Abstract
Plants have evolved complex mechanisms to recognize and respond to the presence of neighboring plants, and the genetic identity of a neighbor has been shown to make a difference in this response. Studies have found that plants are able to differentiate among self- versus non-self and among sibling (kin) competitors. Here, we present data for the dioecious grass Distichlis spicata on seedling recognition of kin and sex. D. spicata exhibits extreme spatial segregation of the sexes (SSS) in the field, and previous work has shown that intra-sexual competition is less than inter-sexual competition in the field. In this experiment, we conducted experiments in the lab, exposing the seedlings to liquid media in which seedlings had been previously grown, rather than have the seedling physically contact one another. We found that inter-sexual interactions caused a decrease in the total dry weight and an increase in root/shoot ratio of the plants compared with intra-sexual interactions. These findings suggest that D. spicata plants can recognize and respond to plant sex and that inter-sexual competition contributes to SSS, even when additional interactions, such as mycorrhizal fungi are controlled, and physical interactions between plants are removed. In the kin recognition analysis, we found that plants paired with another plant from the same mother had significantly greater lateral root number and length than plants paired with non-kin, suggesting that in this highly clonal grass, kin recognition may be an important mechanism in competitive interactions.
Published Version
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