Floral Herbivory Affects Female Reproductive Success and Pollinator Visitation in the Perennial Herb Alstroemeria ligtu (Alstroemeriaceae)

• Published in: International journal of plant sciences Vol. 172; no. 9; pp. 1130 - 1136
• Main Authors: Botto-Mahan, Carezza, Ramírez, Patricia A., Gloria Ossa, Carmen, Medel, Rodrigo, Ojeda-Camacho, Manuel, González, Alejandra V.
• Format: Journal Article
• Language: English
• Published: Chicago University of Chicago Press 01.11.2011; University of Chicago, acting through its Press
• Subjects: Alstroemeria; communications technology; corolla; Flowers; fruit set; Fruits; herbivores; Herbivory; Herbs; nectar; Plant reproduction; Plant sciences; Pollination; Pollinators; reflectance; Reproduction; Seeds; Species diversity; Species richness; herbivory; nectar guides; seed production; flower color; pollination; florivory
• ISSN: 1058-5893; 1537-5315
• DOI: 10.1086/662029

Floral damage can reduce flower attractiveness for pollinator service. However, the reproductive impact of flower herbivory may be contingent on a petal that is damaged. Flowers having nectar guides are expected to suffer reduction in reproductive success when damage is concentrated on these structures compared to petals less involved in pollinator attraction. In this study, we recorded the reflectance pattern of distinctive yellow tepals of Alstroemeria ligtu and examined their functional role for pollinator attraction and reproductive success. We quantified the richness and abundance of pollinator species attracted to flowers and estimated fruit set and seed production in flowers subject to (1) nectar guide removal, (2) lateral red tepal removal, and (3) unmanipulated flowers. Results indicate that nectar guide removal reduced pollinator visitation rate but did not affect community-level descriptors such as pollinator species richness and flower diversity. The reduction in visitation rate translated into a reduced fruit set and seed production, hence confirming that nectar guides have a clear functional role in the pollination process. We conclude that the location where damage occurs is a relevant factor for pollinator attraction and subsequent reproductive success in this species, suggesting that nectar guide damage may disrupt fine-tuned plant-pollinator communication systems.