Landscape features lead to shifts in communities of medium- to large-bodied mammals in subtropical Atlantic Forest

Defaunation is a key ecological issue that has only recently been given sufficient attention. As predicted, evidence so far indicates loss of larger species followed by medium-sized species, leading to cascading effects that propagate throughout entire communities and ecosystems. The Atlantic Forest...

Full description

Saved in:
Bibliographic Details
Published in:Journal of mammalogy 2016-06, Vol.97 (3), p.713-725
Main Authors: Bogoni, Juliano André, Cherem, Jorge José, Giehl, Eduardo Luís Hettwer, Santos, Luiz Gustavo Oliveira, Castilho, Pedro Volkmer de, Filho, Vilmar Picinatto, Fantacini, Felipe Moreli, Tortato, Marcos Adriano, Luiz, Micheli Ribeiro, Rizzaro, Renato, Graipel, Maurício Eduardo
Format: Article
Language:English
Subjects:
Biodiversity hot spots
camera trapping
Carnivores
communities
composition
defaunation
ecology
FEATURE ARTICLES
Forests
Habitat fragmentation
Habitat loss
Habitats
human occupation
Insectivores
Mammals
Omnivores
Protected areas
Species composition
Species richness
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:Defaunation is a key ecological issue that has only recently been given sufficient attention. As predicted, evidence so far indicates loss of larger species followed by medium-sized species, leading to cascading effects that propagate throughout entire communities and ecosystems. The Atlantic Forest is among the most important global biodiversity hotspots. These regions have historically been impacted by habitat loss and fragmentation, resulting in landscape changes and negative impacts upon animal communities. This study evaluates community characteristics of medium- and large-sized mammals in subtropical Atlantic Forest, southern Brazil. We gathered data on mammal occurrence using 108 cameras traps located across 8 protected areas. We then tested whether landscape differences impact mammal richness, composition, and community complexity. Specifically, we used a regression tree to evaluate compositional differences as a function of landscape configuration. We analyzed data for 26 species in total, with the number of species per area ranging from 9 to 17. Changes in mammal composition at the landscape scale were most strongly associated with human occupation. Areas with strong human occupation had low species richness, with a predominance of medium-sized omnivores and insectivores species; these conditions led to high defaunation indices. Community complexity was greater in areas with low human occupation, where carnivores (Felidae) were more abundant. Differences in species composition were also linked to altitudinal bands and the ratio of period of time with protected status versus history of land exploitation in a particular area. Analysis of functional groups indicated that intense human occupation had negative effects on larger species, a process that may have impending consequences. Despite defaunation being a serious ecological issue, we assert that taking prompt action may limit or potentially reverse effects of defaunation before the most dramatic changes take place.
ISSN:0022-2372
1545-1542
DOI:10.1093/jmammal/gyv215