Aridity and chronic anthropogenic disturbance as organizing forces of fruit‐feeding butterfly assemblages in a Caatinga dry forest

Abstract

AbstractAnthropogenic disturbances and climate change are expected to reorganize biodiversity on multiple ecological levels from populations to ecosystems, especially in arid and semiarid regions due to environmental filtering imposed by water stress. This paper examines the individual and combined effects of chronic anthropogenic disturbance and increased aridity on the structure of fruit‐feeding butterfly assemblages in a human‐modified landscape of Caatinga dry forest, in the northeast of Brazil. Butterflies were recorded monthly across old‐growth forest stands and their assemblages were described in terms of taxonomic and functional community‐level attributes confronted to different levels of chronic disturbance and aridity. Butterfly assemblages were species‐poor but had high species replacement (turnover) along both the chronic disturbance and aridity gradients. We observed a negative effect of aridity on alpha and beta diversity of butterfly assemblages. Butterfly assemblages across forest stands exposed to high levels of chronic disturbance and aridity had a nested structure. Functional diversity (Rao's Q) and the community‐weighted means (CWM) of ocellus‐bearing species and monocot‐feeding larvae were negatively and positively affected by increased aridity and chronic disturbance, respectively. Our findings suggest that aridity and its combination with chronic disturbance have a drastic effect on the structure of butterfly assemblages in the Caatinga dry forest. These findings highlight that rainfall and chronic disturbances as major drivers of biological reorganization in human‐modified landscapes. As aridity increases, Caatinga tends to support taxonomically and functionally impoverished and highly distorted assemblages.Abstract in Portuguese is available with online material