Anthropogenic disturbance and rainfall variation threaten the stability of plant–ant interactions in the Brazilian Caatinga

Climate change is projected to exacerbate the effects of anthropogenic disturbance, with negative impacts on ecosystem stability and functioning. We evaluate the additive and combined effects of chronic anthropogenic disturbance (CAD) and rainfall variation on the temporal stability of mutualistic E...

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Published in	Ecography (Copenhagen) Vol. 42; no. 11; pp. 1960 - 1972
Main Authors	Câmara, Talita, Leal, Inara R., Blüthgen, Nico, Oliveira, Fernanda M. P., Arnan, Xavier
Format	Journal Article
Language	English
Published	Oxford, UK Blackwell Publishing Ltd 01.11.2019 John Wiley & Sons, Inc
Subjects	Anthropogenic factors Bearing chronic anthropogenic disturbance Climate change Community involvement Community structure Composition Disturbance Dry forests Ecosystem stability Environmental changes environmental fluctuation Environmental gradient Environmental impact Evaluation Human influences Levels mutualisms Plant communities Plant diversity plant–animal interactions Rainfall Rainfall levels Specialization Stability analysis Switching theory Variation
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Abstract	Climate change is projected to exacerbate the effects of anthropogenic disturbance, with negative impacts on ecosystem stability and functioning. We evaluate the additive and combined effects of chronic anthropogenic disturbance (CAD) and rainfall variation on the temporal stability of mutualistic EFN‐bearing plant–ant networks in a Caatinga dry forest. We evaluated whether changes in the stability of these interactions are driven by changes in the stability of the communities of partners involved and/or in ant behavior. We sampled EFN‐bearing plant–ant networks in sixteen 20 × 20 m plots distributed across CAD and rainfall gradients. The stability of EFN‐bearing plant and attendant–ant communities were measured as the inverse of temporal differences in their community structure and composition. We also computed the stability of EFN‐bearing plant–ant networks by measuring the inverse of temporal differences in network specialization metrics. We found that, in general, the structure and composition of plant and ant interacting communities were similarly stable along both environmental gradients. Only CAD and its interaction with rainfall affected the temporal stability of EFN‐bearing plant diversity, which declined as CAD increased, with a more pronounced relationship in wetter areas. However, variation in levels of CAD and, to a lesser extent, rainfall greatly modulated the stability of EFN‐bearing plant–ant network specialization. CAD reduced the stability of network generality (specialization at the ant level), an effect that was much stronger in wetter areas. Meanwhile, the stability in network vulnerability (specialization at the plant level) decreased with the increase of CAD and the decrease of rainfall levels. Finally, there was a trend of decreasing stability in specialization of the overall network with increasing CAD. Our results suggest that changes in the structure of interaction networks are mainly driven by a switch in ant behavior rather than by changes in the structure and composition of plant and ant communities between years.
AbstractList	Climate change is projected to exacerbate the effects of anthropogenic disturbance, with negative impacts on ecosystem stability and functioning. We evaluate the additive and combined effects of chronic anthropogenic disturbance (CAD) and rainfall variation on the temporal stability of mutualistic EFN‐bearing plant–ant networks in a Caatinga dry forest. We evaluated whether changes in the stability of these interactions are driven by changes in the stability of the communities of partners involved and/or in ant behavior. We sampled EFN‐bearing plant–ant networks in sixteen 20 × 20 m plots distributed across CAD and rainfall gradients. The stability of EFN‐bearing plant and attendant–ant communities were measured as the inverse of temporal differences in their community structure and composition. We also computed the stability of EFN‐bearing plant–ant networks by measuring the inverse of temporal differences in network specialization metrics. We found that, in general, the structure and composition of plant and ant interacting communities were similarly stable along both environmental gradients. Only CAD and its interaction with rainfall affected the temporal stability of EFN‐bearing plant diversity, which declined as CAD increased, with a more pronounced relationship in wetter areas. However, variation in levels of CAD and, to a lesser extent, rainfall greatly modulated the stability of EFN‐bearing plant–ant network specialization. CAD reduced the stability of network generality (specialization at the ant level), an effect that was much stronger in wetter areas. Meanwhile, the stability in network vulnerability (specialization at the plant level) decreased with the increase of CAD and the decrease of rainfall levels. Finally, there was a trend of decreasing stability in specialization of the overall network with increasing CAD. Our results suggest that changes in the structure of interaction networks are mainly driven by a switch in ant behavior rather than by changes in the structure and composition of plant and ant communities between years.
Author	Oliveira, Fernanda M. P. Blüthgen, Nico Arnan, Xavier Câmara, Talita Leal, Inara R.
Author_xml	– sequence: 1 givenname: Talita surname: Câmara fullname: Câmara, Talita organization: Programa de Pós‐Graduação em Biologia Vegetal, Univ. Federal de Pernambuco – sequence: 2 givenname: Inara R. surname: Leal fullname: Leal, Inara R. organization: Depto de Botânica, Univ. Federal de Pernambuco – sequence: 3 givenname: Nico orcidid: 0000-0001-6349-4528 surname: Blüthgen fullname: Blüthgen, Nico organization: Ecological Networks Research Group, Dept of Biology, Technische Univ – sequence: 4 givenname: Fernanda M. P. surname: Oliveira fullname: Oliveira, Fernanda M. P. organization: Programa de Pós‐Graduação em Biologia Vegetal, Univ. Federal de Pernambuco – sequence: 5 givenname: Xavier orcidid: 0000-0002-9904-274X surname: Arnan fullname: Arnan, Xavier email: xavi.arnan@gmail.com organization: CREAF, Cerdanyola del Vallès
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Snippet	Climate change is projected to exacerbate the effects of anthropogenic disturbance, with negative impacts on ecosystem stability and functioning. We evaluate...
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SubjectTerms	Anthropogenic factors Bearing chronic anthropogenic disturbance Climate change Community involvement Community structure Composition Disturbance Dry forests Ecosystem stability Environmental changes environmental fluctuation Environmental gradient Environmental impact Evaluation Human influences Levels mutualisms Plant communities Plant diversity plant–animal interactions Rainfall Rainfall levels Specialization Stability analysis Switching theory Variation
Title	Anthropogenic disturbance and rainfall variation threaten the stability of plant–ant interactions in the Brazilian Caatinga
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