MEASURING POLLINATOR‐MEDIATED SELECTION ON MORPHOMETRIC FLORAL TRAITS: BUMBLEBEES AND THE ALPINE SKY PILOT, POLEMONIUM VISCOSUM

Sweet‐flowered plants of Polemonium viscosum in Colorado are visited by a fly‐dominated pollinator fauna at timberline (krummholz), but almost exclusively by bumblebees in higher‐elevation tundra habitats. Significant increases in flower size and height are associated with increasing elevation along this habitat gradient. This paper presents the results of an experiment designed to test whether bumblebees exert sufficient selection on morphometric floral phenotypes to account for the clinal shifts seen in natural populations. Two populations of sweet‐flowered plants of krummholz origin were established: one randomly pollinated, the other solely bumblebee‐pollinated. I tested the effects of two independent axes of floral variation, obtained by principal‐components analysis, on mean seed set per flower of plants in each population. PC1, with strong correlations to corolla diameter, corolla length, and stem height, explained a significant amount of variance in seed set for bumblebee‐pollinated plants but had no bearing on that of randomly pollinated plants. PC2, with strong correlation to flower number, did not influence seed set in either population. Bumblebee behavior was correlated with variation in PC1 scores of the selected population, yielding positive directional selection on morphometric floral traits associated with PC1. Selection coefficients for PC1, corolla length, corolla diameter, and inflorescence height were estimated, respectively, as 0.11, 0.09, 0.07, and 0.06 ( P < 0.025 in all cases). These results support the hypothesis that pollinator‐mediated selection can bring about changes in floral form, and can explain shifts in floral morphology of P. viscosum along natural habitat gradients.