Upscaling the effect of traits in response to drought: The relative importance of safety–efficiency and acquisitive–conservation functional axes

Author:

Umaña María Natalia1ORCID,Salgado‐Negret Beatriz2ORCID,Norden Natalia3ORCID,Salinas Viviana3ORCID,Garzón Fabián3ORCID,Medina Sandra P.3,Rodríguez‐M. Gina M.4ORCID,López‐Camacho René5ORCID,Castaño‐Naranjo Alejandro6ORCID,Cuadros Hermes7ORCID,Franke‐Ante Rebeca8ORCID,Avella Andrés5ORCID,Idárraga‐Piedrahita Álvaro9ORCID,Jurado Rubén10,Nieto Jhon11ORCID,Pizano Camila12ORCID,Torres Alba M.8,García Hernando3,González‐M. Roy3ORCID

Affiliation:

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

2. Departamento de Biología Universidad Nacional de Colombia Bogotá Colombia

3. Instituto de Investigación de Recursos Biológicos Alexander von Humboldt Bogotá Colombia

4. Fundación Ecosistemas Secos de Colombia Puerto Colombia Atlántico Colombia

5. Facultad del Medio Ambiente y Recursos Naturales Universidad Distrital Francisco José de Caldas Bogotá Colombia

6. Jardín Botánico del Valle del Cauca Juan María Céspedes—INCIVA Tuluá Colombia

7. Programa de Biología Universidad del Atlántico Barranquilla Colombia

8. Dirección Territorial Caribe Parques Nacionales Naturales de Colombia Santa Marta Colombia

9. Fundación Jardín Botánico de Medellín Herbario “Joaquín Antonio Uribe” (JAUM) Medellín Colombia

10. Asociación GAICA Pasto Colombia

11. Instituto de Hidrología Meteorología y Estudios Ambientales Bogotá Colombia

12. Department of Biology Lake Forest College Lake Forest Illinois USA

Abstract

AbstractWe tested the idea that functional trade‐offs that underlie species tolerance to drought drive shifts in community composition via their effects on demographic processes and subsequently on shifts in species' abundance. Using data from 298 tree species from tropical dry forests during the extreme ENSO‐2015, we scaled‐up the effects of trait trade‐offs from individuals to communities. Conservative wood and leaf traits favoured slow tree growth, increased tree survival and positively impacted species abundance and dominance at the community‐level. Safe hydraulic traits, on the other hand, were related to demography but did not affect species abundance and communities. The persistent effects of the conservative–acquisitive trade‐off across organizational levels is promising for generalization and predictability of tree communities. However, the safety–efficient trade‐off showed more intricate effects on performance. Our results demonstrated the complex pathways in which traits scale up to communities, highlighting the importance of considering a wide range of traits and performance processes.

Funder

Departamento Administrativo de Ciencia, Tecnología e Innovación

International Tropical Timber Organization

National Geographic Society

Publisher

Wiley

Subject

Ecology, Evolution, Behavior and Systematics

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