Proceedings of the National Academy of Sciences,
Год журнала:
2023,
Номер
120(14)
Опубликована: Март 27, 2023
The
resilience
and
sustainability
of
food
systems
depend
on
crop
diversity.
It
is
used
by
breeders
to
produce
new
better
varieties,
farmers
respond
challenges
or
demands
spread
risk.
However,
diversity
can
only
be
if
it
has
been
conserved,
identified
as
the
solution
for
a
given
problem,
available.
As
ways
in
which
research
breeding
change
expand,
global
conservation
system
must
keep
pace;
provide
not
biological
materials
themselves,
but
also
relevant
information
presented
comprehensive
coherent
way—all
while
ensuring
equitable
access
benefit
sharing.
Here
we
explore
evolving
priorities
efforts
safeguard
make
available
world's
crops
through
ex
situ
genetic
resource
collections.
We
suggest
that
collections
held
academic
institutions
other
holders
are
standard
gene
banks
should
integrated
decision-making
conserve
resources.
conclude
with
key
actions
taken
ensure
all
types
able
fulfill
their
role
foster
more
diverse,
equitable,
resilient,
sustainable
globally.
Proceedings of the National Academy of Sciences,
Год журнала:
2023,
Номер
120(14)
Опубликована: Март 27, 2023
Genetic
progress
of
crop
plants
is
required
to
face
human
population
growth
and
guarantee
production
stability
in
increasingly
unstable
environmental
conditions.
Breeding
accompanied
by
a
loss
genetic
diversity,
which
hinders
sustainable
gain.
Methodologies
based
on
molecular
marker
information
have
been
developed
manage
diversity
proved
effective
increasing
long-term
However,
with
realistic
plant
breeding
sizes,
depletion
closed
programs
appears
ineluctable,
calling
for
the
introduction
relevant
donors.
Although
maintained
significant
efforts,
resource
collections
remain
underutilized,
due
large
performance
gap
elite
germplasm.
Bridging
populations
created
crossing
resources
lines
prior
into
can
this
efficiently.
To
improve
strategy,
we
explored
simulations
different
genomic
prediction
management
options
global
program
involving
bridging
an
component.
We
analyzed
dynamics
quantitative
trait
loci
fixation
followed
fate
allele
donors
after
their
program.
Allocating
25%
total
experimental
create
component
highly
beneficial.
showed
that
potential
should
be
selected
phenotype
rather
than
predictions
calibrated
ongoing
recommend
incorporating
improved
using
calibration
model
optimal
cross
selection
maintaining
constant
diversity.
These
approaches
use
efficiently
sustain
gain
maintain
neutral
improving
flexibility
address
future
objectives.
Proceedings of the National Academy of Sciences,
Год журнала:
2023,
Номер
120(14)
Опубликована: Март 27, 2023
Current
food
systems
are
challenged
by
relying
on
a
few
input-intensive,
staple
crops.
The
prioritization
of
yield
and
the
loss
diversity
during
recent
history
domestication
has
created
contemporary
crops
cropping
that
ecologically
unsustainable,
vulnerable
to
climate
change,
nutrient
poor,
socially
inequitable.
For
decades,
scientists
have
proposed
as
solution
address
these
challenges
global
security.
Here,
we
outline
possibilities
for
new
era
crop
domestication,
focused
broadening
palette
diversity,
engages
benefits
three
elements
domestication:
crops,
ecosystems,
humans.
We
explore
how
suite
tools
technologies
at
hand
can
be
applied
renew
in
existing
improve
underutilized
domesticate
bolster
genetic,
agroecosystem,
system
diversity.
Implementing
requires
researchers,
funders,
policymakers
boldly
invest
basic
translational
research.
Humans
need
more
diverse
Anthropocene-the
process
help
build
them.
Plants,
Год журнала:
2024,
Номер
13(6), С. 758 - 758
Опубликована: Март 7, 2024
Landraces
and
indigenous
varieties
comprise
valuable
sources
of
crop
species
diversity.
Their
utilization
in
plant
breeding
may
lead
to
increased
yield
enhanced
quality
traits,
as
well
resilience
various
abiotic
biotic
stresses.
