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Intraspecific Variation in Nectar Chemistry and Its Implications for Insect Visitors: The Case of the Medicinal Plant, Polemonium Caeruleum L.

Justyna RyniewiczMateusz SkłodowskiMagdalena ChmurAndrzej BajguzKatarzyna RoguzAgata RoguzMarcin Zych
Published in: Plants (Basel, Switzerland) (2020)
Floral nectar, being a primary reward for insect visitors, is a key factor in shaping plant-pollinator interactions. However, little is known about the variability in nectar traits, which could potentially affect pollinators and the reproduction of the species. We investigated intraspecific variation in nectar traits in 14 populations of a Red-listed plant, Polemonium caeruleum. Populations varied in terms of the proportion of self-compatible and self-incompatible individuals, and insect communities visiting flowers. Using HPLC, we determined the nectar sugar and amino acid (AA) composition and concentration. We also recorded some basic habitat parameters, which could influence nectar chemistry. In seven selected populations, we investigated the taxonomic composition of the insects visiting flowers. Our observations revealed significant intraspecific variability in nectar chemistry in P. caeruleum. Nectar production was male-biased, with male-phase flowers secreting sucrose- and AA-rich nectar. An analysis revealed that variability in P. caeruleum nectar may be slightly shaped by environmental factors. The studied nectar characters, especially sugars, had little effect on insects visiting flowers. We argue that variation in nectar traits in this generalist plant is a matter of random genetic drift or "adaptive wandering" rather than directional specialization and adaptation in the most effective and abundant group of pollinators.
Keyphrases
  • genome wide
  • amino acid
  • mass spectrometry
  • dna methylation
  • climate change
  • copy number
  • tandem mass spectrometry