Macroevolution of the plant-hummingbird pollination system

Elisa Barreto¹, Mannfred M A Boehm², Ezgi Ogutcen³, Stefan Abrahamczyk^{4

5}, Michael Kessler⁶, Jordi Bascompte⁷, Agnes S Dellinger⁸, Carolina Bello⁹, D Matthias Dehling^{1

10}, François Duchenne¹, Miriam Kaehler¹¹, Laura P Lagomarsino¹², Lúcia G Lohmann^{13

14}, María A Maglianesi¹⁵, Hélène Morlon¹⁶, Nathan Muchhala¹⁷, Juan Francisco Ornelas¹⁸, Mathieu Perret¹⁹, Nelson R Salinas²⁰, Stacey D Smith²¹, Jana C Vamosi²², Isabela G Varassin^{1

11}, Catherine H Graham¹

Affiliations

¹ Swiss Federal Institute for Forest, Snow and Landscape Research WSL, Zürcherstrasse 111, Birmensdorf, 8903, Switzerland.
² Biodiversity Research Centre, University of British Columbia, 2212 Main Mall, Vancouver, BC, Canada.
³ Department of Environment and Biodiversity, Paris Lodron University of Salzburg, Hellbrunner Straße 34, Salzburg, 5020, Austria.
⁴ Nees Institute for Biodiversity of Plant, University of Bonn, Meckenheimer Allee 170, Bonn, 53115, Germany.
⁵ State Museum of Natural History Stuttgart, Botany Department, Rosenstein 1, Stuttgart, 70191, Germany.
⁶ Systematic and Evolutionary Botany, University of Zurich, Zollikerstrasse 107, Zurich, 8008, Switzerland.
⁷ Department of Evolutionary Biology and Environmental Studies, University of Zurich, Winterthurestrasse 190, Zurich, 8057, Switzerland.
⁸ Department of Botany and Biodiversity Research, University of Vienna, Rennweg 14, Vienna, 1030, Austria.
⁹ Department of Environmental Systems Science, Institute of Integrative Biology, ETH Zurich, Universitätstrasse 16, Zurich, 8092, Switzerland.
¹⁰ Securing Antarctica's Environmental Future, School of Biological Sciences, Monash University, 25 Rainforest Walk, Clayton, 3800, Victoria, Australia.
¹¹ Departamento de Botânica, Universidade Federal do Paraná, Avenida Coronel Francisco H. dos Santos 100, Curitiba, 81531-980, Brazil.
¹² Department of Biological Sciences, Shirley C. Tucker Herbarium, Louisiana State University, Life Science Annex Building A257, Baton Rouge, 70803, LA, USA.
¹³ Departamento de Botânica, Instituto de Biociências, Universidade de São Paulo, Rua do Matão 277, Butantã, São Paulo, 05508-090, Brazil.
¹⁴ Department of Integrative Biology, University and Jepson Herbaria, University of California, Berkeley, 1001 Valley Life Sciences Building, Berkeley, 94720-2465, CA, USA.
¹⁵ Escuela de Ciencias Exactas y Naturales, Universidad Estatal a Distancia, San José, 474-2050, Costa Rica.
¹⁶ Institut de Biologie de l'École Normale Supérieure (IBENS), École Normale Supérieure, CNRS, INSERM, Université PSL, UMR 8197, 46 rue d'Ulm, Paris, 75005, France.
¹⁷ Department of Biology, University of Missouri - St. Louis, St. Louis, 63121, MO, USA.
¹⁸ Departamento de Biología Evolutiva, Instituto de Ecología, A.C. (INECOL), Xalapa, Veracruz, 91073, Mexico.
¹⁹ Department of Plant Sciences, Conservatoire et Jardin Botaniques de Genève, University of Geneva, Chem. de l'Impératrice 1, 1292 Pregny-Chambésy, Geneva, Switzerland.
²⁰ Pfizer Plant Research Laboratory, New York Botanical Garden, 2900 Southern Blvd., Bronx, New York City, 10458, NY, USA.
²¹ Department of Ecology and Evolutionary Biology, University of Colorado-Boulder, 1900 Pleasant St, Boulder, 80302, CO, USA.
²² Department of Biological Sciences, University of Calgary, 2500 University Drive NW, Calgary, T2N1N4, AB, Canada.

PMID: 38705863
DOI: 10.1111/brv.13094

Review

Macroevolution of the plant-hummingbird pollination system

Elisa Barreto et al. Biol Rev Camb Philos Soc. 2024 Oct.

. 2024 Oct;99(5):1831-1847.

doi: 10.1111/brv.13094. Epub 2024 May 5.

