The function of floral traits and phenotypic selection in Aconitum gymnandrum (Ranunculaceae)

• Published in: Plant biology (Stuttgart, Germany) Vol. 23; no. 6; pp. 931 - 938
• Main Authors: Lu, N.‐N., Ma, Y., Hou, M., Zhao, Z.‐G., Ren, Z.‐X.
• Format: Journal Article
• Language: English
• Published: England Wiley Subscription Services, Inc 01.11.2021
• Subjects: Aconitum; Aconitum - genetics; Aconitum - physiology; Aconitum gymnandrum; Adaptiveness; Angiosperms; Attraction; Breeding success; Efficiency; Factorial design; flower adaptation; Flowers; Integration; mechanism of selection; Nectar; Phenotype; phenotypic manipulation; phenotypic selection; Plant reproduction; Pollination; pollination efficiency; pollinator attraction; Pollinators; Reproduction; Reproductive fitness; Sepals; mechanism of selection; phenotypic manipulation; Aconitum gymnandrum; pollination efficiency; flower adaptation; phenotypic selection; pollinator attraction
• ISSN: 1435-8603; 1438-8677; 1438-8677
• DOI: 10.1111/plb.13305

Floral evolution in angiosperms is thought to be driven by pollinator‐mediated selection. Understanding flower integration and adaptation requires resolving the additive and nonadditive contributions of floral pollinator attraction and pollination efficiency traits to fitness components. In this study, a flower manipulation experiment with a factorial design was used to study the adaptive significance of galea height (a putative attraction trait) and entrance width (a putative efficiency trait) in Aconitum gymnandrum Maxim. flowers. Simultaneously, phenotypic selection analysis was conducted to examine selection by pollinators on galea height, entrance width, nectar production and plant height. Increased galea height increased the pollinator visitation rate, which confirmed its attractiveness function. Increasing floral entrance width by spreading the lower sepals increased the seed number per fruit without affecting pollinator visitation. This suggests a pollination efficiency role for the entrance width. The phenotypic selection analysis, however, did not provide evidence of pollinator‐mediated selection for either of these traist, but it did for plant height. According to the manipulation treatment and correlational selection results, the combined variation in galea height and entrance width of A. gymnandrum flowers did not have nonadditive effects on female reproductive success. This study demonstrated the adaptive value of A. gymnandrum flowers through manipulation of an attractiveness trait and an efficiency trait. However, neither trait was associated with pollinator‐mediated selection. A combination of manipulating traits and determining current phenotypic selection could help to elucidate the mechanism of selection on floral traits involved in different functions and flower integration. Flower traits of A. gymnandrum, including attracting and efficiency traits, can differentially affect pollinator visitation and seed production, but are not subject to current pollinator‐mediated selection.