Specialization in plant-hummingbird networks is associated with species richness, contemporary precipitation and quaternary climate-change velocity

Specialization in plant-hummingbird networks is associated with species richness, contemporary precipitation and quaternary climate-change velocity

Large-scale geographical patterns of biotic specialization and the underlying drivers are poorly understood, but it is widely believed that climate plays an important role in determining specialization. As climate-driven range dynamics should diminish local adaptations and favor generalization, one...

Full description

Saved in:
Bibliographic Details
Published in:PloS one Vol. 6; no. 10; p. e25891
Main Authors: Dalsgaard, Bo, Magård, Else, Fjeldså, Jon, Martín González, Ana M, Rahbek, Carsten, Olesen, Jens M, Ollerton, Jeff, Alarcón, Ruben, Cardoso Araujo, Andrea, Cotton, Peter A, Lara, Carlos, Machado, Caio Graco, Sazima, Ivan, Sazima, Marlies, Timmermann, Allan, Watts, Stella, Sandel, Brody, Sutherland, William J, Svenning, Jens-Christian
Format: Journal Article
Language:English
Published: United States Public Library of Science 05-10-2011
Public Library of Science (PLoS)
Subjects:
Adaptation
Adaptations
Analysis
Animals
Biodiversity
Biology
Birds
Climate Change
Computer science
Ecological effects
Ecology
Ecosystem biology
Empirical analysis
Evolution
Geography
Hummingbirds
Macroecology
Network analysis
Networks
Plant evolution
Plant reproduction
Plants
Precipitation
Precipitation (Meteorology)
Quaternary
Quaternary climates
Rain
Rainfall
Seasonal variations
Spatial analysis
Specialization
Species richness
Stability
Terrestrial ecosystems
Topography
Trochilidae
Velocity
Zoology
Denmark
California
United States > US
Aarhus Denmark
Online Access:Get full text
Tags: Add Tag
No Tags, Be the first to tag this record!
Description
Summary:Large-scale geographical patterns of biotic specialization and the underlying drivers are poorly understood, but it is widely believed that climate plays an important role in determining specialization. As climate-driven range dynamics should diminish local adaptations and favor generalization, one hypothesis is that contemporary biotic specialization is determined by the degree of past climatic instability, primarily Quaternary climate-change velocity. Other prominent hypotheses predict that either contemporary climate or species richness affect biotic specialization. To gain insight into geographical patterns of contemporary biotic specialization and its drivers, we use network analysis to determine the degree of specialization in plant-hummingbird mutualistic networks sampled at 31 localities, spanning a wide range of climate regimes across the Americas. We found greater biotic specialization at lower latitudes, with latitude explaining 20-22% of the spatial variation in plant-hummingbird specialization. Potential drivers of specialization--contemporary climate, Quaternary climate-change velocity, and species richness--had superior explanatory power, together explaining 53-64% of the variation in specialization. Notably, our data provides empirical evidence for the hypothesized roles of species richness, contemporary precipitation and Quaternary climate-change velocity as key predictors of biotic specialization, whereas contemporary temperature and seasonality seem unimportant in determining specialization. These results suggest that both ecological and evolutionary processes at Quaternary time scales can be important in driving large-scale geographical patterns of contemporary biotic specialization, at least for co-evolved systems such as plant-hummingbird networks.
Bibliography:Conceived and designed the experiments: BD EM JF J.Olesen WS J-CS. Performed the experiments: BD BS J-CS. Analyzed the data: BD BS J-CS. Contributed reagents/materials/analysis tools: BD EM AMG RA ACA PC CL CM IS MS AT SW BS WS J-CS. Wrote the paper: BD EM JF AMG CR J.Olesen J.Ollerton RA ACA PC CL CM IS MS AT SW BS WS J-CS.
ISSN:1932-6203
1932-6203
DOI:10.1371/journal.pone.0025891