FEATURES OF POLLEN FLOW IN DIMORPHIC SPECIES OF LYTHRUM SECTION EUHYSSOPIFOLIA

Abstract

The North American Lythrum lineare L., L. alatum Pursh, L. curtissii Fernald, and L. californicum T. & G. have distylous flowers that differ in a number of traits. In the two species examined, pins have a stronger incompatibility system than thrums. Pins outnumber thrums in natural populations, but the ratio of the two may change radically during the course of a year, probably as a result of sexual reproduction. Exotic honeybees visiting L. californicum exhibited preferential collection of pin pollen over thrum pollen. The relative proportion of pin and thrum pollen grains transferred to stigmas is not dependent upon the proportion in which these pollen grains are produced in a population. Analyses of stigmatic pollen loads of L. lineare and L. californicum indicate very high levels of intramorph pollen flow. Although distyly is likely derived from tristyly in Lythrum, pollen flow patterns in trimorphic species seem to operate more “efficiently” than in dimorphic ones. It is probable that distyly has evolved from tristyly several times in the Lythraceae, but comparisons between pollen flow patterns in distylous species and those in a tristylous species provide no clear insights into the selective pressures that have led to this fundamental change in floral morphology and reproductive system.