Mechanisms influencing network topology in plant–hummingbird pollination networks

Ricardo Sánchez-Martín; Elisa Barreto; Melina F. Maxwell; Francois Duchenne; Holger Beck; Rafaela Bobato; Emanuel Brenes; Daniela Bôlla; Nicole Büttner; Ana Paula Caron; Alejandro Castro Jiménez; Nelson Chaves-Elizondo; María José Gavilanes; Anna Sofia Görlich; Esteban A. Guevara; Miriam Kaehler; Tiago Machado de Souza; Miguel Machnicki-Reis; Andrés Sebastián Marcayata-Fajardo; Cauã Galeazzi de Menezes; Andrea Nieto; Rafael Oliveira; Ricardo Augusto Camargo de Oliveira; Alejandro Restrepo-González; Friederike Richter; Bryan Gastón Rojas; Luciele Leonhardt Romanowski; Romulo Silva Cícero Silva; Wellinton Luiz De Souza; Francisco Tobar; Danila Syriani Veluza; Rafael O. Wüest; Thais Bastos Zanata; Krystal Zuniga; Tatiana Santander; María A. Maglianesi; Isabela G. Varassin; Catherine H. Graham

doi:10.1098/rspb.2025.2249

Mechanisms influencing network topology in plant–hummingbird pollination networks

Ricardo Sánchez-Martín
, Elisa Barreto
, Melina F. Maxwell
, Francois Duchenne
, Holger Beck
, Rafaela Bobato
, Emanuel Brenes
, Daniela Bôlla
, Nicole Büttner
, Ana Paula Caron
, Alejandro Castro Jiménez
, Nelson Chaves-Elizondo
, María José Gavilanes
, Anna Sofia Görlich
, Esteban A. Guevara
, Miriam Kaehler
, Tiago Machado de Souza
, Miguel Machnicki-Reis
, Andrés Sebastián Marcayata-Fajardo
, Cauã Galeazzi de Menezes

Andrea Nieto, Rafael Oliveira, Ricardo Augusto Camargo de Oliveira, Alejandro Restrepo-González, Friederike Richter, Bryan Gastón Rojas, Luciele Leonhardt Romanowski, Romulo Silva Cícero Silva, Wellinton Luiz De Souza, Francisco Tobar, Danila Syriani Veluza, Rafael O. Wüest, Thais Bastos Zanata, Krystal Zuniga, Tatiana Santander, María A. Maglianesi, Isabela G. Varassin, Catherine H. Graham

Producción científica: Contribución a una revista › Artículo › revisión exhaustiva

Resumen

Ecological communities result from complex species interactions, often summarized in interaction networks. The structure of these networks is described by metrics that provide insight into community assembly, ecosystem functioning and coevolutionary processes. Despite advances in measuring and mapping network structure, the mechanisms underlying its formation remain less explored. Network metrics may vary across communities owing to changes in species diversity and environmental conditions. However, network metrics may remain invariant if mechanisms influencing interactions (linkage rules) are independent of species composition and environmental conditions and instead influenced by traits. We investigated whether changes in taxonomic, phylogenetic and functional diversity along elevation gradients influence network modularity, nestedness, connectance and specialization across 32 sites in Brazil, Costa Rica and Ecuador. Despite elevation’s impact on diversity, we found that it had no effect on network structure, which remained consistent across elevations. Instead, trait-based mechanisms, specifically the matching between hummingbird bills and flower corollas, emerged as a consistent driver of network structure. Species showing strong trait matching contributed more to modularity and specialization, but less to nestedness and connectance than expected by chance. These results suggest that trait matching influences the invariant structure of plant–hummingbird networks, persisting despite shifts in diversity across biogeographical regions and elevational gradients.

Idioma original	Inglés
Número de artículo	20252249
Publicación	Proceedings of the Royal Society B: Biological Sciences
Volumen	292
N.º	2059
DOI	https://doi.org/10.1098/rspb.2025.2249
Estado	Publicada - 26 nov 2025
Publicado de forma externa	Sí

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10.1098/rspb.2025.2249

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Sánchez-Martín, R., Barreto, E., Maxwell, M. F., Duchenne, F., Beck, H., Bobato, R., Brenes, E., Bôlla, D., Büttner, N., Caron, A. P., Castro Jiménez, A., Chaves-Elizondo, N., Gavilanes, M. J., Görlich, A. S., Guevara, E. A., Kaehler, M., Machado de Souza, T., Machnicki-Reis, M., Marcayata-Fajardo, A. S., ... Graham, C. H. (2025). Mechanisms influencing network topology in plant–hummingbird pollination networks. Proceedings of the Royal Society B: Biological Sciences, 292(2059), Artículo 20252249. https://doi.org/10.1098/rspb.2025.2249

