Abundance and phenology drive plant–pollinator network responses to restoration in the Southern Atlantic rainforest in Brazil

Ecological restoration has been increasingly considering biotic interactions. Different restoration strategies usually rely on different composition and abundance of plants with potential impact on the establishment of plant–pollinator interactions. We evaluated the restoration of plant–pollinator i...

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Published inRestoration ecology Vol. 30; no. 5
Main Authors Souza, Jana M. T., Vázquez, Diego P., Varassin, Isabela G.
Format Journal Article
LanguageEnglish
Published Malden, USA Wiley Periodicals, Inc 01.07.2022
Blackwell Publishing Ltd
Subjects
Abundance
Brazil
Composition
Coupling
ecological restoration
Environmental restoration
equations
Flowers
Herbivores
Insects
interactions
Landscape preservation
Mathematical models
Multivariate statistical analysis
natural regeneration
phenological coupling
phenology
Plant reproduction
Plant species
Plants
Pollination
Pollinators
post‐disturbance
rain forests
Rainforests
Reforestation
Regeneration
Regeneration (biological)
Restoration strategies
Structural equation modeling
summer
tropical ecosystem
Brazil
Atlantic Forest
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Abstract Ecological restoration has been increasingly considering biotic interactions. Different restoration strategies usually rely on different composition and abundance of plants with potential impact on the establishment of plant–pollinator interactions. We evaluated the restoration of plant–pollinator interaction networks in young restoration areas in the South Atlantic rainforest, Brazil. We assessed the relative contribution of two restoration strategies (natural regeneration vs. reforestation), geographic distance, plant composition, pollinator composition, abundance of flowers and insects, and plant–pollinator temporal overlap, that is, phenological coupling, to predict the establishment of pairwise interactions. We expected that restoration strategies would indirectly affect the patterns (identity and frequency) of pairwise interactions due to their influence on the processes driving interactions. We sampled monthly pollinators and the plants they visited on six reforestation sites and six natural regeneration sites during 20 months. We surveyed flower abundance in summer. We analyzed the relative contribution of each factor to predict the identity and frequency of pairwise interactions using structural equation modeling. Contrary to expectations, the restoration strategy did not predict interactions, probably because the sites under restoration were surrounded by natural and conserved landscapes. Since we found no effect of restoration strategies on plant composition, abundance, and phenological coupling, the restoration strategy did not predict interactions. Phenological coupling explained more than half of the interaction patterns, representing the best predictor of interactions followed by abundance and plant composition. Therefore, these predictors should be considered to select plant species in restoration projects that encompass interactions and pollination services.
AbstractList Ecological restoration has been increasingly considering biotic interactions. Different restoration strategies usually rely on different composition and abundance of plants with potential impact on the establishment of plant–pollinator interactions. We evaluated the restoration of plant–pollinator interaction networks in young restoration areas in the South Atlantic rainforest, Brazil. We assessed the relative contribution of two restoration strategies (natural regeneration vs. reforestation), geographic distance, plant composition, pollinator composition, abundance of flowers and insects, and plant–pollinator temporal overlap, that is, phenological coupling, to predict the establishment of pairwise interactions. We expected that restoration strategies would indirectly affect the patterns (identity and frequency) of pairwise interactions due to their influence on the processes driving interactions. We sampled monthly pollinators and the plants they visited on six reforestation sites and six natural regeneration sites during 20 months. We surveyed flower abundance in summer. We analyzed the relative contribution of each factor to predict the identity and frequency of pairwise interactions using structural equation modeling. Contrary to expectations, the restoration strategy did not predict interactions, probably because the sites under restoration were surrounded by natural and conserved landscapes. Since we found no effect of restoration strategies on plant composition, abundance, and phenological coupling, the restoration strategy did not predict interactions. Phenological coupling explained more than half of the interaction patterns, representing the best predictor of interactions followed by abundance and plant composition. Therefore, these predictors should be considered to select plant species in restoration projects that encompass interactions and pollination services.
Author Varassin, Isabela G.
Vázquez, Diego P.
Souza, Jana M. T.
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  givenname: Jana M. T.
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  fullname: Souza, Jana M. T.
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  givenname: Isabela G.
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  surname: Varassin
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Notes Author contributions: JMTS, IGV conceived the study and designed the methodology; JMTS collected the data; JMTS, DPV, IGV analyzed the data; JMTS, IGV led the writing of the manuscript; JMTS, DPV, IGV contributed substantially to revisions of the manuscript and gave final approval for publication.
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Snippet Ecological restoration has been increasingly considering biotic interactions. Different restoration strategies usually rely on different composition and...
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SubjectTerms Abundance
Brazil
Composition
Coupling
ecological restoration
Environmental restoration
equations
Flowers
Herbivores
Insects
interactions
Landscape preservation
Mathematical models
Multivariate statistical analysis
natural regeneration
phenological coupling
phenology
Plant reproduction
Plant species
Plants
Pollination
Pollinators
post‐disturbance
rain forests
Rainforests
Reforestation
Regeneration
Regeneration (biological)
Restoration strategies
Structural equation modeling
summer
tropical ecosystem
Title Abundance and phenology drive plant–pollinator network responses to restoration in the Southern Atlantic rainforest in Brazil
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Volume 30
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