.
Therefore,
alternatives
approaches
been
recently
developed,
the
use
of
natural
phytochemicals
active
ingredients
in
photoprotection
preparations.
Here,
we
review
with
focus
on
physics
by
filters.
We
present
sensors
measuring
ecosystems.
discuss
phototoxicity
drugs,
preservatives,
personal
care
products,
pollutants.
Photocarcinogenesis,
photoallergy,
photostability,
their
impacts
human
health
skin,
are
also
reviewed.
observed
promising
due
ability
absorb
photon
energy,
thus
act
antioxidants.
Journal of Bioresources and Bioproducts,
Год журнала:
2023,
Номер
9(3), С. 253 - 282
Опубликована: Дек. 10, 2023
As
the
population
increases
and
manufacturing
grows,
greenhouse
gas
other
harmful
emissions
increase.
Contaminated
with
chemicals
such
as
dyes,
pesticides,
pharmaceuticals,
oil,
heavy
metals
or
radionuclides,
wastewater
purification
has
become
an
urgent
issue.
Various
technologies
exist
that
can
remove
these
contaminants
from
sources,
but
they
often
demand
high
energy
and/or
cost,
in
some
cases
produce
contaminant
laden
sludge
requires
safe
disposal.
The
need
for
methods
which
are
less
capital
intensive,
operationally
costly
more
environmentally
friendly
is
suggested.
Cellulose-based
materials
have
emerged
promising
candidates
treatment
due
to
their
renewability,
low
biodegradability,
hydrophilicity,
antimicrobial
property.
In
this
review
article,
we
focussed
on
developing
sustainable
biodegradable
cellulose-based
treatment.
This
article
deals
materials'
scope
conversion
into
valuable
products
like
hydrogel,
aerogel,
cellulose
composites,
nanocellulose.
no
environmental
impact
plentiful.
modified
applying
membrane,
adsorbent,
sorbent,
beads
purify
were
discussed.
Finally,
challenges
future
prospects
of
considered,
emphasizing
potential
be
eco-friendly
alternatives
traditional
used
Algal Research,
Год журнала:
2023,
Номер
77, С. 103357 - 103357
Опубликована: Дек. 12, 2023
Seaweeds
are
organisms
rich
in
many
bioactive
compounds
such
as
proteins,
minerals,
vitamins,
fibers,
essential
amino
acids,
pigments,
and
fatty
which
give
them
extraordinary
antihypertensive,
antidiabetic,
antioxidant,
anti-inflammatory,
antitumoral,
antiviral,
antimicrobial
properties.
Seaweed
could
potentially
contribute
to
future
global
security
functional
foods
nutraceuticals
be
an
important
compound
the
pharmaceutical
biotechnological
industries
drug
development,
among
other
uses.
This
review
focuses
on
gastronomic
point
of
view
discusses
compositional
nutritional
characteristics,
topics
related
consumption,
current
application
technologies,
limitations
challenges
production,
market
developments
this
rising
market.
Environmental Chemistry Letters,
Год журнала:
2023,
Номер
21(6), С. 3159 - 3244
Опубликована: Авг. 17, 2023
Abstract
Traditional
fertilizers
are
highly
inefficient,
with
a
major
loss
of
nutrients
and
associated
pollution.
Alternatively,
biochar
loaded
phosphorous
is
sustainable
fertilizer
that
improves
soil
structure,
stores
carbon
in
soils,
provides
plant
the
long
run,
yet
most
biochars
not
optimal
because
mechanisms
ruling
properties
poorly
known.
This
issue
can
be
solved
by
recent
developments
machine
learning
computational
chemistry.
Here
we
review
phosphorus-loaded
emphasis
on
chemistry,
learning,
organic
acids,
drawbacks
classical
fertilizers,
production,
phosphorus
loading,
release.
Modeling
techniques
allow
for
deciphering
influence
individual
variables
biochar,
employing
various
supervised
models
tailored
to
different
types.
Computational
chemistry
knowledge
factors
control
binding,
e.g.,
type
compound,
constituents,
mineral
surfaces,
binding
motifs,
water,
solution
pH,
redox
potential.
Phosphorus
release
from
controlled
coexisting
anions,
adsorbent
dosage,
initial
concentration,
temperature.
Pyrolysis
temperatures
below
600
°C
enhance
functional
group
retention,
while
450
increase
plant-available
phosphorus.
Lower
pH
values
promote
release,
higher
hinder
it.
Physical
modifications,
such
as
increasing
surface
area
pore
volume,
maximize
adsorption
capacity
biochar.
Furthermore,
acid
affects
low
molecular
weight
acids
being
advantageous
utilization.
Lastly,
biochar-based
2–4
times
slower
than
conventional
fertilizers.
