Functional modularity in a forcible flower mechanism: relationships among morphology, biomechanical features and fitness

CÓRDOBA, SILVINA ALEJANDRA; BENITEZ VIEYRA, SANTIAGO; COCUCCI, ANDREA

EVOLUTIONARY ECOLOGY

SPRINGER

Lugar: Berlin; Año: 2015 vol. 29 p. 719 - 732

0269-7653

Flowers may be interpreted as complex combinations of organs functionally coordinated to attract pollinators and to mechanically interact with the pollinator?s body, particularly when flower mechanisms are actively handled by pollinators. Thus, a func- tional modularity of traits in keel flowers (Fabaceae) was expected because of a com- partmentalization between attraction and mechanical functions. To test this hypothesis, we used Collaea argentina, a Fabaceae that exhibits typical keel flowers. The force needed to open keels, the keel displacement angle and floral morphometric traits in 100 plants from a natural population were measured to detect floral characters correlated with the biome- chanical variables. Furthermore, we examined the relationships among this functional module, biomechanical variables and female reproductive success to explore whether these traits are the targets of pollinator?mediated phenotypic selection, and used path analysis to examine the causal relationship among these variables. A functional module formed by two morphometric traits of the petals directly involved in the floral mechanism (keel and wings) was found, but no flag trait was involved in this module. Even though the functional module had a positive effect on force and there were significant relationships between the displacement angle and fruit set, no significant effect of force on female reproductive success was detected. These results question whether selection currently plays a role favouring the integration of this module, but this may be consistent with a past stabilizing selection on the force needed to open the keel.