The Floral Signals of the Inconspicuous Orchid Malaxis monophyllos : How to Lure Small Pollinators in an Abundant Environment

• Published in: Biology (Basel, Switzerland) Vol. 11; no. 5; p. 640
• Main Authors: Jermakowicz, Edyta, Leśniewska, Joanna, Stocki, Marcin, Naczk, Aleksandra M, Kostro-Ambroziak, Agata, Pliszko, Artur
• Format: Journal Article
• Language: English
• Published: Switzerland MDPI AG 21.04.2022; MDPI
• Subjects: 1-Octanol; Alcohols; Aldehydes; Alkanes; Attractants; Biology; Cell surface; Chemical composition; Diptera; Emissions; Ethanol; flower anatomy structure; Flowers; Flowers & plants; Fungi; GC-MS; Glycerol; Insects; Malaxis monophyllos; Mimicry; National parks; Nectar; Octanol; Pheromones; Plant reproduction; Pollination; Pollinators; Population; Secretion; SEM; SPME; TEM; Ultrastructure; visiting insects; Volatiles; Poland; GC-MS; flower anatomy structure; SPME; visiting insects; SEM; TEM; volatiles
• ISSN: 2079-7737; 2079-7737
• DOI: 10.3390/biology11050640

Many orchid species have evolved complex floral signals to ensure pollination efficiency. Here, the authors combined analyses of anatomical flower structure with analyses of the volatile composition and flower-visiting insects' behaviour, as well as characterised features that can attract pollinators of the inconspicuous orchid . During field observations, the authors found that only small Diptera (e.g., mosquitos, drosophilids, fungus gnats) visit and are interested in the flowers of , which was reflected in the characterised flower features that combine well with the pollination system, which engages dipterans. Analyses of the floral scent revealed substantial concentrations of aliphatic compounds, e.g., 1-octen-3-ol and 1-octanol, which condition the mushroom-like scent and a substantial fraction of alkanes, some of which have been previously described as sex mimicry and aggregation pheromones in orchids' deceptive systems. The labellum anatomical structure exhibits a highly diverse cell cuticle surface and pronounced metabolic and secretory activity of the epidermal and subepidermal cells from all parts of the labellum. Moreover, our study provides evidence for the subsequent decoys of flowers, including visual signals, such as raphides located on the labellum margin and the rewarding ones connected with lipid secretion limited to the area behind the column. Taking an integrative approach to studying pollination biology, the authors provide new insight into its previously vague pollination strategies and provide evidence for complex floral signal operation in luring potential pollinators. The synergistic effect of flowers' volatile and visual signals, together with additional rewarding for nectar/fungus/microbe-feeding pollinators, requires further detailed investigation that will be invaluable in explaining the evolution of Diptera-specific pollination systems in orchids.