Elevational range sizes of woody plants increase with climate variability in the Tropical Andes

Author:

Montaño‐Centellas Flavia1ORCID,Fuentes Alfredo F.23ORCID,Cayola Leslie23,Macía Manuel J.45ORCID,Arellano Gabriel67ORCID,Loza M. Isabel238ORCID,Nieto‐Ariza Beatriz9,Tello J. Sebastián10ORCID

Affiliation:

1. Department of Biological Sciences Louisiana State University Baton Rouge Louisiana USA

2. Herbario Nacional de Bolivia Instituto de Ecología, Carrera de Biología, Universidad Mayor de San Andrés La Paz Bolivia

3. Missouri Botanical Garden St. Louis Missouri USA

4. Departamento de Biología (Botánica) Universidad Autónoma de Madrid Madrid Spain

5. Centro de Investigación en Biodiversidad y Cambio Global (CIBC‐UAM) Universidad Autónoma de Madrid Madrid Spain

6. Department of Ecology and Evolutionary Biology University of Michigan Ann Arbor Michigan USA

7. Oikobit LLC Albuquerque New Mexico USA

8. Global Tree Conservation Program and the Center for Tree Science, The Morton Arboretum Lisle Illinois USA

9. Wetland Ecology, Dep. of Geography and Geoecology Karlsruhe Institute of Technology Karlsruhe Germany

10. Center for Conservation and Sustainable Development, Missouri Botanical Garden St. Louis Missouri USA

Abstract

AbstractAimThe climate variability hypothesis proposes that species subjected to wide variation in climatic conditions will evolve wider niches, resulting in larger distributions. We test this hypothesis in tropical plants across a broad elevational gradient; specifically, we use a species‐level approach to evaluate whether elevational range sizes are explained by the levels of thermal variability experienced by species.LocationCentral Andes.Time PeriodPresent day.TaxonWoody plants.MethodsCombining data from 479 forest plots, we determined the elevational distributions of nearly 2300 species along an elevational gradient (~209–3800 m). For each species, we calculated the maximum annual variation in temperature experienced across its elevational distribution. We used phylogenetic generalized least square models to evaluate the effect of thermal variability on range size. Our models included additional covariates that might affect range size: body size, local abundance, mean temperature and total precipitation. We also considered interactions between thermal variability and mean temperature or precipitation. To account for geometric constraints, we repeated our analyses with a standardized measure of range size, calculated by comparing observed range sizes with values obtained from a null model.ResultsOur results supported the main prediction of the climate variability hypothesis. Thermal variability had a strong positive effect on the range size, with species exposed to higher thermal variability having broader elevational distributions. Body size and local abundance also had positive, yet weak effects, on elevational range size. Furthermore, there was a strong positive interaction between thermal variability and mean annual temperature.Main ConclusionsThermal variability had an overriding importance in driving elevational range sizes of woody plants in the Central Andes. Moreover, the relationship between thermal variability and range size might be even stronger in warmer regions, underlining the potential vulnerability of tropical montane floras to the effects of global warming.

Funder

Comunidad de Madrid

Universidad Autónoma de Madrid

Louisiana State University

National Science Foundation

National Geographic Society

Missouri Botanical Garden

Publisher

Wiley

Subject

Ecology,Ecology, Evolution, Behavior and Systematics

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