Your search keyword '"Emer, Carine"' showing total 5 results

1. Birds optimize fruit size consumed near their geographic range limits.

Author

Martins LP, Stouffer DB, Blendinger PG, Böhning-Gaese K, Costa JM, Dehling DM, Donatti CI, Emer C, Galetti M, Heleno R, Menezes Í, Morante-Filho JC, Muñoz MC, Neuschulz EL, Pizo MA, Quitián M, Ruggera RA, Saavedra F, Santillán V, Schleuning M, da Silva LP, Ribeiro da Silva F, Tobias JA, Traveset A, Vollstädt MGR, and Tylianakis JM

Subjects

Animals, Beak anatomy & histology, Birds physiology, Feeding Behavior, Fruit anatomy & histology

Abstract

Animals can adjust their diet to maximize energy or nutritional intake. For example, birds often target fruits that match their beak size because those fruits can be consumed more efficiently. We hypothesized that pressure to optimize diet-measured as matching between fruit and beak size-increases under stressful environments, such as those that determine species' range edges. Using fruit-consumption and trait information for 97 frugivorous bird and 831 plant species across six continents, we demonstrate that birds feed more frequently on closely size-matched fruits near their geographic range limits. This pattern was particularly strong for highly frugivorous birds, whereas opportunistic frugivores showed no such tendency. These findings highlight how frugivore interactions might respond to stressful conditions and reveal that trait matching may not predict resource use consistently.

Published

2024

2. Global and regional ecological boundaries explain abrupt spatial discontinuities in avian frugivory interactions.

Author

Martins LP, Stouffer DB, Blendinger PG, Böhning-Gaese K, Buitrón-Jurado G, Correia M, Costa JM, Dehling DM, Donatti CI, Emer C, Galetti M, Heleno R, Jordano P, Menezes Í, Morante-Filho JC, Muñoz MC, Neuschulz EL, Pizo MA, Quitián M, Ruggera RA, Saavedra F, Santillán V, Sanz D'Angelo V, Schleuning M, da Silva LP, Ribeiro da Silva F, Timóteo S, Traveset A, Vollstädt MGR, and Tylianakis JM

Subjects

Animals, Humans, Biodiversity, Plants, Birds, Ecosystem

Abstract

Species interactions can propagate disturbances across space via direct and indirect effects, potentially connecting species at a global scale. However, ecological and biogeographic boundaries may mitigate this spread by demarcating the limits of ecological networks. We tested whether large-scale ecological boundaries (ecoregions and biomes) and human disturbance gradients increase dissimilarity among plant-frugivore networks, while accounting for background spatial and elevational gradients and differences in network sampling. We assessed network dissimilarity patterns over a broad spatial scale, using 196 quantitative avian frugivory networks (encompassing 1496 plant and 1004 bird species) distributed across 67 ecoregions, 11 biomes, and 6 continents. We show that dissimilarities in species and interaction composition, but not network structure, are greater across ecoregion and biome boundaries and along different levels of human disturbance. Our findings indicate that biogeographic boundaries delineate the world's biodiversity of interactions and likely contribute to mitigating the propagation of disturbances at large spatial scales., (© 2022. The Author(s).)

Published

2022

3. Defaunation precipitates the extinction of evolutionarily distinct interactions in the Anthropocene.

Author

Emer C, Galetti M, Pizo MA, Jordano P, and Verdú M

Subjects

Animals, Biological Evolution, Ecosystem, Forests, Humans, Phylogeny, Birds physiology, Plants genetics, Seed Dispersal physiology, Seeds physiology

Abstract

Species on Earth are interconnected with each other through ecological interactions. Defaunation can erode those connections, yet we lack evolutionary predictions about the consequences of losing interactions in human-modified ecosystems. We quantified the fate of the evolutionary history of avian-seed dispersal interactions across tropical forest fragments by combining the evolutionary distinctness of the pairwise-partner species, a proxy to their unique functional features. Both large-seeded plant and large-bodied bird species showed the highest evolutionary distinctness. We estimate a loss of 3.5 to 4.7 × 10 4 million years of cumulative evolutionary history of interactions due to defaunation. Bird-driven local extinctions mainly erode the most evolutionarily distinct interactions. However, the persistence of less evolutionarily distinct bird species in defaunated areas exerts a phylogenetic rescue effect through seed dispersal of evolutionarily distinct plant species.

