Global patterns of interaction specialization in bird–flower networks

Thais B. Zanata; Bo Dalsgaard; Fernando C. Passos; Peter A. Cotton; James J. Roper; Pietro K. Maruyama; Erich Fischer; Matthias Schleuning; Ana M. Martín González; Jeferson Vizentin-Bugoni; Donald C. Franklin; Stefan Abrahamczyk; Ruben Alárcon; Andréa C. Araujo; Francielle P. Araújo; Severino M.de Azevedo-Junior; Andrea C. Baquero; Katrin Böhning-Gaese; Daniel W. Carstensen; Henrique Chupil; Aline G. Coelho; Rogério R. Faria; David Hořák; Tanja T. Ingversen; Štěpán Janeček; Glauco Kohler; Carlos Lara; Flor M.G. Las-Casas; Ariadna V. Lopes; Adriana O. Machado; Caio G. Machado; Isabel C. Machado; María A. Maglianesi; Tiago S. Malucelli; Jayasilan Mohd-Azlan; Alan C. Moura; Genilda M. Oliveira; Paulo E. Oliveira; Juan Francisco Ornelas; Jan Riegert; Licléia C. Rodrigues; Liliana Rosero-Lasprilla; Ana M. Rui; Marlies Sazima; Baptiste Schmid; Ondřej Sedláček; Allan Timmermann; Maximilian G.R. Vollstädt; Zhiheng Wang; Stella Watts; Carsten Rahbek; Isabela G. Varassin

doi:10.1111/jbi.13045

Global patterns of interaction specialization in bird–flower networks

Thais B. Zanata, Bo Dalsgaard, Fernando C. Passos, Peter A. Cotton, James J. Roper, Pietro K. Maruyama, Erich Fischer, Matthias Schleuning, Ana M. Martín González, Jeferson Vizentin-Bugoni, Donald C. Franklin, Stefan Abrahamczyk, Ruben Alárcon, Andréa C. Araujo, Francielle P. Araújo, Severino M.de Azevedo-Junior, Andrea C. Baquero, Katrin Böhning-Gaese, Daniel W. Carstensen, Henrique ChupilAline G. Coelho, Rogério R. Faria, David Hořák, Tanja T. Ingversen, Štěpán Janeček, Glauco Kohler, Carlos Lara, Flor M.G. Las-Casas, Ariadna V. Lopes, Adriana O. Machado, Caio G. Machado, Isabel C. Machado, María A. Maglianesi, Tiago S. Malucelli, Jayasilan Mohd-Azlan, Alan C. Moura, Genilda M. Oliveira, Paulo E. Oliveira, Juan Francisco Ornelas, Jan Riegert, Licléia C. Rodrigues, Liliana Rosero-Lasprilla, Ana M. Rui, Marlies Sazima, Baptiste Schmid, Ondřej Sedláček, Allan Timmermann, Maximilian G.R. Vollstädt, Zhiheng Wang, Stella Watts, Carsten Rahbek, Isabela G. Varassin

Research output: Contribution to Journal › Article › peer-review

Abstract

Aim: Among the world's three major nectar-feeding bird taxa, hummingbirds are the most phenotypically specialized for nectarivory, followed by sunbirds, while the honeyeaters are the least phenotypically specialized taxa. We tested whether this phenotypic specialization gradient is also found in the interaction patterns with their floral resources. Location: Americas, Africa, Asia and Oceania/Australia. Methods: We compiled interaction networks between birds and floral resources for 79 hummingbird, nine sunbird and 33 honeyeater communities. Interaction specialization was quantified through connectance (C), complementary specialization (H2′), binary (QB) and weighted modularity (Q), with both observed and null-model corrected values. We compared interaction specialization among the three types of bird–flower communities, both independently and while controlling for potential confounding variables, such as plant species richness, asymmetry, latitude, insularity, topography, sampling methods and intensity. Results: Hummingbird–flower networks were more specialized than honeyeater–flower networks. Specifically, hummingbird–flower networks had a lower proportion of realized interactions (lower C), decreased niche overlap (greater H2′) and greater modularity (greater QB). However, we found no significant differences between hummingbird– and sunbird–flower networks, nor between sunbird– and honeyeater–flower networks. Main conclusions: As expected, hummingbirds and their floral resources have greater interaction specialization than honeyeaters, possibly because of greater phenotypic specialization and greater floral resource richness in the New World. Interaction specialization in sunbird–flower communities was similar to both hummingbird–flower and honeyeater–flower communities. This may either be due to the relatively small number of sunbird–flower networks available, or because sunbird–flower communities share features of both hummingbird–flower communities (specialized floral shapes) and honeyeater–flower communities (fewer floral resources). These results suggest a link between interaction specialization and both phenotypic specialization and floral resource richness within bird–flower communities at a global scale.

Original language	English
Pages (from-to)	1891-1910
Number of pages	20
Journal	Journal of Biogeography
Volume	44
Issue number	8
Early online date	21 Jun 2017
DOIs	https://doi.org/10.1111/jbi.13045
Publication status	E-pub ahead of print - 21 Jun 2017
Externally published	Yes

Keywords

honeyeaters
hummingbirds
modularity
niche partitioning
ornithophily
plant–animal interactions
specialization
sunbirds

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10.1111/jbi.13045

Cite this

Zanata, T. B., Dalsgaard, B., Passos, F. C., Cotton, P. A., Roper, J. J., Maruyama, P. K., Fischer, E., Schleuning, M., Martín González, A. M., Vizentin-Bugoni, J., Franklin, D. C., Abrahamczyk, S., Alárcon, R., Araujo, A. C., Araújo, F. P., Azevedo-Junior, S. M. D., Baquero, A. C., Böhning-Gaese, K., Carstensen, D. W., ... Varassin, I. G. (2017). Global patterns of interaction specialization in bird–flower networks. Journal of Biogeography, 44(8), 1891-1910. Advance online publication. https://doi.org/10.1111/jbi.13045

