The risks of introduction of the Amazonian palm Euterpe oleracea in the Atlantic rainforest.

F C S Tiberio,T A Sampaio-E-Silva,A Z Antunes,D M S Matos

doi:10.1590/1519-6984.12114

F C S Tiberio, T A Sampaio-E-Silva + Show 2 more

Open Access

https://doi.org/10.1590/1519-6984.12114

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Abstract

The introduction of a species may alter ecological processes of native populations, such as pollination and dispersal patterns, leading to changes in population structure. When the introduced and the native species are congeners, interference in pollination can also lead to hybridization. We aimed to understand the ecological aspects of Euterpe oleracea introduction in the Atlantic forest and the possible consequences for the conservation of the native congener Euterpe edulis. We analysed the population structure of palm populations, including hybrids, and observed the interaction with frugivorous birds of both palm species after E. oleracea introduction. We observed that E. edulis had significantly lower density and a smaller number of seedlings when occurring with E. oleracea. Native and introduced Euterpe species shared nine frugivorous bird species. E. oleracea and hybrids had dispersed outside the original planting area. Consequently, the risks of introduction of E. oleracea may mostly be related to the disruption of interactions between E. edulis and frugivorous birds and the spontaneous production of hybrids. Finally, the cultivation of E. oleracea and hybrids in Atlantic rainforest could affect the conservation of the already endangered E. edulis.

Highlights

Palms play an important role in natural communities as many palm species are important resources for animals (Tomlinson, 2006; Henderson et al, 1995)
We recorded 2374 individuals of E. edulis (6782.8 ind. ha–1), while at the site of introduction we found 400 individuals of E. edulis (1142.8 ind. ha–1), 68 of E. oleracea (194.3 ind. ha–1) and 72 hybrids (205.7 ind. ha–1)
Our results provided evidences that the Amazonian palm tree E. oleracea, introduced in the Atlantic Forest, is able to establish through sexual reproduction and vegetative growth, to produce non-mediated hybrids with the native palm species and to interact with local bird community, including dispersers of E. edulis

Summary

Introduction

Palms play an important role in natural communities as many palm species are important resources for animals (Tomlinson, 2006; Henderson et al, 1995). Palm heart, leaves and stems are commonly exploited by human populations (Henderson et al, 1995). Because of their economic importance palms are one of the groups most dispersed by humans (Tomlinson, 2006). The introduction of many palm species is stimulated by their beauty and effortless cultivation – mostly in tropical regions. This may create chalenges to manage these the exotic species and to conservate native communities (Van Wilgen and Richardson, 2014).

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