Published

2019

4. Seed‐dispersal networks are more specialized in the Neotropics than in the Afrotropics

Author

Dugger, Phillip James, Blendinger, Pedro Gerardo, Böhning-Gaese, Katrin, Chama, Lackson, Correia, Marta, Dehling, D. Matthias, Emer, Carine, Farwig, Nina, Fricke, Evan C., Galetti, Mauro, García, Daniel, Grass, Ingo, Heleno, Ruben, Jacomassa, Fábio André Facco, Moraes, Suelen, Moran, Catherine, Muñoz, Marcia Carolina, Neuschulz, Eike Lena, Nowak, Larissa, Piratelli, Augusto, Pizo, Marco Aurelio, Quitián, Marta, Rogers, Haldre S., Ruggera, Román A., Saavedra, Francisco, Sánchez, Mariano Sebastián, Sánchez, Rocío, Santillán, Vinicio, Schabo, Dana G., Ribeiro da Silva, Fernanda, Timóteo, Sérgio, Traveset, Anna, Vollstädt, Maximilian GR, and Schleuning, Matthias

Subjects

Birds, Mammals, Neotropics, Mutualism, Seed dispersal, Ecological networks, Frugivory, Macroecology, Afrotropics

Abstract

Fil: Dugger, Phillip James. Universidad de Antioch Nueva Inglaterra. Departamento de Estudios Ambientales; Estados Unidos. Fil: Blendinger, Pedro Gerardo. Universidad Nacional de Tucumán. Instituto de Ecología Regional; Argentina. Fil: Blendinger, Pedro Gerardo. Consejo Nacional de Investigaciones Científicas y Técnicas. Instituto de Ecología Regional; Argentina. Fil: Böhning-Gaese, Katrin. Instituto Senckenberg-Leibniz. Centro de Investigación de la Biodiversidad y el Clima de Senckenberg (Frankfurt); Alemania. Fil: Böhning-Gaese, Katrin. Universidad Goethe. Instituto de Ecología, Diversidad y Evolución; Alemania. Fil: Chama, Lackson. Universidad de Copperbelt. Escuela de Recursos Naturales. Departamento de Zoología y Ciencias Acuáticas; Zambia. Fil: Correia, Marta. Universidad de Coímbra. Centro de Ecología Funcional. Departamento de Ciencias de la Vida; Portugal. Fil: Dehling, D. Matthias. Universidad de Canterbury. Facultad de Ciencias Biológicas. Centro de Ecología Integrativa; Nueva Zelanda. Fil: Emer, Carine. Universidad Estatal Paulista. Instituto de Biociencias. Departamento de Ecología; Brasil. Fil: Farwig, Nina. Universidad de Marburgo. Facultad de Biología; Alemania. Fil: Fricke, Evan C. Universidad Estatal de Iowa. Departamento de Ecología, Evolución y Biología Organismal; Estados Unidos. Fil: Galetti, Mauro. Universidad Estatal Paulista. Instituto de Biociencias. Departamento de Ecología; Brasil. Fil: García, Daniel. Universidad de Oviedo. Departamento de Biología de Organismos y Sistemas; España. Fil: García, Daniel. Universidad de Oviedo. Unidad Mixta de Investigación en Biodiversidad; España. Fil: García, Daniel. Principado de Asturias (España). Ministerio de Ciencia e Innovación. Consejo Superior de Investigaciones Científicas. Unidad Mixta de Investigación en Biodiversidad; España. Fil: Grass, Ingo. Universidad de Göttingen. Facultad de Ciencias Agrarias. Departamento de Ciencias de los Cultivos; Alemania. Fil: Heleno, Ruben. Universidad de Coímbra. Centro de Ecología Funcional. Departamento de Ciencias de la Vida; Portugal. Fil: Jacomassa, Fábio André Facco. Universidad Estatal Paulista, Departamento de Zoología; Brasil. Fil: Jacomassa, Fábio André Facco. Universidad Estatal do Centro Oeste. Departamento de Ciencias Biológicas. Programa de Pos‐Graduación en Biología Evolutiva; Brasil. Aim: Biogeographical comparisons of interaction networks help to elucidate diffeences in ecological communities and ecosystem functioning at large scales. Neotropical ecosystems have higher diversity and a different composition of frugivores and fleshy‐fruited plants compared with Afrotropical systems, but a lack of intercontinental comparisons limits understanding of (a) whether plant–frugivore networks are structured in a similar manner, and (b) whether the same species traits define the roles of animals across continents. Location: Afrotropics and Neotropics. Time period: 1977–2015. Taxa: Fleshy‐fruited plants and frugivorous vertebrates. Methods: We compiled a dataset comprising 17 Afrotropical and 48 Neotropical weighted seed‐dispersal networks quantifying frugivory interactions between 1,091 fleshy‐fruited plant and 665 animal species, comprising in total 8,251 interaction links between plants and animals. In addition, we compiled information on the body mass of animals and their degree of frugivory. We compared four standard network level metrics related to interaction diversity and specialization, accounting for differences related to sampling effort and network location. Furthermore, we tested whether animal traits (body mass, degree of frugivory) differed between continents, whether these traits were related to the network roles of species and whether these relation ships varied between continents. Results: We found significant structural differences in networks between continents. Overall, Neotropical networkswere less nested and more specialized tan Afrotropical networks. At the species level, a higher body mass and degree of frugivory were as sociated with an increasing diversity of plant partners. Specialization of frugivores increased with the degree of frugivory, but only in the Neotropics. Main conclusions: Our findings show that Afrotropical networks have a greater overlap in plant partners among vertebrate frugivores than the more diverse networks in the Neotropics that are characterized by a greater niche partitioning. Hence, the loss of frugivore species could have stronger impacts on ecosystem functioning in the more specialized Neotropical communities compared with the more generalized Afrotropical communities.

