Métodos
estatísticos
na
avaliação
da
repetibilidade
genotípica
em
lima
ácida
‘Tahiti’.
Orientador:
Leonardo
Lopes
Bhering.
Frutíferas
perenes
como
a
‘Tahiti’
tiveram
sua
área
de
cultivo
aumentada
nos
últimos
anos
devido
ao
acréscimo
no
consumo
dos
seus
frutos
preparação
alimentos
e
bebidas.
Para
atender
demanda
pela
produção,
utilização
variedades
com
alto
potencial
produtivo
recebe
destaque
um
método
potencializar
o
alta
eficiência
sustentabilidade.
A
perenidade
‘Tahiti’,
assim
outras
espécies,
requer
métodos
seleção
que
isolem
efeitos
ambientais
possibilitem
identificação
apenas
fração
genética
entre
os
candidatos.
Portanto,
busca
análise
possam
corroborar
para
aumentar
confiabilidade
dados
experimentos
é
suma
importância
progresso
melhoramento
genético.
Diferentes
foram
aplicados
conjunto
fim
investigar
cultura.
Sendo
assim,
24
genótipos,
constituídos
12
copa
enxertados
2
híbridos
porta
enxerto
avaliados
longo
4
características
produtivas,
vegetativas
qualidade
frutos.
Em
primeiro
artigo,
objetivou-se
estimar
parâmetros
genéticos
coeficiente
através
modelo
linear
misto,
determinar
número
ótimo
medidas
se
avaliar
genótipos
acurácia
precisão.
resumo,
quatro
colheitas
foi
recomendado
identificar
combinações
base
produtivas.
várias
simultaneamente
processo
importante
necessário
ser
realizado,
porém
desafiador,
dado
diversidade
genes
controlam
essas
variadas
magnitudes
interação
destes
ambiente.
Deste
modo,
segundo
capítulo,
aplicou-se
metodologia
regressão
aleatória
propôs-se
índice
as
áreas
abaixo
das
curvas
valores
preditos,
obtidos
pelos
coeficientes
aleatórios
produtivas
vegetativas.
Constatou-se
modelos
lidam
adequadamente
repetidas,
desbalanceados
são
recomendados
lidar
interações
ambientais.
aplicada
permitiu
predição
genotípicos
medições
não
avaliadas
recomendação
superiores
caracteres
simultaneamente.
Ao
selecionar
ou
recomendar
superiores,
conceitos
probabilidade,
advindos
inferência
bayesiana
podem
confiabilidade,
permitindo
estáveis,
aumentando
programa
melhoramento.
terceiro
estudo,
testou-se
aplicabilidade
probabilístico
bayesiano
performance
estabilidade.
Ajustou-se
por
meio
algoritmo
amostrador
Monte
Carlo
Hamiltoniano.
Calculou-se
probabilidade
superioridade
do
valor
genético
cada
genótipo
contexto
geral
colheita,
bem
inferioridade
x
colheitas.
Os
resultados
mostraram
componentes
variância
acurados,
comparações
estabilidade
intervalos
credibilidade
obtidos.
Palavras-chave:
Citrus
latifolia.
Dados
longitudinais.
Modelos
mistos.
Inferência
bayesiana.
Nature Communications,
Год журнала:
2023,
Номер
14(1)
Опубликована: Окт. 30, 2023
Abstract
Genotype-by-environment
(G×E)
interactions
can
significantly
affect
crop
performance
and
stability.
Investigating
G×E
requires
extensive
data
sets
with
diverse
cultivars
tested
over
multiple
locations
years.
The
Genomes-to-Fields
(G2F)
Initiative
has
maize
hybrids
in
more
than
130
year-locations
North
America
since
2014.
Here,
we
curate
expand
this
set
by
generating
environmental
covariates
(using
a
model)
for
each
of
the
trials.
resulting
includes
DNA
genotypes
linked
to
70,000
phenotypic
records
grain
yield
flowering
traits
4000
hybrids.
We
show
how
valuable
serve
as
benchmark
agricultural
modeling
prediction,
paving
way
countless
investigations
maize.
use
multivariate
analyses
characterize
set’s
genetic
structure,
study
association
key
factors
traits,
provide
benchmarks
using
genomic
prediction
models.
Frontiers in Plant Science,
Год журнала:
2024,
Номер
15
Опубликована: Март 25, 2024
This
research
introduces
a
novel
framework
for
enhancing
soybean
cultivation
in
North
America
by
categorizing
growing
environments
into
distinct
ecological
and
maturity-based
zones.
