Humboldt’s legacy: explaining the influence of environmental factors on the taxonomic and phylogenetic diversity of angiosperms along a Neotropical elevational gradient

Author:

Gómez-Díaz Jorge Antonio12,Carvajal-Hernández César Isidro3,Bautista-Bello Alma Patricia4,Monge-González María Leticia2,Guzmán-Jacob Valeria2,Kreft Holger25,Krömer Thorsten1,Villalobos Fabricio67

Affiliation:

1. Centro de Investigaciones Tropicales, Universidad Veracruzana , 91000 Xalapa , México

2. Biodiversität, Makroökologie und Biogeographie, Faculty of Forest Sciences and Forest Ecology, University of Göttingen , 37077 Göttingen , Germany

3. Instituto de Investigaciones Biológicas, Universidad Veracruzana , 91190 Xalapa , Mexico

4. Department of Biology and Environmental Sciences (IBU), Carl von Ossietzky Universität Oldenburg , 26129 Oldenburg , Germany

5. Centre of Biodiversity and Sustainable Land Use, University of Goettingen , 37077 Göttingen , Germany

6. Laboratorio de Macroecología Evolutiva, Red de Biología Evolutiva , Instituto de Ecología A.C., 91073 Xalapa , Mexico

7. Departamento de Ecologia, Instituto de Ciências Biológicas, Universidade Federal de Goiás , 74690-900 Goiânia , Brazil

Abstract

Abstract The scientific work of Alexander von Humboldt was influenced by his interaction with the diversity and natural wealth of the Neotropics. He proposed that climate determines plant diversity along elevational gradients based on his observations. Here, we evaluated the most prominent climate-based hypotheses in explaining plant diversity along an elevational gradient that Humboldt himself visited during his journey across Mexico. Specifically, we examined how climatic variables and forest-use intensity affected species richness and phylogenetic structure of major angiosperm life forms (trees, shrubs, epiphytes, herbs and lianas) along the Cofre de Perote mountain, Veracruz, Mexico. We analysed species richness and phylogenetic structure of angiosperms at eight sites between 30 to 3500 m a.s.l. We estimated the phylogenetic structure using a mega-phylogeny of angiosperms and the abundance-weighted net relatedness index. We considered multiple environmental factors’ direct and indirect effects by applying a piecewise structural equation modelling approach. Each life form responds differently to the environmental variables included in our model; however, it is observed that temperature is the main predictor of the taxonomic and phylogenetic diversity of the angiosperms studied, both when the different life forms are grouped and separated. Potential evapotranspiration and precipitation are variables that also influence some life forms’ diversity, especially taxonomic diversity. The forest-use intensity negatively affected only the taxonomic diversity of trees. These results highlight the influence of studying the different life forms of angiosperms in diversity gradient models and show the great influence that temperature has in conjunction with other environmental variables to promote the taxonomic and phylogenetic diversity of plant communities. Given the current global environmental crisis, an integrative biogeographically oriented vision based on Humboldt’s method is necessary. Honouring the work of Humboldt and continuing his legacy demands more research to understand the causes behind elevational diversity gradients.

Publisher

Oxford University Press (OUP)

Subject

Plant Science

Reference70 articles.

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