Published

2019

5. Seed‐dispersal networks are more specialized in the Neotropics than in the Afrotropics.

Author

Dugger, Phillip J., Blendinger, Pedro G., Böhning‐Gaese, Katrin, Chama, Lackson, Correia, Marta, Dehling, D. Matthias, Emer, Carine, Farwig, Nina, Fricke, Evan C., Galetti, Mauro, García, Daniel, Grass, Ingo, Heleno, Ruben, Jacomassa, Fábio A. F., Moraes, Suelen, Moran, Catherine, Muñoz, Marcia C., Neuschulz, Eike Lena, Nowak, Larissa, and Piratelli, Augusto

Subjects

SEED dispersal, BIOGEOGRAPHY, FRUGIVORES, PLANT species, ANIMAL species

Abstract

Aim: Biogeographical comparisons of interaction networks help to elucidate differences in ecological communities and ecosystem functioning at large scales. Neotropical ecosystems have higher diversity and a different composition of frugivores and fleshy‐fruited plants compared with Afrotropical systems, but a lack of intercontinental comparisons limits understanding of (a) whether plant–frugivore networks are structured in a similar manner, and (b) whether the same species traits define the roles of animals across continents. Location: Afrotropics and Neotropics. Time period: 1977–2015. Taxa: Fleshy‐fruited plants and frugivorous vertebrates. Methods: We compiled a dataset comprising 17 Afrotropical and 48 Neotropical weighted seed‐dispersal networks quantifying frugivory interactions between 1,091 fleshy‐fruited plant and 665 animal species, comprising in total 8,251 interaction links between plants and animals. In addition, we compiled information on the body mass of animals and their degree of frugivory. We compared four standard network‐level metrics related to interaction diversity and specialization, accounting for differences related to sampling effort and network location. Furthermore, we tested whether animal traits (body mass, degree of frugivory) differed between continents, whether these traits were related to the network roles of species and whether these relationships varied between continents. Results: We found significant structural differences in networks between continents. Overall, Neotropical networks were less nested and more specialized than Afrotropical networks. At the species level, a higher body mass and degree of frugivory were associated with an increasing diversity of plant partners. Specialization of frugivores increased with the degree of frugivory, but only in the Neotropics. Main conclusions: Our findings show that Afrotropical networks have a greater overlap in plant partners among vertebrate frugivores than the more diverse networks in the Neotropics that are characterized by a greater niche partitioning. Hence, the loss of frugivore species could have stronger impacts on ecosystem functioning in the more specialized Neotropical communities compared with the more generalized Afrotropical communities. [ABSTRACT FROM AUTHOR]

Published

2019