The joint effects of forest habitat area and fragmentation on dung beetles

Habitat loss and habitat fragmentation usually occur together, at the same time and place. However, while there is a consensus that habitat loss is the preeminent threat to biodiversity, the effects of fragmentation are contentious. Some argue that habitat fragmentation is not bad for biodiversity,...

Full description

Saved in:
Bibliographic Details
Published in:Ecology and evolution 2023-08, Vol.13 (8), p.e10429-n/a
Main Authors: Mbora, David Nyaga Mugo, Mutua, Morris Nzioka
Format: Article
Language:English
Subjects:
Abundance
Africa
Beetles
Biodiversity
Biodiversity Ecology
Coleoptera
Community Ecology
conservation
Conservation Ecology
Dung
Edge effect
edge effects
Endemic species
Entomology
Forests
Fragmentation
Global Change Ecology
Habitat fragmentation
Habitat loss
Habitats
Hypotheses
insect apocalypse
Mammals
Monkeys
Multivariate statistical analysis
Predation
Regression models
Trophic Interactions
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:Habitat loss and habitat fragmentation usually occur together, at the same time and place. However, while there is a consensus that habitat loss is the preeminent threat to biodiversity, the effects of fragmentation are contentious. Some argue that habitat fragmentation is not bad for biodiversity, and even that it is good. Generally, the studies that find no harm or positive outcomes of fragmentation invariably assume that it is independent of habitat loss. However, dissociating the effects of habitat fragmentation from habitat loss is questionable because the two are essentially coupled. Accordingly, we evaluated how forest area and fragmentation (via edge effects) influenced dung beetles per se, and through their effects on the abundance of mammals, using structural equation modeling (SEM). Dung beetles are very sensitive to forest habitat loss and fragmentation and to changes in the abundance of mammals on which they depend for dung. Our study area was in the Tana River, Kenya, where forest fragments are depauperated of mammals except for two endemic species of monkeys. We mapped 12 forests, counted the resident monkeys, and sampled 113,955 beetles from 288 plots. Most of the 87 species of beetles found were small tunnellers. After implementing a fully latent Structural Regression SEM, the optimal model explained a significant 26% of the variance in abundance, and 89% of diversity. The main drivers of beetle abundance were positive, direct, effects of forest area and number of monkeys, and negative edge effects. The main drivers of diversity were the direct effects of the beetle abundance, indirect effects of forest area and abundance of mammals, and indirect negative edge effects. Thus, forest area, fragmentation (via edge effects), and the number of monkeys jointly influenced the abundance and diversity of the beetles directly and indirectly. We evaluated how forest area and fragmentation (via edge effects) influenced dung beetles per se, and through their effects on the abundance of mammals, using structural equation modeling (SEM). The optimal model explained a significant 26% of the variance in abundance, driven by the positive, direct, effects of forest area and number of monkeys, and negative edge effects. Further, the model explained 89% of the variance in diversity, driven by the direct effects of the beetle abundance, indirect effects of forest area and abundance of mammals, and indirect negative edge effects.
ISSN:2045-7758
2045-7758
DOI:10.1002/ece3.10429