Topsoil disturbance reshapes diaspore interactions with ground‐foraging animals in a megadiverse grassland

Questions Anthropogenic disturbances are known to be followed by extremely poor recovery in edaphic grasslands. However, the role of interactions with diaspore predators and secondary dispersers, which compose the dispersal filter and modulate plant community recovery, has been overlooked. We perfor...

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Published inJournal of vegetation science Vol. 31; no. 6; pp. 1039 - 1052
Main Authors Arruda, Andre J., Costa, Fernanda V., Guerra, Tadeu J., Junqueira, Patrícia A., Dayrell, Roberta L. C., Messeder, João V. S., Rodrigues, Hanna T. S., Buisson, Elise, Silveira, Fernando A. O., Török, Péter
Format Journal Article
LanguageEnglish
Published Hoboken Wiley Subscription Services, Inc 01.11.2020
Wiley
Subjects
Access control
Anthropogenic factors
ants
Brazil
campo rupestre
degradation
Diaspore
diaspore removal
Dispersion
Disturbances
Dorymyrmex
Ecology, environment
Ecosystems
Fauna
Field tests
granivores
Grasslands
Human influences
Indigenous species
Invertebrates
Life Sciences
myrmecochory
natural recovery
Pheidole
Plant communities
Predators
Recovering
Regeneration
Seed banks
seed limitation
seed predation
Seeds
Soil dynamics
Soil investigations
Soils
Symbiosis
Topsoil
Vegetation
Vertebrates
Brazil
ants
natural recovery
seed limitation
myrmecochory
degradation
campo rupestre
diaspore removal
seed predation
Online AccessGet full text
ISSN1100-9233
1654-1103
DOI10.1111/jvs.12866

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Abstract Questions Anthropogenic disturbances are known to be followed by extremely poor recovery in edaphic grasslands. However, the role of interactions with diaspore predators and secondary dispersers, which compose the dispersal filter and modulate plant community recovery, has been overlooked. We performed field experiments to investigate how soil disturbances affect diaspore interactions with the ground‐foraging fauna to better understand how disturbance influences regeneration potential. Location Campo rupestre vegetation, megadiverse edaphic grasslands, southeastern Brazil. Methods We used diaspores from five native species to compare removal rates between disturbed (top soil removal) and preserved sites; we also controlled invertebrate and vertebrate access to determine their role. In addition, we assessed differences in the diaspore removal effectiveness (DRE) and the structure of animal–diaspore interactions through network based‐approach. Results For three species, the average diaspore removal rates was relatively high (between 30% and 70%). Invertebrates were the most common removal agents in both disturbed and preserved sites. Interactions with foraging fauna and removal rates were 20% smaller in disturbed sites. Considering all diaspore removal events in disturbed sites, 24% resulted in the displacement from disturbed to preserved sites, but no diaspore was transported from preserved to disturbed ones. The animal–diaspore network was exclusively composed by ant–diaspore interactions and was more diverse and robust in preserved sites compared with disturbed ones. Seed predator ants (Pheidole and Dorymyrmex) were more common in disturbed sites. Furthermore, significant differences were found in the DRE between ant species and site types, suggesting specificity in the provision of dispersal services. Conclusions Topsoil removal affected removal proportions, DRE and ant–diaspore interaction network structure. The lack of diaspore dispersal towards disturbed sites indicates that soil removal affects secondary seed removal dynamics, impeding recovery potential. Disturbance negatively affected diaspore fate by reshaping interactions with ground‐foraging secondary seed dispersers and predators, constraining the development of seed bank and thus impacting upon vegetation dynamics and resilience. Plant–animal interactions can modulate community recovery after disturbance. We investigated how soil disturbances shape animal–diaspore interactions and consequently recovery capacity in a megadiverse grassland through diaspore removal experiments, dispersal effectiveness and multilayer networks. Disturbance negatively affects diaspore fate by reshaping interactions with ground‐foraging secondary seed dispersers and predators (ants), constraining seed bank development and thus impacting upon vegetation dynamics and resilience.