Using
an
integrated
analysis
of
long-term
climatic
data
records
varietal
trials,
this
generates
zonal
environmental
characterization
which
captures
major
components
the
environment
affect
range
adaptation
varieties.
These
findings
have
immediate
applications
optimizing
multi-environment
trials.
allows
breeders
to
assess
representation
multi-environmental
trial
varieties,
strategize
distribution
testing
placement
test
sites
accordingly.
application
is
demonstrated
with
historical
scenario
trial,
using
two
resource
allocation
models:
one
targeted
towards
improving
general
focuses
on
widely
cultivated
areas,
specific
adaptation,
diverse
conditions.
Ultimately,
study
aims
improve
efficiency
impact
breeding
programs,
leading
development
cultivars
resilient
variable
changing
climates.
Research Square (Research Square),
Год журнала:
2025,
Номер
unknown
Опубликована: Янв. 10, 2025
Abstract
The
Chilli
(Capsicum
annuum
var.
annuum
L.)
cultivars
are
highly
sensitive
to
diverse
agroclimatic
conditions.
research
presents
a
significant
contribution
by
identifying
high-yielding
and
stable
hybrids
for
wider
adaptability
using
genetic
male
sterility
(GMS).
study
was
conducted
in
seven
environments
following
conventional
farming
under
field
conditions
five
locations
of
North-western
Himalaya
along
with
naturally
ventilated
polyhouse
natural
practices
12
GMS
based
4
check
varieties
identify
the
phenotypic
stability
yield
its
related
attributes.
experiment
randomized
block
design
replicated
thrice
during
summer
season
2021
respective
environments.
Joint
regression
analysis
revealed
Genotype
(G)
×
Environment
(E)
interaction
E
+
(G
E)
all
traits.
Eberhart
Russel
model
green
fruit
DPCHYB
10
(627.68
g/plant)
5
(583.50
got
top
ranks.
G
GE
biplot
extrudes
that
Berthin
(E5)
most
representative
discriminating
environment
suitable
selecting
generally
adapted
hybrids.
Mean
vs
indicated
superiority
yield.
‘Which
won
where’
polygon
view
GGE
showed
high
yielding
hybrid
except
Palampur
(E1)
where
responsive
adaptive.
Abstract
Variety
testing
programs
(VTPs)
use
multi‐environment
trials
(MET)
to
evaluate
and
report
the
performance
of
commercially
available
pre‐commercial
soybean
(
Glycine
max
L.
Merr.)
varieties
targeting
a
specific
set
environments.
Adequate
modeling
environmental
variability
genotype–environment
interactions
(G
×
E)
within
VTP
would
help
farmers
seed
companies
decide
which
variety
choose
or
recommend.
We
propose
an
approach
characterize
environments
using
data
from
University
Missouri
VTP.
modeled
trend
(EnvT)
based
on
phenotypic
mean
observed
phenotype
in
each
environment.
The
were
classified
into
four
different
EnvT
environment
types,
soil
climate
used
as
predictors
through
eXtreme
Gradient
Boosting
(XGBoost)
model.
Temperature
late
vegetative
flowering,
soil‐saturated
hydraulic
conductivity,
silt
content
key
drivers
EnvT.
identified
overrepresented
(62%)
increased
ratio
between
G
E
variance.
A
simulation
case
study
verified
that
random
removal
sites
dataset
quickly
degraded
analysis,
implying
increasing
number
underrepresented
is
recommended.
Our
results
demonstrate
characterization
essential
for
optimizing
resource
allocation
VTP,
thereby
supporting
end
goal
aiding
utilize
best
their
production
Agronomy,
Год журнала:
2025,
Номер
15(4), С. 861 - 861
Опубликована: Март 29, 2025
Maize
is
a
staple
crop
in
China,
playing
crucial
role
agriculture
and
food
security.
However,
current
planting
densities
are
suboptimal,
leading
to
lower
yields
unrealized
potential.
This
study
explores
the
potential
maximize
maize
by
optimizing
density
implementing
region-specific
agronomic
measures
across
China’s
diverse
agro-ecological
zones.
We
compiled
dataset
consisting
of
1974
independent
field
trials
from
720
publications
main
maize-growing
areas,
spanning
period
2000
2023,
assess
impact
optimal
practices
on
production.
Our
findings
reveal
that
increasing
levels—49.34%
higher
than
farmer
practices—can
significantly
boost
national
16.28%.
Furthermore,
adopting
techniques
like
precision
irrigation,
soil
tillage,
plant
growth
regulators
enhances
this
effect,
raising
69.91%
yield
27.26%.