@article{7d93766df7914c798421e269a83678bc,

title = "Mechanisms influencing network topology in plant–hummingbird pollination networks",

abstract = "Ecological communities result from complex species interactions, often summarized in interaction networks. The structure of these networks is described by metrics that provide insight into community assembly, ecosystem functioning and coevolutionary processes. Despite advances in measuring and mapping network structure, the mechanisms underlying its formation remain less explored. Network metrics may vary across communities owing to changes in species diversity and environmental conditions. However, network metrics may remain invariant if mechanisms influencing interactions (linkage rules) are independent of species composition and environmental conditions and instead influenced by traits. We investigated whether changes in taxonomic, phylogenetic and functional diversity along elevation gradients influence network modularity, nestedness, connectance and specialization across 32 sites in Brazil, Costa Rica and Ecuador. Despite elevation{\textquoteright}s impact on diversity, we found that it had no effect on network structure, which remained consistent across elevations. Instead, trait-based mechanisms, specifically the matching between hummingbird bills and flower corollas, emerged as a consistent driver of network structure. Species showing strong trait matching contributed more to modularity and specialization, but less to nestedness and connectance than expected by chance. These results suggest that trait matching influences the invariant structure of plant–hummingbird networks, persisting despite shifts in diversity across biogeographical regions and elevational gradients.",

keywords = "connectance, elevation gradients, functional diversity, modularity, nestedness, network structure, plant–hummingbird interactions, pollination networks, specialization, trait matching",

author = "Ricardo S{\'a}nchez-Mart{\'i}n and Elisa Barreto and Maxwell, \{Melina F.\} and Francois Duchenne and Holger Beck and Rafaela Bobato and Emanuel Brenes and Daniela B{\^o}lla and Nicole B{\"u}ttner and Caron, \{Ana Paula\} and \{Castro Jim{\'e}nez\}, Alejandro and Nelson Chaves-Elizondo and Gavilanes, \{Mar{\'i}a Jos{\'e}\} and G{\"o}rlich, \{Anna Sofia\} and Guevara, \{Esteban A.\} and Miriam Kaehler and \{Machado de Souza\}, Tiago and Miguel Machnicki-Reis and Marcayata-Fajardo, \{Andr{\'e}s Sebasti{\'a}n\} and \{Galeazzi de Menezes\}, Cau{\~a} and Andrea Nieto and Rafael Oliveira and \{Camargo de Oliveira\}, \{Ricardo Augusto\} and Alejandro Restrepo-Gonz{\'a}lez and Friederike Richter and Rojas, \{Bryan Gast{\'o}n\} and Romanowski, \{Luciele Leonhardt\} and Silva, \{Romulo Silva C{\'i}cero\} and \{De Souza\}, \{Wellinton Luiz\} and Francisco Tobar and Veluza, \{Danila Syriani\} and W{\"u}est, \{Rafael O.\} and Zanata, \{Thais Bastos\} and Krystal Zuniga and Tatiana Santander and Maglianesi, \{Mar{\'i}a A.\} and Varassin, \{Isabela G.\} and Graham, \{Catherine H.\}",

note = "Publisher Copyright: {\textcopyright} 2025 The Authors.",

year = "2025",

month = nov,

day = "26",

doi = "10.1098/rspb.2025.2249",

language = "Ingl{\'e}s",

volume = "292",

journal = "Proceedings of the Royal Society B: Biological Sciences",

issn = "0962-8452",

number = "2059",

}

Sánchez-Martín, R, Barreto, E, Maxwell, MF, Duchenne, F, Beck, H, Bobato, R, Brenes, E, Bôlla, D, Büttner, N, Caron, AP, Castro Jiménez, A, Chaves-Elizondo, N, Gavilanes, MJ, Görlich, AS, Guevara, EA, Kaehler, M, Machado de Souza, T, Machnicki-Reis, M, Marcayata-Fajardo, AS, Galeazzi de Menezes, C, Nieto, A, Oliveira, R, Camargo de Oliveira, RA, Restrepo-González, A, Richter, F, Rojas, BG, Romanowski, LL, Silva, RSC, De Souza, WL, Tobar, F, Veluza, DS, Wüest, RO, Zanata, TB, Zuniga, K, Santander, T, Maglianesi, MA, Varassin, IG & Graham, CH 2025, 'Mechanisms influencing network topology in plant–hummingbird pollination networks', Proceedings of the Royal Society B: Biological Sciences, vol. 292, n.º 2059, 20252249. https://doi.org/10.1098/rspb.2025.2249

TY - JOUR

T1 - Mechanisms influencing network topology in plant–hummingbird pollination networks

AU - Sánchez-Martín, Ricardo

AU - Barreto, Elisa

AU - Maxwell, Melina F.

