Abstract
Ants are able to interact with fruits and seeds that are not adapted for ant seed dispersal. In Brazil, several studies show interactions of ants with non-myrmecochorous diaspores; however, few of them have studied the structure of ant-fruit networks. The use of the network approach allows visualising multiple interactions between partners and how they are shaped by the community context. Our study aims to investigate ant-fruit networks as well as quantitative and qualitative dispersal components in a fragment of the Brazilian Atlantic Forest. We investigated the structure of interaction networks, diaspore removal rates, diaspore destination and dispersal distance over two years of observation. We constructed three interaction networks: dry season, rainy season and total, with the latter comprising the two formers. The diaspore removal rate, dispersal distance and diaspore destination experiments were performed for the plant species Miconia calvescens, Miconia prasina, Psychotria leiocarpa and Inga edulis. We recorded a large number of interactions, with diaspore cleaning being more frequent than removal. Ant-diaspore networks were nested, non-modular and little specialized. M. calvescens, M. prasina and I. edulis showed higher diaspore removal rates. Diaspore removal distances were the same among M. calvescens, M. prasina and I. edulis. In M. calvescens and I. edulis, the main diaspore destination was the ant’s nest. Our study shows that diaspore cleaning is the most common behavior in ant-diaspore interactions and there are no differences in the organization of interaction networks over the seasons. These results have implications for the future structure of plant communities, considering that a small part of the diaspores is removed, and that most of them are cleaned, favouring germination at the deposition site.
Highlights
Ants and plants interact in a variety of ways, from parasitism to mutualism (Beattie, 1985), including interactions with diaspores (i.e.: dispersal unit) that can result in seed dispersal (Anjos et al, 2020; Luna et al, 2021)
We recorded a total of 1,032 interactions among 49 ant species (22 genera belonging to six subfamilies) (Table 2) and 25 plant species belonging to 17 families (Table 3)
This study recorded a large number of interactions in an Atlantic Forest area on Marambaia Island, with diaspore cleaning being the main interaction
Summary
Ants and plants interact in a variety of ways, from parasitism to mutualism (Beattie, 1985), including interactions with diaspores (i.e.: dispersal unit) that can result in seed dispersal (Anjos et al, 2020; Luna et al, 2021). Ants can interact with non-myrmecochorous diaspores (without elaiosomes), in which the pulp and aryl work as an attraction for them (Rico-Gray & Oliveira, 2007). Several ant species have already been reported to disperse non-myrmecochorous diaspores across the globe (Anjos et al, 2020). Pizo and Oliveira (2000), for instance, observed more than 800 interactions between 56 species of nonmyrmecochorous plants and 36 species of ants from monthly samplings in the Atlantic Forest over two years. The interactions between several ant and plant species can be represented by complex ecological networks at the community level, in which species are represented as nodes, and interactions, as links.
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