Evaluating the macro and micro geographic mechanisms that modulate the coexistence between sympatric Sturnira bat species

Evaluating the macro and micro geographic mechanisms that modulate the coexistence between sympatric Sturnira bat species

One of the key questions in ecology is to understand the mechanisms that modulate the coexistence between sympatric species. Climate and habitat perturbation gradients have been proposed as moderators of species coexistence. The first is related to availability and the diversity of food resources. T...

Full description

Saved in:
Bibliographic Details
Published in:Biodiversity and conservation Vol. 32; no. 13; pp. 4509 - 4523
Main Authors: Mosquera-Izquierdo, Esteban, Saldaña-Vázquez, Romeo A., Sánchez, Mariano S., Villalobos, Federico, Castaño, John Harold
Format: Journal Article
Language:English
Published: Dordrecht Springer Netherlands 01-11-2023
Springer
Springer Nature B.V
Subjects:
Bats
Biodiversity
Biomedical and Life Sciences
Climate Change/Climate Change Impacts
Coexistence
Conservation Biology/Ecology
Ecology
Food resources
Generalized linear models
Grasslands
Habitat changes
Habitats
Life Sciences
Original Research
Perturbation
Plant structures
Reduction
Relative abundance
Seed dispersal
Species
Statistical models
Sturnira
Sympatric populations
Tropical forests
Assembly rules
Competitive exclusion
Limiting similarity
Phyllostomidae
Species richness
Macroecology
Online Access:Get full text
Tags: Add Tag
No Tags, Be the first to tag this record!
Description
Summary:One of the key questions in ecology is to understand the mechanisms that modulate the coexistence between sympatric species. Climate and habitat perturbation gradients have been proposed as moderators of species coexistence. The first is related to availability and the diversity of food resources. The second is related to change in habitat structure that promotes changes in plant structure and diversity that impacts the diversity of other organisms. Although there is empirical evidence that supports these mechanisms to explain coexistence, they have not been evaluated quantitatively and on a wide geographic scale. Using phytophagous bat species of the genus Sturnira we evaluated both mechanisms. These bats are morphologically similar and are key organisms for the seed dispersal of Neotropical forest plants. Using systematic review protocols, we obtained data of the occurrence and relative abundance of sympatric Sturnira species of different Neotropical forests. We used generalized linear models to evaluate the predictor power of Holdridge’s life zones and habitat disturbance type to explain the evenness of sympatric Sturnira species. Life zones did not explain the variation in evenness of sympatric species of Sturnira. However, we found that the type of disturbance and individuals captured explain the variation of evenness in Sturnira species. Grasslands present the higher Sturnira species evenness, while sites with lower bat captures had higher evenness. These suggest that the reduction of vegetation complexity allows the coexistence among these highly related species, via the reduction of their relative abundances.
ISSN:0960-3115
1572-9710
DOI:10.1007/s10531-023-02712-w