Individual and Population Differences Shape Species Interactions and Natural Selection
Start, 2019.
Start, 2019.
Trait variation is central to our understanding of species interactions,
and trait variation arising within species is increasingly recognized
as an important component of community ecology. Ecologists generally
consider intraspecific variation either among or within populations, yet
these differences can interact to create patterns of species
interactions. These differences can also affect species interactions by
altering processes occurring at distinct scales. Specifically,
intraspecific variation may shape species interactions simply by
shifting a population’s position along a trait-function map or by
shifting the relationship between traits and their ecological function. I
test these ideas by manipulating within- and among-population
intraspecific variation in wild populations of a gall-forming insect
before quantifying species interactions and phenotypic selection.
Within- and among-population differences in gall size interact to affect
attack rates by an enemy community, but among-population differences
were far more consequential. Intraspecific differences shaped species
interactions by both shifting the position of populations along the
trait-function map and altering the relationship between traits and
their function, with ultimate consequences for patterns of natural
selection. I suggest that intraspecific variation can affect communities
and natural selection by acting through individual- and
population-level mechanisms.
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