The missing part of seed dispersal networks: structure and robustness of bat-fruit interactions.

The missing part of seed dispersal networks: structure and robustness of bat-fruit interactions.

Mutualistic networks are crucial to the maintenance of ecosystem services. Unfortunately, what we know about seed dispersal networks is based only on bird-fruit interactions. Therefore, we aimed at filling part of this gap by investigating bat-fruit networks. It is known from population studies that...

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Main Authors: Marco Aurelio Ribeiro Mello, Flávia Maria Darcie Marquitti, Paulo Roberto Guimarães, Elisabeth Klara Viktoria Kalko, Pedro Jordano, Marcus Aloizio Martinez de Aguiar
Format: Article
Language:English
Published: Public Library of Science (PLoS) 2011-02-01
Series:PLoS ONE
Online Access:https://www.ncbi.nlm.nih.gov/pmc/articles/pmid/21386981/?tool=EBI
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spelling doaj-e36dfa6b5c804e0a92271627210c1c812021-03-03T19:53:48ZengPublic Library of Science (PLoS)PLoS ONE1932-62032011-02-0162e1739510.1371/journal.pone.0017395The missing part of seed dispersal networks: structure and robustness of bat-fruit interactions.Marco Aurelio Ribeiro MelloFlávia Maria Darcie MarquittiPaulo Roberto GuimarãesElisabeth Klara Viktoria KalkoPedro JordanoMarcus Aloizio Martinez de AguiarMutualistic networks are crucial to the maintenance of ecosystem services. Unfortunately, what we know about seed dispersal networks is based only on bird-fruit interactions. Therefore, we aimed at filling part of this gap by investigating bat-fruit networks. It is known from population studies that: (i) some bat species depend more on fruits than others, and (ii) that some specialized frugivorous bats prefer particular plant genera. We tested whether those preferences affected the structure and robustness of the whole network and the functional roles of species. Nine bat-fruit datasets from the literature were analyzed and all networks showed lower complementary specialization (H(2)' = 0.37±0.10, mean ± SD) and similar nestedness (NODF = 0.56±0.12) than pollination networks. All networks were modular (M = 0.32±0.07), and had on average four cohesive subgroups (modules) of tightly connected bats and plants. The composition of those modules followed the genus-genus associations observed at population level (Artibeus-Ficus, Carollia-Piper, and Sturnira-Solanum), although a few of those plant genera were dispersed also by other bats. Bat-fruit networks showed high robustness to simulated cumulative removals of both bats (R = 0.55±0.10) and plants (R = 0.68±0.09). Primary frugivores interacted with a larger proportion of the plants available and also occupied more central positions; furthermore, their extinction caused larger changes in network structure. We conclude that bat-fruit networks are highly cohesive and robust mutualistic systems, in which redundancy is high within modules, although modules are complementary to each other. Dietary specialization seems to be an important structuring factor that affects the topology, the guild structure and functional roles in bat-fruit networks.https://www.ncbi.nlm.nih.gov/pmc/articles/pmid/21386981/?tool=EBI
collection DOAJ
language English
format Article
sources DOAJ
author Marco Aurelio Ribeiro Mello
Flávia Maria Darcie Marquitti
Paulo Roberto Guimarães
Elisabeth Klara Viktoria Kalko
Pedro Jordano
Marcus Aloizio Martinez de Aguiar
spellingShingle Marco Aurelio Ribeiro Mello
Flávia Maria Darcie Marquitti
Paulo Roberto Guimarães
Elisabeth Klara Viktoria Kalko
Pedro Jordano
Marcus Aloizio Martinez de Aguiar
The missing part of seed dispersal networks: structure and robustness of bat-fruit interactions.
PLoS ONE
author_facet Marco Aurelio Ribeiro Mello
Flávia Maria Darcie Marquitti
Paulo Roberto Guimarães
Elisabeth Klara Viktoria Kalko
Pedro Jordano
Marcus Aloizio Martinez de Aguiar
author_sort Marco Aurelio Ribeiro Mello
title The missing part of seed dispersal networks: structure and robustness of bat-fruit interactions.
title_short The missing part of seed dispersal networks: structure and robustness of bat-fruit interactions.
title_full The missing part of seed dispersal networks: structure and robustness of bat-fruit interactions.
title_fullStr The missing part of seed dispersal networks: structure and robustness of bat-fruit interactions.
title_full_unstemmed The missing part of seed dispersal networks: structure and robustness of bat-fruit interactions.
title_sort missing part of seed dispersal networks: structure and robustness of bat-fruit interactions.
publisher Public Library of Science (PLoS)
series PLoS ONE
issn 1932-6203
publishDate 2011-02-01
description Mutualistic networks are crucial to the maintenance of ecosystem services. Unfortunately, what we know about seed dispersal networks is based only on bird-fruit interactions. Therefore, we aimed at filling part of this gap by investigating bat-fruit networks. It is known from population studies that: (i) some bat species depend more on fruits than others, and (ii) that some specialized frugivorous bats prefer particular plant genera. We tested whether those preferences affected the structure and robustness of the whole network and the functional roles of species. Nine bat-fruit datasets from the literature were analyzed and all networks showed lower complementary specialization (H(2)' = 0.37±0.10, mean ± SD) and similar nestedness (NODF = 0.56±0.12) than pollination networks. All networks were modular (M = 0.32±0.07), and had on average four cohesive subgroups (modules) of tightly connected bats and plants. The composition of those modules followed the genus-genus associations observed at population level (Artibeus-Ficus, Carollia-Piper, and Sturnira-Solanum), although a few of those plant genera were dispersed also by other bats. Bat-fruit networks showed high robustness to simulated cumulative removals of both bats (R = 0.55±0.10) and plants (R = 0.68±0.09). Primary frugivores interacted with a larger proportion of the plants available and also occupied more central positions; furthermore, their extinction caused larger changes in network structure. We conclude that bat-fruit networks are highly cohesive and robust mutualistic systems, in which redundancy is high within modules, although modules are complementary to each other. Dietary specialization seems to be an important structuring factor that affects the topology, the guild structure and functional roles in bat-fruit networks.
url https://www.ncbi.nlm.nih.gov/pmc/articles/pmid/21386981/?tool=EBI
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