AbstractList QUESTIONS: Anthropogenic disturbances are known to be followed by extremely poor recovery in edaphic grasslands. However, the role of interactions with diaspore predators and secondary dispersers, which compose the dispersal filter and modulate plant community recovery, has been overlooked. We performed field experiments to investigate how soil disturbances affect diaspore interactions with the ground‐foraging fauna to better understand how disturbance influences regeneration potential. LOCATION: Campo rupestre vegetation, megadiverse edaphic grasslands, southeastern Brazil. METHODS: We used diaspores from five native species to compare removal rates between disturbed (top soil removal) and preserved sites; we also controlled invertebrate and vertebrate access to determine their role. In addition, we assessed differences in the diaspore removal effectiveness (DRE) and the structure of animal–diaspore interactions through network based‐approach. RESULTS: For three species, the average diaspore removal rates was relatively high (between 30% and 70%). Invertebrates were the most common removal agents in both disturbed and preserved sites. Interactions with foraging fauna and removal rates were 20% smaller in disturbed sites. Considering all diaspore removal events in disturbed sites, 24% resulted in the displacement from disturbed to preserved sites, but no diaspore was transported from preserved to disturbed ones. The animal–diaspore network was exclusively composed by ant–diaspore interactions and was more diverse and robust in preserved sites compared with disturbed ones. Seed predator ants (Pheidole and Dorymyrmex) were more common in disturbed sites. Furthermore, significant differences were found in the DRE between ant species and site types, suggesting specificity in the provision of dispersal services. CONCLUSIONS: Topsoil removal affected removal proportions, DRE and ant–diaspore interaction network structure. The lack of diaspore dispersal towards disturbed sites indicates that soil removal affects secondary seed removal dynamics, impeding recovery potential. Disturbance negatively affected diaspore fate by reshaping interactions with ground‐foraging secondary seed dispersers and predators, constraining the development of seed bank and thus impacting upon vegetation dynamics and resilience.
QuestionsAnthropogenic disturbances are known to be followed by extremely poor recovery in edaphic grasslands. However, the role of interactions with diaspore predators and secondary dispersers, which compose the dispersal filter and modulate plant community recovery, has been overlooked. We performed field experiments to investigate how soil disturbances affect diaspore interactions with the ground‐foraging fauna to better understand how disturbance influences regeneration potential.LocationCampo rupestre vegetation, megadiverse edaphic grasslands, southeastern Brazil.MethodsWe used diaspores from five native species to compare removal rates between disturbed (top soil removal) and preserved sites; we also controlled invertebrate and vertebrate access to determine their role. In addition, we assessed differences in the diaspore removal effectiveness (DRE) and the structure of animal–diaspore interactions through network based‐approach.ResultsFor three species, the average diaspore removal rates was relatively high (between 30% and 70%). Invertebrates were the most common removal agents in both disturbed and preserved sites. Interactions with foraging fauna and removal rates were 20% smaller in disturbed sites. Considering all diaspore removal events in disturbed sites, 24% resulted in the displacement from disturbed to preserved sites, but no diaspore was transported from preserved to disturbed ones. The animal–diaspore network was exclusively composed by ant–diaspore interactions and was more diverse and robust in preserved sites compared with disturbed ones. Seed predator ants (Pheidole and Dorymyrmex) were more common in disturbed sites. Furthermore, significant differences were found in the DRE between ant species and site types, suggesting specificity in the provision of dispersal services.ConclusionsTopsoil removal affected removal proportions, DRE and ant–diaspore interaction network structure. The lack of diaspore dispersal towards disturbed sites indicates that soil removal affects secondary seed removal dynamics, impeding recovery potential. Disturbance negatively affected diaspore fate by reshaping interactions with ground‐foraging secondary seed dispersers and predators, constraining the development of seed bank and thus impacting upon vegetation dynamics and resilience.
