Abstract
The once prevalent view that the evolution of extreme ecological specialization is accompanied by a loss of potential for adapting to new conditions, and thus is irreversible1,2,3,4, has been challenged by several recent examples1,2,5. However, we know of no modern phylogenetic studies showing reversal in pollination relationships from extreme specialization to generalization, although such reversals are theoretically expected6,7. Here we present molecular phylogenetic evidence for an evolutionary shift in Dalechampia (Euphorbiaceae) vines from a highly specialized relationship (pollination by one or a few animal species2,7) with resin-collecting bees to generalized pollination by a variety of pollen-feeding insects. This shift was associated with dispersal from Africa to Madagascar, where the specific resin-collecting pollinators are absent. These results show that plants dispersing beyond the range of their specific pollinators may succeed by evolving more generalized pollination systems.
Main
Only a few genera of bees in the families Megachilidae and Apidae use floral resin in nest construction8,9, and only two genera of plants, Dalechampia and Clusia (Clusiaceae), are known to secrete resins that attract pollinators8. Partly because the reward they offer is non-nutritive, Dalechampia blossoms that secrete resin are pollinated by only one or two species of bees at any one location, and so depend on specific pollinators. In eastern and southern Africa, for example, Dalechampia populations are usually pollinated by only one species of Pachyanthidium or Heriades (Megachilidae)9,10. Recent fieldwork in Madagascar has shown that the species of Dalechampia found there offer only pollen as a reward for pollinators, and that most are pollinated by a variety of pollen-feeding insects, including beetles (Cerambycidae, Scarabidae), muscoid flies (Diptera) and several bees (Halictidae, Anthophoridae, Apidae). Open presentation of a common food reward (pollen) results in interactions with numerous pollinators10, a finding typical of plants with open flowers6.
Phylogenetic analysis of combined nuclear ribosomal and chloroplast DNA data sets, and mapping of pollination and morphological traits onto the molecular tree, indicate that Malagasy species of Dalechampia are descended from an ancestor pollinated by resin-collecting bees (Fig. 1). These results also indicate that Dalechampia colonized Madagascar from Africa (Fig. 1). This finding is further supported by morphological data and biogeographical considerations10.
But why did the Malagasy colonists ‘abandon’ efficient, specialized pollination by resin-collecting bees and switch to a generalized pollination system? It seems that resin-collecting megachilid bees, which are the only pollinators of Dalechampia in Africa9, failed to colonize Madagascar10. The ancestral Dalechampia colonists of Madagascar were probably pollinated incidentally by other pollen-feeding insects. They subsequently adapted to the absence of their specific pollinators by losing the gland that secretes the resin reward and by effectively using diverse pollen-feeding insects as pollinators. These changes were sufficiently successful to allow secondary diversification on the isolated island of Madagascar.
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Armbruster, W., Baldwin, B. Switch from specialized to generalized pollination. Nature 394, 632 (1998). https://doi.org/10.1038/29210
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DOI: https://doi.org/10.1038/29210
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