Abstract
Introduction: In animals, body size is correlated with many aspects of natural history, such as life span, abundance, dispersal capacity and diet breadth. However, contrasting trends have been reported for the relationship between body size and these ecological traits. Methods: Fruit-feeding butterflies were used to investigate whether body size is correlated with species abundance, dispersal, permanence, and larval diet breadth in a Neotropical savanna in Brazil (Cerrado). We used Blomberg’s K and Phylogenetic Generalized Least Squares models (PGLS) to measure phylogenetic signal strength in species traits and to estimate size–dispersal–diet breadth associations, while also taking shared ancestry into account. Results: 539 individuals from 27 species were captured, and 190 individuals were recaptured, representing a 35% recapture rate. We found body size to be negatively associated with butterfly abundance, and positively associated with dispersal level, distance traveled, number of traps visited, individual permanence, and diet breadth. These results indicate that larger butterflies are more likely to disperse over longer distances. Moreover, larger butterflies have more generalized larval diets, based on the number of host plant families, genera, and phylogenetic diversity of the host plants they consume as larvae. Smaller butterflies rely on fewer resources, which is reflected in their higher survival in small patches and may explain their lower dispersal ability and higher diet specialization. Nevertheless, lower dispersal ability may, if not compensated by large population sizes, threaten small-bodied species inhabiting environments, such as the Cerrado, which have intense deforestation rates. Conclusions: Body size is positively associated with dispersal and diet breadth for the fruit-feeding butterflies collected in this study.
Highlights
Dispersal is a key process for the survival and persistence of all organisms
We considered forewing length (FWL) a surrogate for body size, as the correlation between wingspan and body length is about 0.8 in fruit-feeding butterflies [13]
A clear phylogenetic signal was found for both body size and diet breadth, indicating trait conservatism where close lineages of fruit-feeding butterflies have similar body sizes [4,15] and similar host plant associations
Summary
It can help to reduce intraspecific competition and promote species coexistence [1] This is especially true when there are environmental changes that require a population-level spatial response, such as a shifting climatic niche or the need to maintain connections among populations in increasingly fragmented landscapes [1], and it is clearly important to understand the conditions that modulate dispersal [2]. Identifying which life history traits co-vary with dispersal-related traits should enable us to make predictions about species response in the face of environmental change [3,4]. This is relevant for species inhabiting environments with high deforestation rates, such as the Neotropical Savannah in Brazil known as the Cerrado [2,5]. Body size is a morphological trait which is related to dispersal as well as many other aspects of a species’ natural history, such as life span, abundance, and diet breadth [6,7,8,9]
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