Notably,
irrigated
areas
Northwest
China
showed
highest
potential,
whereas
southern
hilly
regions
had
lowest.
underscores
significance
tailoring
each
region.
Combining
with
adjusted
can
reduce
disparity.
Precision
were
particularly
effective
maximizing
especially
North
Plain.
In
contrast,
proved
most
Southwest
Southern
China.
integrating
optimized
improve
productivity,
thereby
supporting
sustainable
agriculture.
It
provides
scientific
basis
for
regionalized
agricultural
management.
Frontiers in Research Metrics and Analytics,
Год журнала:
2025,
Номер
10
Опубликована: Апрель 11, 2025
The
analysis
of
multi-environment
trials
(MET)
data
in
plant
breeding
and
agricultural
research
is
inherently
challenging,
with
conventional
ANOVA-based
methods
exhibiting
limitations
as
the
complexity
MET
experiments
grows.
This
study
presents
linear
mixed
model-based
approaches
for
analysis.
Ten
grain
yield
datasets
from
national
variety
Ethiopia
were
used.
Randomized
complete
block
(RCB)
design
analysis,
spatial
spatial+genotype-by-environment
(G
×
E)
compared
under
model
framework.
Spatial
detected
significant
local,
global,
extraneous
variations,
positive
correlations.
For
+
G
E
increasing
order
factor
analytic
(FA)
models
improved
explanation
variance,
though
optimal
FA
was
dataset-dependent.
Integrating
variability
through
modeling
approach
substantially
genetic
parameter
estimates
minimized
residual
variability.
improvement
particularly
notable
larger
datasets,
where
number
size
each
trial
played
a
crucial
role
presence
strong
GxE
effects.
Additionally,
correlation
heat
maps
dendrograms
provided
intuitive
insights
into
relationships,
revealing
patterns
positive,
negative,
weak
correlations,
well
distinct
clusters.
results
clearly
demonstrate
that
approaches,
especially
excel
capturing
complex
plot
variation
effects
by
effectively
integrating
models.
These
have
important
implications
improving
efficiency
accuracy
which
gain
estimation
research,
ultimately
accelerating
delivery
high-performing
crop
varieties
to
farmers
consumers.
Functional Plant Biology,
Год журнала:
2023,
Номер
50(6), С. 435 - 454
Опубликована: Апрель 28, 2023
Grain
yield
improvement
in
globally
important
staple
crops
is
critical
the
coming
decades
if
production
to
keep
pace
with
growing
demand;
so
there
increasing
interest
understanding
and
manipulating
plant
growth
developmental
traits
for
better
crop
productivity.
However,
this
confounded
by
complex
cross-scale
feedback
regulations
a
limited
ability
evaluate
consequences
of
manipulation
on
production.
Plant/crop
modelling
could
hold
key
deepening
our
dynamic
trait-crop-environment
interactions
predictive
capabilities
supporting
genetic
manipulation.
Using
photosynthesis
as
an
example,
review
summarises
past
present
experimental
work,
bringing
about
model-guided
thrust,
encompassing
research
into:
(1)
advancing
plant/crop
that
connects
across
biological
scales
organisation
using
trait
dissection-integration
principle;
(2)
improving
reliability
predicted
molecular-trait-crop-environment
system
dynamics
validation;
(3)
innovative
model
application
synergy
experimentation
G×M×E
predict
outcomes
intervention
(or
lack
it)
strategising
further
molecular
breeding
efforts.
The
possible
future
roles
maximising
are
discussed.
Natural sciences education,
Год журнала:
2024,
Номер
53(1)
Опубликована: Март 3, 2024
Abstract
Increasing
grain
yields
in
maize
(
Zea
mays
L.)
have
been
widely
witnessed
over
the
lifespan
of
many
aging
farmers.
This
paper
aims
to
capture
and
summarize
overlapping
explanations
for
significant
increases
yields.
Changes
management
practices
resulted
higher
planting
densities;
however,
genetic
alterations
allowed
varieties
tolerate
increased
stress
levels.
Increased
levels,
such
as
light
availability,
prompted
changes
leaf
area
index,
radiation
use
efficiency,
angles.
The
narrowing
anthesis–silking
interval
is
more
planted
densities.
Stress
factors
affecting
can
be
managed
by
both
water
or
pesticide
application,
breeding
modifications,
resistance
abiotic,
temperature,
moisture,
biotic,
pest,
disease,
insect
stressors.
increase
past
century
attributed
a
combination
achievements
crop
alternations
practices.
