Low bee visitation rates explain pollinator shifts to vertebrates in tropical mountains

Low bee visitation rates explain pollinator shifts to vertebrates in tropical mountains

Summary Evolutionary shifts from bee to vertebrate pollination are common in tropical mountains. Reduction in bee pollination efficiency under adverse montane weather conditions was proposed to drive these shifts. Although pollinator shifts are central to the evolution and diversification of angiosp...

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Published in:The New phytologist Vol. 231; no. 2; pp. 864 - 877
Main Authors: Dellinger, Agnes S., Pérez‐Barrales, Rocio, Michelangeli, Fabián A., Penneys, Darin S., Fernández‐Fernández, Diana M., Schönenberger, Jürg
Format: Journal Article
Language:English
Published: England Wiley Subscription Services, Inc 01-07-2021
Subjects:
altitudinal gradient
Angiosperms
Bees
Dispersal
Efficiency
Environmental conditions
floral evolution
Mountain environments
Mountains
Phylogeny
Plant reproduction
Pollen
pollen dosing
Pollination
pollination efficiency
Pollinators
tropical Andes
Tropical climate
Uplift
Vertebrates
Weather
tropical Andes
floral evolution
altitudinal gradient
pollen dosing
pollination efficiency
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Summary:Summary Evolutionary shifts from bee to vertebrate pollination are common in tropical mountains. Reduction in bee pollination efficiency under adverse montane weather conditions was proposed to drive these shifts. Although pollinator shifts are central to the evolution and diversification of angiosperms, we lack experimental evidence of the ecological processes underlying such shifts. Here, we combine phylogenetic and distributional data for 138 species of the Neotropical plant tribe Merianieae (Melastomataceae) with pollinator observations of 11 and field pollination experiments of six species to test whether the mountain environment may indeed drive such shifts. We demonstrate that shifts from bee to vertebrate pollination coincided with occurrence at high elevations. We show that vertebrates were highly efficient pollinators even under the harsh environmental conditions of tropical mountains, whereas bee pollination efficiency was lowered significantly through reductions in flower visitation rates. Furthermore, we show that pollinator shifts in Merianieae coincided with the final phases of the Andean uplift and were contingent on adaptive floral trait changes to alternative rewards and mechanisms facilitating pollen dispersal. Our results provide evidence that abiotic environmental conditions (i.e. mountain climate) may indeed reduce the efficiency of a plant clade’s ancestral pollinator group and correlate with shifts to more efficient new pollinators.
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ISSN:0028-646X
1469-8137
DOI:10.1111/nph.17390