2013
DOI: 10.1111/een.12036
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Influence of extrafloral nectary phenology on ant–plant mutualistic networks in a neotropical savanna

Abstract: Temporal variation has been one remarkable feature of ecological interactions. In ant–plant mutualism, this variation is widely known, although little is understood about the mechanisms that shape these variations. This study tested whether or not the phenology of extrafloral nectaries (EFNs) influences the temporal variation of two properties of an ant–plant interaction network. The network under investigation exhibited a nested pattern and low specialisation over most months. Monthly nestedness and specialis… Show more

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Cited by 124 publications
(153 citation statements)
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References 53 publications
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“…However, investment of the plant in attracting ants can be influenced by the plant species, the phenology and ontogeny of the plant and EFNs and by external factors such as changes in climate and habitat (Lange et al, 2013;Oliveira and Freitas, 2004;Queiroz et al, 2013). In our study, S. glabra showed no induction or increased biotic defense (EFNs) and physical (sclerophylly) in response to environmental disturbance but still showed higher herbivory in the disturbed area.…”
Section: Discussioncontrasting
confidence: 48%
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“…However, investment of the plant in attracting ants can be influenced by the plant species, the phenology and ontogeny of the plant and EFNs and by external factors such as changes in climate and habitat (Lange et al, 2013;Oliveira and Freitas, 2004;Queiroz et al, 2013). In our study, S. glabra showed no induction or increased biotic defense (EFNs) and physical (sclerophylly) in response to environmental disturbance but still showed higher herbivory in the disturbed area.…”
Section: Discussioncontrasting
confidence: 48%
“…The amount and identity of ant species visiting a plant myrmecophytic interaction is determined by the amount and quality of extrafloral nectar (Lange et al, 2013;Rico-Gray and Oliveira, 2007). However, investment of the plant in attracting ants can be influenced by the plant species, the phenology and ontogeny of the plant and EFNs and by external factors such as changes in climate and habitat (Lange et al, 2013;Oliveira and Freitas, 2004;Queiroz et al, 2013).…”
Section: Discussionmentioning
confidence: 99%
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“…Network analysis shows associations (links) between species (nodes) in a community, and is a commonly used approach in order to study how interactions are organized (Dáttilo et al, 2014;Blüthgen et al, 2015;Del-Claro et al, 2016). Several studies have been using this method for either community networks (Lange et al, 2013;Maruyama et al, 2014Maruyama et al, , 2015 or individual-based ones (Baker-Méio & Marquis, 2012;Gomez & Perfectti, 2012;Dáttilo et al, 2014). This analysis provides a great number of metrics and, for our aim, we selected six: complementary specialization (H2'), species specialization (d'), degree (k), specialization and 1 depicts a perfect specialization (Blüthgen et al, 2006;Dormann et al, 2009).…”
Section: Network Analysis and Statisticsmentioning
confidence: 99%
“…Pseudomyrmex gracilis forages in a diverse array of plants, regardless of the presence of other ants (Stefani et al, 2000;Santos & Del-Claro, 2001) and is pointed out as one common ant species in ant-plant ecological networks in Cerrado vegetation (Lange et al, 2013). Unfortunately, the natural history of this ant species is not well understood, most likely because of the low number of individuals found on plants compared to other ants (Rodrigues et al, 2008).…”
Section: The Role Of Ants In Plant Defencementioning
confidence: 99%