AU - Duchenne, Francois

AU - Beck, Holger

AU - Bobato, Rafaela

AU - Brenes, Emanuel

AU - Bôlla, Daniela

AU - Büttner, Nicole

AU - Caron, Ana Paula

AU - Castro Jiménez, Alejandro

AU - Chaves-Elizondo, Nelson

AU - Gavilanes, María José

AU - Görlich, Anna Sofia

AU - Guevara, Esteban A.

AU - Kaehler, Miriam

AU - Machado de Souza, Tiago

AU - Machnicki-Reis, Miguel

AU - Marcayata-Fajardo, Andrés Sebastián

AU - Galeazzi de Menezes, Cauã

AU - Nieto, Andrea

AU - Oliveira, Rafael

AU - Camargo de Oliveira, Ricardo Augusto

AU - Restrepo-González, Alejandro

AU - Richter, Friederike

AU - Rojas, Bryan Gastón

AU - Romanowski, Luciele Leonhardt

AU - Silva, Romulo Silva Cícero

AU - De Souza, Wellinton Luiz

AU - Tobar, Francisco

AU - Veluza, Danila Syriani

AU - Wüest, Rafael O.

AU - Zanata, Thais Bastos

AU - Zuniga, Krystal

AU - Santander, Tatiana

AU - Maglianesi, María A.

AU - Varassin, Isabela G.

AU - Graham, Catherine H.

PY - 2025/11/26

Y1 - 2025/11/26

N2 - Ecological communities result from complex species interactions, often summarized in interaction networks. The structure of these networks is described by metrics that provide insight into community assembly, ecosystem functioning and coevolutionary processes. Despite advances in measuring and mapping network structure, the mechanisms underlying its formation remain less explored. Network metrics may vary across communities owing to changes in species diversity and environmental conditions. However, network metrics may remain invariant if mechanisms influencing interactions (linkage rules) are independent of species composition and environmental conditions and instead influenced by traits. We investigated whether changes in taxonomic, phylogenetic and functional diversity along elevation gradients influence network modularity, nestedness, connectance and specialization across 32 sites in Brazil, Costa Rica and Ecuador. Despite elevation’s impact on diversity, we found that it had no effect on network structure, which remained consistent across elevations. Instead, trait-based mechanisms, specifically the matching between hummingbird bills and flower corollas, emerged as a consistent driver of network structure. Species showing strong trait matching contributed more to modularity and specialization, but less to nestedness and connectance than expected by chance. These results suggest that trait matching influences the invariant structure of plant–hummingbird networks, persisting despite shifts in diversity across biogeographical regions and elevational gradients.

AB - Ecological communities result from complex species interactions, often summarized in interaction networks. The structure of these networks is described by metrics that provide insight into community assembly, ecosystem functioning and coevolutionary processes. Despite advances in measuring and mapping network structure, the mechanisms underlying its formation remain less explored. Network metrics may vary across communities owing to changes in species diversity and environmental conditions. However, network metrics may remain invariant if mechanisms influencing interactions (linkage rules) are independent of species composition and environmental conditions and instead influenced by traits. We investigated whether changes in taxonomic, phylogenetic and functional diversity along elevation gradients influence network modularity, nestedness, connectance and specialization across 32 sites in Brazil, Costa Rica and Ecuador. Despite elevation’s impact on diversity, we found that it had no effect on network structure, which remained consistent across elevations. Instead, trait-based mechanisms, specifically the matching between hummingbird bills and flower corollas, emerged as a consistent driver of network structure. Species showing strong trait matching contributed more to modularity and specialization, but less to nestedness and connectance than expected by chance. These results suggest that trait matching influences the invariant structure of plant–hummingbird networks, persisting despite shifts in diversity across biogeographical regions and elevational gradients.

KW - connectance

KW - elevation gradients

KW - functional diversity

KW - modularity

KW - nestedness

KW - network structure

KW - plant–hummingbird interactions

KW - pollination networks

KW - specialization

KW - trait matching

UR - https://www.scopus.com/pages/publications/105022920111

U2 - 10.1098/rspb.2025.2249

DO - 10.1098/rspb.2025.2249

M3 - Artículo

C2 - 41290172

AN - SCOPUS:105022920111

SN - 0962-8452

VL - 292

JO - Proceedings of the Royal Society B: Biological Sciences

JF - Proceedings of the Royal Society B: Biological Sciences

IS - 2059

M1 - 20252249

ER -

Mechanisms influencing network topology in plant–hummingbird pollination networks

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