Questions Anthropogenic disturbances are known to be followed by extremely poor recovery in edaphic grasslands. However, the role of interactions with diaspore predators and secondary dispersers, which compose the dispersal filter and modulate plant community recovery, has been overlooked. We performed field experiments to investigate how soil disturbances affect diaspore interactions with the ground‐foraging fauna to better understand how disturbance influences regeneration potential. Location Campo rupestre vegetation, megadiverse edaphic grasslands, southeastern Brazil. Methods We used diaspores from five native species to compare removal rates between disturbed (top soil removal) and preserved sites; we also controlled invertebrate and vertebrate access to determine their role. In addition, we assessed differences in the diaspore removal effectiveness (DRE) and the structure of animal–diaspore interactions through network based‐approach. Results For three species, the average diaspore removal rates was relatively high (between 30% and 70%). Invertebrates were the most common removal agents in both disturbed and preserved sites. Interactions with foraging fauna and removal rates were 20% smaller in disturbed sites. Considering all diaspore removal events in disturbed sites, 24% resulted in the displacement from disturbed to preserved sites, but no diaspore was transported from preserved to disturbed ones. The animal–diaspore network was exclusively composed by ant–diaspore interactions and was more diverse and robust in preserved sites compared with disturbed ones. Seed predator ants (Pheidole and Dorymyrmex) were more common in disturbed sites. Furthermore, significant differences were found in the DRE between ant species and site types, suggesting specificity in the provision of dispersal services. Conclusions Topsoil removal affected removal proportions, DRE and ant–diaspore interaction network structure. The lack of diaspore dispersal towards disturbed sites indicates that soil removal affects secondary seed removal dynamics, impeding recovery potential. Disturbance negatively affected diaspore fate by reshaping interactions with ground‐foraging secondary seed dispersers and predators, constraining the development of seed bank and thus impacting upon vegetation dynamics and resilience. Plant–animal interactions can modulate community recovery after disturbance. We investigated how soil disturbances shape animal–diaspore interactions and consequently recovery capacity in a megadiverse grassland through diaspore removal experiments, dispersal effectiveness and multilayer networks. Disturbance negatively affects diaspore fate by reshaping interactions with ground‐foraging secondary seed dispersers and predators (ants), constraining seed bank development and thus impacting upon vegetation dynamics and resilience.
Author Guerra, Tadeu J.
Messeder, João V. S.
Silveira, Fernando A. O.
Junqueira, Patrícia A.
Rodrigues, Hanna T. S.
Buisson, Elise
Costa, Fernanda V.
Török, Péter
Arruda, Andre J.
Dayrell, Roberta L. C.
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Issue 6
Keywords ants
natural recovery
seed limitation
myrmecochory
degradation
campo rupestre
diaspore removal
seed predation
Language English
License Distributed under a Creative Commons Attribution 4.0 International License: http://creativecommons.org/licenses/by/4.0
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Notes This article is a part of the Special Feature Plant dispersal and establishment as drivers of vegetation dynamics and resilience, edited by Péter Török, James M. Bullock, Borja Jiménez‐Alfaro and Judit Sonkoly.
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Snippet Questions Anthropogenic disturbances are known to be followed by extremely poor recovery in edaphic grasslands. However, the role of interactions with diaspore...
QuestionsAnthropogenic disturbances are known to be followed by extremely poor recovery in edaphic grasslands. However, the role of interactions with diaspore...
QUESTIONS: Anthropogenic disturbances are known to be followed by extremely poor recovery in edaphic grasslands. However, the role of interactions with...
Questions: Anthropogenic disturbances are known to be followed by extremely poor recovery in edaphic grasslands. However, the role of interactions with...
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SubjectTerms Access control
Anthropogenic factors
ants
Brazil
campo rupestre
degradation
Diaspore
diaspore removal
Dispersion
Disturbances
Dorymyrmex
Ecology, environment
Ecosystems
Fauna
Field tests
granivores
Grasslands
Human influences
Indigenous species
Invertebrates
Life Sciences
myrmecochory
natural recovery
Pheidole
Plant communities
Predators
Recovering
Regeneration
Seed banks
seed limitation
seed predation
Seeds
Soil dynamics
Soil investigations
Soils
Symbiosis
Topsoil
Vegetation
Vertebrates
Title Topsoil disturbance reshapes diaspore interactions with ground‐foraging animals in a megadiverse grassland
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Volume 31
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