Recently,
new
approaches
based
on
the
rapid
advancement
genomic
technologies
such
deciphering
pangenomes,
multi-omics
tools,
marker-assisted
selection
(MAS),
genome-wide
association
studies
(GWAS),
CRISPR/Cas9
gene
editing
greatly
facilitated
exploitation
landraces
modern
breeding.
In
this
paper,
we
present
a
comprehensive
overview
implementation
highlight
their
importance
pinpointing
genetic
basis
desirable
traits
annual,
perennial
herbaceous,
woody
cultivated
Mediterranean
region.
The
need
for
further
employment
advanced
-omic
unravel
full
potential
underutilized
diversity
is
also
indicated.
Ultimately,
large
amount
data
emerging
from
investigation
reveals
source
genes
role
mitigating
ongoing
risks
posed
by
climate
change
agriculture
food
security
highlighted.
Functional Plant Biology,
Год журнала:
2025,
Номер
52(1)
Опубликована: Янв. 2, 2025
Rice
(Oryza
sativa
)
is
a
crucial
staple
crop
worldwide,
providing
nutrition
to
more
than
half
of
the
global
population.
Nonetheless,
sustainability
grain
production
increasingly
jeopardized
by
both
biotic
and
abiotic
stressors
exacerbated
climate
change,
which
increases
crop's
rvulnerability
pests
diseases.
Genome-editing
clustered
regularly
interspaced
short
palindromic
repeats
CRISPR-associated
Protein
9
(CRISPR-Cas9)
presents
potential
solution
for
enhancing
rice
productivity
resilience
under
climatic
stress.
This
technology
can
alter
plant's
genetic
components
without
introduction
foreign
DNA
or
genes.
It
has
become
one
most
extensively
used
approaches
discovering
new
gene
functions
creating
novel
varieties
that
exhibit
higher
tolerance
stresses,
herbicide
resistance,
improved
yield
production.
study
examines
numerous
CRISPR-Cas9-based
genome-editing
techniques
knockout,
knock-in,
multiplexing
simultaneous
disruption
multiple
genes,
base-editing,
prime-editing.
review
elucidates
application
technologies
enhance
directly
targeting
yield-related
genes
indirectly
modulating
stress-responsive
We
highlight
need
integrate
advancements
with
conventional
advanced
agricultural
methods
create
are
resilient
thereby
safeguarding
food
security
promoting
amid
concerns.
Frontiers in Plant Science,
Год журнала:
2022,
Номер
13
Опубликована: Июнь 16, 2022
Alongside
the
use
of
fertilizer
and
chemical
control
weeds,
pests,
diseases
modern
breeding
has
been
very
successful
in
generating
cultivars
that
have
increased
agricultural
production
several
fold
favorable
environments.
These
typically
homogeneous
(either
homozygous
inbreds
or
hybrids
derived
from
inbred
parents)
are
bred
under
optimal
field
conditions
perform
well
when
there
is
sufficient
water
nutrients.
However,
such
rare
globally;
indeed,
a
large
proportion
arable
land
could
be
considered
marginal
for
production.
Marginal
poor
fertility
and/or
shallow
soil
depth,
subject
to
erosion,
often
occurs
semi-arid
saline
Moreover,
these
environments
expected
expand
with
ongoing
climate
change
progressive
degradation
resources
globally.
Crop
wild
relatives
(CWRs),
most
used
as
sources
biotic
resistance,
also
possess
traits
adapting
them
Wild
progenitors
selected
over
course
their
evolutionary
history
maintain
fitness
diverse
range
stresses.
Conversely,
broad
adaptation
reduced
genetic
diversity
vulnerability
abiotic
challenges.
There
potential
exploit
heterogeneity,
opposed
uniformity,
utilization
lands.
This
review
discusses
adaptive
improve
performance
strategies
deploy
them.
Plants,
Год журнала:
2022,
Номер
11(15), С. 2038 - 2038
Опубликована: Авг. 4, 2022
Despite
the
dramatic
increase
in
food
production
thanks
to
Green
Revolution,
hunger
is
increasing
among
human
populations
around
world,
affecting
one
nine
people.
