Gall insects and selection on plant vigor: can susceptibility compromise success in competition?

Gall insects select vigorously growing plants and plant parts when initiating gall formation. Vigor is associated with rapid growth rate, and in turn, rapid growth confers competitiveness. Are there conditions under which the cost of vigor, in the form of increased susceptibility to attack, outweighs the benefit of competitive success? I present a simulation model to explore the interaction between susceptibility and competition on the selective advantage of increased growth rate. Assuming size-symmetric competition, the model shows that in general, vigor is favored (benefit > cost) at low to intermediate gall loads. At very high plant densities, however, plants with high gall loads may lose standing in the competitive size hierarchy from which they cannot recover. The details of this result, however, change somewhat when competition is size-asymmetric, that is, when a larger focal plant suppresses smaller neighbors, but smaller neighbors cannot exert a reciprocal effect on the focal. At low densities, the pattern of selection on growth rate is qualitatively similar to the size-symmetric case. At higher plant densities, however, fast-growing genotypes can suppress slow ones so much during the preattack phase that even at the highest gall loads they maintain their standing in the competitive hierarchy. Thus, heavy gall insect attack on vigorous plants can impose selection against high intrinsic growth rates under strong symmetric competition, but not strong asymmetric competition. While life history traits can evolve as a correlated response to selection on defensive traits that reduce susceptibility, this model reveals that susceptibility can evolve as a correlated response to selection on basic life history traits. [ABSTRACT FROM AUTHOR]