Authors

Affiliations

¹ Swiss Federal Institute for Forest, Snow and Landscape Research WSL, Zürcherstrasse 111, Birmensdorf, 8903, Switzerland.
² Biodiversity Research Centre, University of British Columbia, 2212 Main Mall, Vancouver, BC, Canada.
³ Department of Environment and Biodiversity, Paris Lodron University of Salzburg, Hellbrunner Straße 34, Salzburg, 5020, Austria.
⁴ Nees Institute for Biodiversity of Plant, University of Bonn, Meckenheimer Allee 170, Bonn, 53115, Germany.
⁵ State Museum of Natural History Stuttgart, Botany Department, Rosenstein 1, Stuttgart, 70191, Germany.
⁶ Systematic and Evolutionary Botany, University of Zurich, Zollikerstrasse 107, Zurich, 8008, Switzerland.
⁷ Department of Evolutionary Biology and Environmental Studies, University of Zurich, Winterthurestrasse 190, Zurich, 8057, Switzerland.
⁸ Department of Botany and Biodiversity Research, University of Vienna, Rennweg 14, Vienna, 1030, Austria.
⁹ Department of Environmental Systems Science, Institute of Integrative Biology, ETH Zurich, Universitätstrasse 16, Zurich, 8092, Switzerland.
¹⁰ Securing Antarctica's Environmental Future, School of Biological Sciences, Monash University, 25 Rainforest Walk, Clayton, 3800, Victoria, Australia.
¹¹ Departamento de Botânica, Universidade Federal do Paraná, Avenida Coronel Francisco H. dos Santos 100, Curitiba, 81531-980, Brazil.
¹² Department of Biological Sciences, Shirley C. Tucker Herbarium, Louisiana State University, Life Science Annex Building A257, Baton Rouge, 70803, LA, USA.
¹³ Departamento de Botânica, Instituto de Biociências, Universidade de São Paulo, Rua do Matão 277, Butantã, São Paulo, 05508-090, Brazil.
¹⁴ Department of Integrative Biology, University and Jepson Herbaria, University of California, Berkeley, 1001 Valley Life Sciences Building, Berkeley, 94720-2465, CA, USA.
¹⁵ Escuela de Ciencias Exactas y Naturales, Universidad Estatal a Distancia, San José, 474-2050, Costa Rica.
¹⁶ Institut de Biologie de l'École Normale Supérieure (IBENS), École Normale Supérieure, CNRS, INSERM, Université PSL, UMR 8197, 46 rue d'Ulm, Paris, 75005, France.
¹⁷ Department of Biology, University of Missouri - St. Louis, St. Louis, 63121, MO, USA.
¹⁸ Departamento de Biología Evolutiva, Instituto de Ecología, A.C. (INECOL), Xalapa, Veracruz, 91073, Mexico.
¹⁹ Department of Plant Sciences, Conservatoire et Jardin Botaniques de Genève, University of Geneva, Chem. de l'Impératrice 1, 1292 Pregny-Chambésy, Geneva, Switzerland.
²⁰ Pfizer Plant Research Laboratory, New York Botanical Garden, 2900 Southern Blvd., Bronx, New York City, 10458, NY, USA.
²¹ Department of Ecology and Evolutionary Biology, University of Colorado-Boulder, 1900 Pleasant St, Boulder, 80302, CO, USA.
²² Department of Biological Sciences, University of Calgary, 2500 University Drive NW, Calgary, T2N1N4, AB, Canada.

PMID: 38705863
DOI: 10.1111/brv.13094

Abstract

Plant-hummingbird interactions are considered a classic example of coevolution, a process in which mutually dependent species influence each other's evolution. Plants depend on hummingbirds for pollination, whereas hummingbirds rely on nectar for food. As a step towards understanding coevolution, this review focuses on the macroevolutionary consequences of plant-hummingbird interactions, a relatively underexplored area in the current literature. We synthesize prior studies, illustrating the origins and dynamics of hummingbird pollination across different angiosperm clades previously pollinated by insects (mostly bees), bats, and passerine birds. In some cases, the crown age of hummingbirds pre-dates the plants they pollinate. In other cases, plant groups transitioned to hummingbird pollination early in the establishment of this bird group in the Americas, with the build-up of both diversities coinciding temporally, and hence suggesting co-diversification. Determining what triggers shifts to and away from hummingbird pollination remains a major open challenge. The impact of hummingbirds on plant diversification is complex, with many tropical plant lineages experiencing increased diversification after acquiring flowers that attract hummingbirds, and others experiencing no change or even a decrease in diversification rates. This mixed evidence suggests that other extrinsic or intrinsic factors, such as local climate and isolation, are important covariables driving the diversification of plants adapted to hummingbird pollination. To guide future studies, we discuss the mechanisms and contexts under which hummingbirds, as a clade and as individual species (e.g. traits, foraging behaviour, degree of specialization), could influence plant evolution. We conclude by commenting on how macroevolutionary signals of the mutualism could relate to coevolution, highlighting the unbalanced focus on the plant side of the interaction, and advocating for the use of species-level interaction data in macroevolutionary studies.

Keywords: coevolution; foraging behaviour; mutualism; pollination syndrome; pollinator shifts; specialization; trait evolution; trait matching.

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References

REFERENCES

1. Abrahamczyk, S. & Kessler, M. (2015). Morphological and behavioural adaptations to feed on nectar: how feeding ecology determines the diversity and composition of hummingbird assemblages. Journal of Ornithology 156, 333–347.
1. Abrahamczyk, S., Poretschkin, C. & Renner, S. S. (2017). Evolutionary flexibility in five hummingbird/plant mutualistic systems: testing temporal and geographic matching. Journal of Biogeography 44, 1847–1855.
1. Abrahamczyk, S. & Renner, S. S. (2015). The temporal build‐up of hummingbird/plant mutualisms in North America and temperate South America. BMC Evolutionary Biology 15, 104.
1. Abrahamczyk, S., Souto‐Vilarós, D., McGuire, J. A. & Renner, S. S. (2015). Diversity and clade ages of West Indian hummingbirds and the largest plant clades dependent on them: a 5–9 Myr young mutualistic system: hummingbirds and their plants in the West Indies. Biological Journal of the Linnean Society 114, 848–859.
1. Abrahamczyk, S., Souto‐Vilarós, D. & Renner, S. S. (2014). Escape from extreme specialization: passionflowers, bats and the sword‐billed hummingbird. Proceedings of the Royal Society B: Biological Sciences 281, 20140888.

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Macroevolution of the plant-hummingbird pollination system

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Macroevolution of the plant-hummingbird pollination system

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