Abstract
Bees make use of plant substrates in more ways than any other group of insects, which is probably linked to their diversification and ecological success. The highly diverse Megachilidae use a wide range of plant-derived brood cell-building materials, including plant leaves, mortar made from plant tissue, resin, plant hairs (‘plant wool’), and plant trichome secretions. While certain plant-derived materials are believed to protect nests against microbial decay, this has not been tested, and the factors driving diversification of nesting materials are poorly understood. Here, we investigated the protective effects of plant-derived extrafloral trichome secretions which female European wool-carder bees, Anthidium manicatum, smear on their brood cells. By breeding bees in cages with differential resource supply we generated brood cells with or without trichome secretions. Brood cells with trichome secretions were less attractive to parasitic wasps (Monodontomerus obscurus) in Y-maze olfactometer tests. Also, when exposed at sites where A. manicatum occurs in natural populations, brood cells smeared with trichome secretions were less affected by wasp (Melittobia acasta) parasitism than those without trichome secretions. On the other hand, trichome secretions did not prevent the growth of mold on brood cells, and larval mortality due to microbial decay was almost non-existent even when brood cells were exposed to rainfall. We conclude that the use of plant trichome secretion for brood cell construction has more likely evolved to create enemy-free space in response to chalcidoid wasp parasitism. Parasitoids are likely an underestimated cause of the diversification of cell construction materials and adaptive radiation in megachilid bees.
Highlights
The radiation and ecological success of bees (Hymenoptera: Apiformes) has been linked to their shift from a primarily carnivorous diet of small arthropod prey to a herbivorous diet of pollen and nectar, which are the bees main larval food and source of energy (Grimaldi, 1999; Dötterl and Vereecken, 2010; Cardinal and Danforth, 2013)
The present study is the first to test functional hypotheses of megachilid bee nest building materials by experimenting with actual brood cells. Both olfactometer tests and field exposure assays consistently suggest that the coating of cells with extrafloral trichome secretion reduces chalcidoid wasp parasitism
Parasitoids are a major cause of mortality in many insects (Godfray, 1994), including megachilid bees (Krunic et al, 2005), and parasitoid-mediated selection may plausibly have promoted the evolution of wool coating behaviors and associated morphological traits
Summary
The radiation and ecological success of bees (Hymenoptera: Apiformes) has been linked to their shift from a primarily carnivorous diet of small arthropod prey to a herbivorous diet of pollen and nectar, which are the bees main larval food and source of energy (Grimaldi, 1999; Dötterl and Vereecken, 2010; Cardinal and Danforth, 2013) Besides their obvious importance as food, plant substrates or plant-derived compounds are used by bees for nest-building (Westrich, 1989; Cane et al, 2007), defense (Duangphakdee et al, 2009), and sexual communication (Eltz et al, 2005). Experimental evidence is lacking or scarce (Messer, 1985) to support either functional hypothesis, and the evolution and diversification of nest building materials in Megachilidae remains enigmatic
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