Linking the spatial and genomic structure of adaptive potential for conservation management: a review
Genome,
Год журнала:
2024,
Номер
67(11), С. 403 - 423
Опубликована: Июль 31, 2024
We
unified
the
recent
literature
with
goal
to
contribute
discussion
on
how
genetic
diversity
might
best
be
conserved.
argue
that
this
decision
will
guided
by
genomic
variation
is
distributed
among
manageable
populations
(i.e.,
its
spatial
structure),
degree
which
adaptive
potential
predicted
across
entire
genome
or
subset
of
identified
as
putatively
and
whether
we
are
managing
species
single
entities
collections
diversifying
lineages.
The
distribution
our
ultimate
have
practical
implications
for
on-the-ground
management.
If
largely
polygenic
responsive
change,
structure
broadly
governed
forces
determining
genome-wide
(linked
selection,
drift,
gene
flow),
making
measurement
prioritization
straightforward.
entities,
then
population-level
schemes
possible
so
maximize
future
pooled
variation.
outline
one
such
scheme
based
popular
Shapley
value
from
cooperative
game
theory
considers
relative
contribution
a
population
an
unknown
collection
populations.
Язык: Английский
A review on QST–FST comparisons of seed plants: Insights for conservation
Ecology and Evolution,
Год журнала:
2023,
Номер
13(3)
Опубликована: Март 1, 2023
Abstract
Increased
access
to
genome‐wide
data
provides
new
opportunities
for
plant
conservation.
However,
information
on
neutral
genetic
diversity
in
a
small
number
of
marker
loci
can
still
be
valuable
because
genomic
are
not
available
most
rare
species.
In
the
hope
bridging
gap
between
conservation
science
and
practice,
we
outline
how
practitioners
more
efficiently
employ
population
We
first
review
current
knowledge
about
variation
(NGV)
adaptive
(AGV)
seed
plants,
regarding
both
within‐population
among‐population
components.
then
introduce
estimates
differentiation
quantitative
traits
(
Q
ST
)
markers
F
biology
summarize
applications
derived
from
–
comparisons,
particularly
capture
AGV
NGV
in‐situ
ex‐situ
programs.
Based
published
studies,
found
that,
average,
two
four
populations
would
needed
woody
perennials
n
=
18)
99%
AGV,
respectively,
whereas
case
herbaceous
14).
On
is
3.6,
1.5,
1.1
times
greater
than
annuals,
perennials,
respectively.
Hence,
management
policies
or
suggestions
based
solely
inference
could
misleading,
To
maximize
preservation
maximum
levels
NGV,
suggest
using
rather
average
.
recommend
managers
consider
this
when
formulating
further
restoration
plans
species,
Язык: Английский
Quantitative Genetics in Conservation Biology
Elsevier eBooks,
Год журнала:
2024,
Номер
unknown
Опубликована: Янв. 1, 2024
Язык: Английский
A review on QST–FST comparisons of seed plants: Insights for conservation
Authorea (Authorea),
Год журнала:
2022,
Номер
unknown
Опубликована: Ноя. 21, 2022
Increased
access
to
genome-wide
data
provides
new
opportunities
for
plant
conservation.
However,
information
on
neutral
genetic
diversity
in
a
small
number
of
marker
loci
can
still
be
valuable
because
genomic
are
not
available
most
rare
species.
In
the
hope
bridging
gap
between
conservation
science
and
practice,
we
outline
how
practitioners
more
efficiently
employ
population
We
first
review
current
knowledge
about
within-population
variation
among-population
differentiation
(NGV)
adaptive
(AGV)
seed
plants.
then
introduce
estimates
quantitative
traits
(
Q
)
markers
F
biology
summarize
applications
derived
from
–
comparisons,
particularly
capture
AGV
NGV
both
in-situ
ex-situ
programs.
Based
published
studies,
found
that,
average,
two
four
populations
would
needed
woody
perennials
n
=
18)
99%
variation,
respectively,
whereas
case
herbaceous
14).
On
is
3.6,
1.5,
1.1
times
greater
than
plants,
annuals,
perennials,
respectively.
suggest
using
maximum
rather
average
among
trait
comparisons.
Hence,
management
policies
or
suggestions
based
solely
inference
could
misleading,
recommend
managers
consider
this
when
formulating
further
restoration
plans
species,
species
particular.
Язык: Английский