Organic fertilization strategies and use of Trichoderma in the agronomic performance of green maize
Brazilian Journal of Biology,
Год журнала:
2025,
Номер
85
Опубликована: Янв. 1, 2025
Abstract
There
is
scientific
evidence
that
Trichoderma
positively
influences
the
uptake
of
soil
nutrients
by
plants,
which
essential
for
development
more
efficient
organic
fertilization
strategies
in
green
maize.
Therefore,
objective
was
to
evaluate
efficiency
applying
with
on
growth
and
productivity
.
The
experiment
conducted
at
Piroás
Experimental
Farm,
belonging
Universidade
da
Integração
Internacional
Lusofonia
Afro-Brasileira
(UNILAB),
located
municipality
Redenção,
Ceará.
A
randomized
complete
block
design
used
six
treatments
(T1
-
control;
T2
50%
cattle
manure
dose
+
manure;
T3
100%
dose;
T4
T5
25%
T6
Trichoderma)
four
replications.
combination
a
reduction
plus
had
positive
effect
plant
growth,
especially
total
dry
mass,
when
compared
isolated
use
microorganism.
This
same
provided
yield
similar
treatment
maximum
manure.
maize
production
effective
reducing
up
50%,
impacting
vegetative
combined
Язык: Английский
Mycorrhizal symbioses: The biological trade-off in nutrient cycling
Advances in botanical research,
Год журнала:
2025,
Номер
unknown
Опубликована: Янв. 1, 2025
Язык: Английский
Exploring the Potential of Trichoderma harzianum THNUU-1 for bio-Valorization of Agricultural Waste
Waste and Biomass Valorization,
Год журнала:
2025,
Номер
unknown
Опубликована: Фев. 20, 2025
Язык: Английский
Role of Fungi in Sustainable Agriculture and Stress Mitigation
Lalit Kumar Sahu,
Nikhil Kumar Verma
IGI Global eBooks,
Год журнала:
2025,
Номер
unknown, С. 1 - 24
Опубликована: Март 14, 2025
This
chapter
explores
the
critical
role
of
fungi
in
sustainable
agriculture
and
stress
mitigation,
emphasizing
their
contributions
to
enhancing
soil
health,
improving
crop
resilience,
facilitating
carbon
sequestration.
Fungi,
particularly
arbuscular
mycorrhizal
(AMF)
various
fungal
biopesticides,
offer
innovative
solutions
for
reducing
reliance
on
synthetic
fertilizers
pesticides.
Recent
advancements
biofertilizers
demonstrate
ability
improve
nutrient
uptake
disease
resistance,
while
potential
storage
aids
climate
change
mitigation.
Despite
promising
applications
fungi,
challenges
such
as
inconsistent
efficacy,
mass
production
limitations,
regulatory
barriers
remain.
Addressing
these
presents
opportunities
further
research,
policy
reform,
education
optimize
use
agricultural
systems.
By
harnessing
diverse
functions
we
can
create
more
resilient
practices.
Язык: Английский
Multifunctionality and Diversity of Antagonistic Potential Fungi as Biocontrol Agent
Опубликована: Янв. 1, 2025
Язык: Английский
Improved salinity tolerance in cucumber seedlings inoculated with halotolerant bacterial isolates with plant growth-promoting properties
BMC Plant Biology,
Год журнала:
2024,
Номер
24(1)
Опубликована: Сен. 2, 2024
To
address
salinity
stress
in
plants
an
eco-friendly
manner,
this
study
investigated
the
potential
effects
of
salinity-resistant
bacteria
isolated
from
saline
agricultural
soils
on
growth
cucumber
(Cucumis
sativus,
cv.
Royal)
seedlings.
A
greenhouse
factorial
experiment
was
conducted
based
a
completely
randomized
design
(CRD)
with
two
factors,
at
four
levels
and
five
bacterial
treatments,
three
replications
(n
=
3).
Initially,
fifty
isolates
were
screened
for
their
drought
tolerance,
phosphate
solubilization
activity,
along
production
auxin,
siderophore
hydrogen
cyanide.
Isolates
K4,
K14,
K15,
C8
exhibited
highest
resistance
to
stresses
vitro.
K15
demonstrated
auxin
capacity,
generating
2.95
2.87
µg
mL−
1,
respectively,
also
significant
capacities
(by
14%
11%).
Additionally,
K14
displayed
greater
activities,
by
184.64
122.11
respectively.
The
statistical
analysis
revealed
that
selected
potent
significantly
enhanced
all
parameters
grown
under
conditions
six
weeks.
Plant
height
increased
41%,
fresh
dry
weights
35%
7%,
leaf
area
index
85%.
most
effective
isolate,
C8,
identified
as
Bacillus
subtilis
16
S
rDNA
amplicon
sequencing.
This
inoculating
seedlings
halotolerant
isolates,
such
(Bacillus
subtilis),
possessing
substantial
plant
growth-promoting
properties
alleviated
enhancing
parameters.
These
findings
suggest
promising
strategy
improving
crop
productivity
environments.
Язык: Английский
Integrated rice farming systems for improved growth, yield and pest reduction
Plant Science Today,
Год журнала:
2024,
Номер
11(sp4)
Опубликована: Дек. 13, 2024
Soil
health
and
environmental
degradation
are
some
of
the
major
challenges
to
sustainable
production
organic
rice
cultivation.
The
study
utilized
farming
systems
components
like
Azolla,
fish
duck
as
nutrient
sources
in
cultivation
during
late
samba
2022-23
2023-24
at
Tamil
Nadu
Rice
Research
Institute,
Aduthurai,
Nadu.
experiments
were
conducted
with
eleven
treatments
replicated
thrice
a
randomized
block
design,
included
green
manure,
fish,
liquid
bio
fertilizers
their
combinations
nano
urea
foliar
spray
compared
RDF.
results
demonstrated
significant
positive
impact
integrating
system
on
growth
productivity.
GM-
+
Azolla
(PSB+KSB+ZSB)
along
(0.4
%)
recorded
maximum
physiological
parameters
over
other
treatments.
Similar
also
observed
yield
attributes
viz.,
number
panicles
(457
m-2),
panicle
length
(31.26
cm),
weight
(3.94
g),
filled
grains
panicle-1
(331.5).
higher
grain
(6.06
t
ha-1),
straw
(7.81
equivalent
(REY)
(22.55
productivity
(61.79
kg
ha-1
day-1),
index
(0.881)
relative
efficiency
(440.3
%).
Additionally,
lower
pest
incidences
insect
control
efficiency,
richness,
diversity
evenness
indices
duck-adopted
findings
revealed
that
inclusion
integrated
significantly
improved
reduced
rice.
Язык: Английский