Abstract
Community genetics aims to understand the effects of intraspecific genetic variation on community composition and diversity, thereby connecting community ecology with evolutionary biology. Multiple studies have shown that different plant genotypes harbor different communities of associated organisms, such as insects. Yet, the mechanistic links that tie insect community composition to plant genetics are still not well understood. To shed light on these relationships, we explored variation in both plant traits (e.g., growth, phenology, defense) and herbivorous insect and ant communities on 328 replicated aspen (Populus tremuloides) genets grown in a common garden. We measured traits and visually surveyed insect communities annually in 2014 and 2015. We found that insect communities overall exhibited low heritability and were shaped primarily by relationships among key insects (i.e., aphids, ants, and free-feeders). Several tree traits affected insect communities and the presence/absence of species and functional groups. Of these traits, tree size and foliar phenology were the most important. Larger trees had denser (i.e., number of insects per unit tree size) and more diverse insect communities, while timing of bud break and bud set differentially influenced particular species and insect groups, especially leaf modifying insects. These findings will inform future research directed toward identification of plant genes and genetic regions that underlie the structure of associated insect communities.
Highlights
Over the past 20 years, the developing field of community genetics has aimed to link community ecology with evolutionary biology [1]
Heritability estimates for abundance varied across insect functional groups (Table 3)
Abundance of galling insects was the most heritable, while abundance of leaf miners and free feeders showed little to no heritability across aspen genets. Heritability estimates of both community metrics and abundances of different functional groups were fairly consistent across years (Tables 2 and 3)
Summary
Over the past 20 years, the developing field of community genetics has aimed to link community ecology with evolutionary biology [1]. Because genetics of host organisms can shape associated communities [2], such communities can be viewed as extended phenotypes of the host [3]. Accumulating studies, primarily in plant-insect systems [4,5,6,7] have consistently supported the concept. Further progress in this field, has been constrained by limited information about the heritability of associated communities, the identification of core interactions. Tree traits shape insect communities of Food and Agriculture Usda.gov/program/mcintire-stennis-capacity-grant; and AFRI grant 2016-67013-25088 awarded to RLL, https://nifa.usda.gov/program/agricultureand-food-research-initiative-afri). The funders had no role in study design, data collection and analysis, decision to publish, or preparation of the manuscript
Sign-in/Register to view highlights & summary Sign-in/Register to access full text options 
Talk to us
Join us for a 30 min session where you can share your feedback and ask us any queries you have
Schedule a call
