Associations between sex-organ deployment and morph bias in related heterostylous taxa with different stylar polymorphisms.

Victoria Ferrero,Juan Arroyo,Danny Rojas,Spencer C H Barrett,Luis Navarro

doi:10.3732/ajb.1600345

Abstract

Populations of heterostylous species are characterized by two or three floral morphs with reciprocal positioning of stigmas and anthers. Theoretical models predict equal morph frequencies (isoplethy) when disassortative mating is prevalent in populations, but biased morph ratios may occur when variation in the expression of heterostyly causes deviations from intermorph mating. We explore the role of sex-organ deployment in governing morph ratios in two closely related genera of Boraginaceae, exhibiting striking variation in floral traits associated with the heterostylous syndrome. We sampled 66 populations of six species of Glandora and 39 populations of three species of Lithodora across their distributional range in the Mediterranean. In each population we estimated morph ratios and measured several floral traits. We used phylogenetically corrected and noncorrected regressions to test the hypothesis that differences in sex-organ reciprocity and herkogamy are associated with deviations from isoplethy. Biased morph ratios occurred in 24% of populations, particularly in Lithodora. Populations biased for the long-styled morph (L-morph) were more frequent than the short-styled morph (S-morph). Distylous species were less likely to exhibit biased ratios than species with stigma-height dimorphism. In Lithodora fruticosa, a species lacking reciprocity, decreased herkogamy in the S-morph was associated with increasing L-morph bias, perhaps resulting from self-interference. Striking variation in the expression of heterostyly in Glandora and Lithodora is associated with biased morph ratios, which probably result from pollinator-mediated mating asymmetries within populations.

Highlights

Striking variation in the expression of heterostyly in Glandora and Lithodora is associated with biased morph ratios, which probably result from pollinator-mediated mating asymmetries within populations
Is a genetic polymorphism in which populations are composed of two or three floral morphs that differ in the reciprocal placement of stigmas and anthers within flowers
The genetic control of the polymorphism in distylous plants usually involves a single Mendelian diallelic locus in which the long-styled morph is of genotype ss and the short-styled morph is of genotype Ss, in several species the dominance relations at the S-locus are reversed (Lewis and Jones, 1992)

Summary

Methods

We explore the role of sex-organ deployment in governing morph ratios in two closely related genera of Boraginaceae, exhibiting striking variation in floral traits associated with the heterostylous syndrome. We sampled 66 populations of six species of Glandora and 39 populations of three species of Lithodora across their distributional range in the Mediterranean. The two genera exhibit a range of compatibility systems including fully self-compatible taxa to those that are self-incompatible, including some with typical dimorphic incompatibility and others that are intramorph compatible (Ferrero et al, 2012). Associated with this variation are different types of floral polymorphism: distyly, stigma-height dimorphism, and “relaxed stigma-height dimorphism” (see Ferrero et al, 2011a, b). Insect visitors to flowers of both genera include solitary bees (mainly Anthophora), species of Lepidoptera (principally Macroglossum stellatarum), and Diptera (mostly Bombylius), and these visitors have been shown to differ in pollination efficiency and the range of species they visit (Ferrero et al, 2011b)

Results

Discussion

Conclusion