The
negative
environmental
and
social
consequences
of
industrial
monocrop
agriculture
becoming
evident,
particularly
contexts
greenhouse
gas
emissions
increased
frequency
impact
zoonotic
disease
emergence,
including
ongoing
COVID-19
pandemic.
Human
activity
has
altered
70–75%
ice-free
Earth’s
surface,
squeezing
nature
wildlife
into
a
corner.
To
prevent,
halt,
reverse
degradation
ecosystems
worldwide,
UN
launched
Decade
Ecosystem
Restoration.
In
this
context,
review
describes
origin
diversity
cultivated
species,
modern
other
activities
on
plant
genetic
resources,
approaches
conserve
use
them
with
specific
examples
crop
wild
relatives
for
breeding
climate-resilient
cultivars
that
require
less
chemical
mechanical
input.
need
better
coordinate
situ
conservation
efforts
funding
been
highlighted.
We
emphasise
strengthen
genebank
infrastructure,
enabling
biotechnological
tools
help
genotyping
characterising
accessions
plus
advanced
ex
methods,
identifying
gaps
collections,
developing
core
linking
data
international
databases.
Crop
variety
diversification
minimising
tillage
field
practices
through
development
introduction
herbaceous
perennial
crops
proposed
as
an
alternative
regenerative
system
higher
carbon
sequestration,
sustaining
economic
benefits
growers,
whilst
also
providing
benefits.
Nature Plants,
Год журнала:
2022,
Номер
8(5), С. 491 - 499
Опубликована: Май 9, 2022
Abstract
Crop
landraces
have
unique
local
agroecological
and
societal
functions
offer
important
genetic
resources
for
plant
breeding.
Recognition
of
the
value
landrace
diversity
concern
about
its
erosion
on
farms
led
to
sustained
efforts
establish
ex
situ
collections
worldwide.
The
degree
which
these
succeeded
in
conserving
has
not
been
comprehensively
assessed.
Here
we
modelled
potential
distributions
eco-geographically
distinguishable
groups
25
cereal,
pulse
starchy
root/tuber/fruit
crops
within
their
geographic
regions
diversity.
We
then
analysed
extent
are
represented
genebank
collections,
using
ecological
coverage
metrics
as
a
proxy
find
that
conservation
is
currently
moderately
comprehensive
average,
with
substantial
variation
among
crops;
mean
63%
±
12.6%
genebanks.
Breadfruit,
bananas
plantains,
lentils,
common
beans,
chickpeas,
barley
bread
wheat
most
fully
represented,
whereas
largest
gaps
persist
pearl
millet,
yams,
finger
groundnut,
potatoes
peas.
Geographic
prioritized
further
collection
include
South
Asia,
Mediterranean
West
Mesoamerica,
sub-Saharan
Africa,
Andean
mountains
America
Central
East
Asia.
With
progress
fill
gaps,
high
representation
group
genebanks
feasible
globally,
thus
fulfilling
international
targets
conservation.
New Phytologist,
Год журнала:
2022,
Номер
234(5), С. 1583 - 1597
Опубликована: Март 22, 2022
Summary
Underutilized
crops
are,
by
definition,
under‐researched
compared
to
staple
yet
come
with
traits
that
may
be
especially
important
given
climate
change
and
the
need
feed
a
globally
increasing
population.
These
are
often
stress‐tolerant,
this
combined
unique
beneficial
nutritional
profiles.
Whilst
progress
is
being
made
generating
reference
genome
sequences,
in
Tansley
Review,
we
show
how
only
very
first
step.
We
advocate
going
‘beyond
genome’
should
priority,
as
it
at
stage
one
can
identify
specific
genes
adaptive
alleles
underpin
valuable
traits.
sum
up
population
genomic
pangenomic
approaches
have
led
identification
of
stress‐
disease‐tolerant
compare
small
number
examples
from
underutilized
crops.
also
demonstrate
previously
benefitted
advances
many
breeding
targets
well
studied
This
cross‐crop
population‐level
resequencing
could
lead
an
understanding
genetic
basis
level
investment
crucial
for
fully
value
these
before
they
lost.
