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Research |
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Rebecca E. Irwin |
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My research is
currently focused on three main questions. |
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(1) What is the relative importance of direct and indirect
effects of antagonists on the ecology and evolution of plant-pollinator
mutualisms? The aim of this work is to understand the simultaneous importance of interactions among several
antagonists with their host plants and mutualist
pollinators, and how resource availability and community composition affect
the outcome of such interactions. In collaboration with Alison Brody, we are examining
the combined effects of a nectar-robbing bumblebee, Bombus
occidentalis, a pre-dispersal seed predator, Hylemya sp., an ungulate herbivore, Odocoileus hemionus,
and plant community composition on the reproductive success of the subalpine host plant, Ipomopsis
aggregata (Polemoniaceae)
in Colorado at the Rocky Mountain Biological Lab. This work is novel in
integrating the effects of multiple anatagonists on
the outcome of plant-pollinator mutualisms under different environmental
conditions. Understanding the complexity of plant-pollinator-antagonist
interactions will provide a deeper knowledge of how species are ecologically
and evolutionarily linked in biological communities. |
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(2) Do plant interactions
with mutualists and antagonists simultaneously
shape and constrain selection on nectar traits? Determining which factors regulate and
drive variation in the form and abundance of organisms in natural systems is
a central goal in ecological and evolutionary research. In collaboration with
Lynn Adler from UMass-Amherst, we are integrating
the costs and benefits of resistance and tolerance associated with a
ubiquitous but poorly understood floral trait, toxic nectar, in the context
of joint forces of selection exerted by both mutualistic
and antagonistic floral visitors using the perennial vine, Gelsemium simpervirens,
native to the southeastern US and its native pollinators and nectar robber. |
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(3) To what degree does an
invasive plant alter the web of interactions between native plants and
pollinators? Species invasions are one of the
leading components of global environmental change and are the second leading
cause of biodiversity loss worldwide. Despite the recognition that invaders
affect competitive and antagonistic interactions among natives, we know
relatively little about how invaders affect mutualistic
interactions, such as those between native plants and pollinators. I am
currently using an experimental approach to measure the degree to which an
invasive plant in the western US (Linaria
vulgaris) impacts the strength of native
plant-pollinator linkages in pollination webs, native plant fitness, and
offspring recruitment. This work builds on the existing
conceptual framework of quantitative food webs to include mutualistic
interactions and provides empirical and predictive insight into the impacts
of an invasive plant on native plant-pollinator mutualisms. |
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