Tropical tree community composition and diversity variation along a volcanic elevation gradient

Unraveling the factors that determine variation of diversity in tropical mountain systems is a topic for debate in plant ecology. This is especially true in areas where topography is complex due to volcano elevational gradients and where forests are vulnerable to human activity. In this study we use...

Full description

Saved in:
Bibliographic Details
Published in:Journal of mountain science 2022-12, Vol.19 (12), p.3475-3486
Main Authors: Martínez-Camilo, Rubén, Martínez-Meléndez, Manuel, Martínez-Meléndez, Nayely, Jiménez-López, Derio Antonio, José-Ríos, Mauricio
Format: Article
Language:English
Subjects:
Community composition
Composition
Conservation
Earth and Environmental Science
Earth Sciences
Ecology
Elevation
Environment
Forests
Geography
Human impact
Original Article
Plant diversity
Plant ecology
Rainfall
Regression analysis
Regression models
Restoration
Slope
Species diversity
Species richness
Temperature
Topography
Trees
Variation
Volcanic activity
Volcanoes
Citations: Items that this one cites
Items that cite this one
Online Access:Get full text
Tags: Add Tag
No Tags, Be the first to tag this record!
Description
Summary:Unraveling the factors that determine variation of diversity in tropical mountain systems is a topic for debate in plant ecology. This is especially true in areas where topography is complex due to volcano elevational gradients and where forests are vulnerable to human activity. In this study we used a set of climatic (temperature, rainfall, and radiation solar), topographic (elevation, slope aspect, and slope orientation) and human disturbance variables to determine their effect on diversity and composition patterns of a tree community, considering three slope aspects of a tropical volcano in southeastern Mexico. We sampled trees in seventy 0.1-ha plots distributed on three slope aspects of the Tacaná volcano along an elevational gradient of 1500 to 2500 m. We determined diversity patterns (general tree richness, exponential of Shannon index, and pioneer species richness) with linear regression models, and for beta diversity, we used a dissimilarity index (within and between elevational bands 100 m wide). The effect of a set of environmental and human disturbance variables on tree diversity and community composition was analyzed with general linear models and multivariate analyses, respectively. We registered 2,949 individual trees belonging to 176 species and 58 families. The average species richness and alpha diversity per plot were 13 (standard deviation ±6) and 9 (±5), respectively. General tree richness and alpha diversity increased in the middle part (unimodal patterns) of the elevational gradient, but pioneer species richness decreased linearly with elevation. The variance explained by general linear models was greater in richness (32%) than in alpha diversity (25.3%). The most important predictor variables were temperature (elevational gradient), which explained the unimodal pattern (richness and alpha diversity increase at intermediate levels of temperature), and slope orientation, which explained the increase in richness and alpha diversity toward the geographic north. Only temperature had a significant effect on pioneer species diversity (22%). For community composition, all the predictor variables evaluated had a significant effect, but the most important were slope aspect and temperature. Assemblages were almost completely different in plots that were farther apart along the elevation gradient and had different slope aspects. Finally, the forests at lower elevations (1500–1900 m) were those that had the most human disturbance. Our study revea
ISSN:1672-6316
1993-0321
1008-2786
DOI:10.1007/s11629-021-7034-6