@article{3edb752379fe41919e223f383ffbbb78,

title = "Global patterns of interaction specialization in bird–flower networks",

abstract = "Aim: Among the world's three major nectar-feeding bird taxa, hummingbirds are the most phenotypically specialized for nectarivory, followed by sunbirds, while the honeyeaters are the least phenotypically specialized taxa. We tested whether this phenotypic specialization gradient is also found in the interaction patterns with their floral resources. Location: Americas, Africa, Asia and Oceania/Australia. Methods: We compiled interaction networks between birds and floral resources for 79 hummingbird, nine sunbird and 33 honeyeater communities. Interaction specialization was quantified through connectance (C), complementary specialization (H2′), binary (QB) and weighted modularity (Q), with both observed and null-model corrected values. We compared interaction specialization among the three types of bird–flower communities, both independently and while controlling for potential confounding variables, such as plant species richness, asymmetry, latitude, insularity, topography, sampling methods and intensity. Results: Hummingbird–flower networks were more specialized than honeyeater–flower networks. Specifically, hummingbird–flower networks had a lower proportion of realized interactions (lower C), decreased niche overlap (greater H2′) and greater modularity (greater QB). However, we found no significant differences between hummingbird– and sunbird–flower networks, nor between sunbird– and honeyeater–flower networks. Main conclusions: As expected, hummingbirds and their floral resources have greater interaction specialization than honeyeaters, possibly because of greater phenotypic specialization and greater floral resource richness in the New World. Interaction specialization in sunbird–flower communities was similar to both hummingbird–flower and honeyeater–flower communities. This may either be due to the relatively small number of sunbird–flower networks available, or because sunbird–flower communities share features of both hummingbird–flower communities (specialized floral shapes) and honeyeater–flower communities (fewer floral resources). These results suggest a link between interaction specialization and both phenotypic specialization and floral resource richness within bird–flower communities at a global scale.",

keywords = "honeyeaters, hummingbirds, modularity, niche partitioning, ornithophily, plant–animal interactions, specialization, sunbirds",

author = "Zanata, {Thais B.} and Bo Dalsgaard and Passos, {Fernando C.} and Cotton, {Peter A.} and Roper, {James J.} and Maruyama, {Pietro K.} and Erich Fischer and Matthias Schleuning and {Mart{\'i}n Gonz{\'a}lez}, {Ana M.} and Jeferson Vizentin-Bugoni and Franklin, {Donald C.} and Stefan Abrahamczyk and Ruben Al{\'a}rcon and Araujo, {Andr{\'e}a C.} and Ara{\'u}jo, {Francielle P.} and Azevedo-Junior, {Severino M.de} and Baquero, {Andrea C.} and Katrin B{\"o}hning-Gaese and Carstensen, {Daniel W.} and Henrique Chupil and Coelho, {Aline G.} and Faria, {Rog{\'e}rio R.} and David Ho{\v r}{\'a}k and Ingversen, {Tanja T.} and {\v S}t{\v e}p{\'a}n Jane{\v c}ek and Glauco Kohler and Carlos Lara and Las-Casas, {Flor M.G.} and Lopes, {Ariadna V.} and Machado, {Adriana O.} and Machado, {Caio G.} and Machado, {Isabel C.} and Maglianesi, {Mar{\'i}a A.} and Malucelli, {Tiago S.} and Jayasilan Mohd-Azlan and Moura, {Alan C.} and Oliveira, {Genilda M.} and Oliveira, {Paulo E.} and Ornelas, {Juan Francisco} and Jan Riegert and Rodrigues, {Licl{\'e}ia C.} and Liliana Rosero-Lasprilla and Rui, {Ana M.} and Marlies Sazima and Baptiste Schmid and Ond{\v r}ej Sedl{\'a}{\v c}ek and Allan Timmermann and Vollst{\"a}dt, {Maximilian G.R.} and Zhiheng Wang and Stella Watts and Carsten Rahbek and Varassin, {Isabela G.}",

year = "2017",

month = jun,

day = "21",

doi = "10.1111/jbi.13045",

language = "English",

volume = "44",

pages = "1891--1910",

journal = "Journal of Biogeography",

issn = "0305-0270",

publisher = "Wiley-Blackwell Publishing Ltd",

number = "8",

}

Zanata, TB, Dalsgaard, B, Passos, FC, Cotton, PA, Roper, JJ, Maruyama, PK, Fischer, E, Schleuning, M, Martín González, AM, Vizentin-Bugoni, J, Franklin, DC, Abrahamczyk, S, Alárcon, R, Araujo, AC, Araújo, FP, Azevedo-Junior, SMD, Baquero, AC, Böhning-Gaese, K, Carstensen, DW, Chupil, H, Coelho, AG, Faria, RR, Hořák, D, Ingversen, TT, Janeček, Š, Kohler, G, Lara, C, Las-Casas, FMG, Lopes, AV, Machado, AO, Machado, CG, Machado, IC, Maglianesi, MA, Malucelli, TS, Mohd-Azlan, J, Moura, AC, Oliveira, GM, Oliveira, PE, Ornelas, JF, Riegert, J, Rodrigues, LC, Rosero-Lasprilla, L, Rui, AM, Sazima, M, Schmid, B, Sedláček, O, Timmermann, A, Vollstädt, MGR, Wang, Z, Watts, S, Rahbek, C & Varassin, IG 2017, 'Global patterns of interaction specialization in bird–flower networks', Journal of Biogeography, vol. 44, no. 8, pp. 1891-1910. https://doi.org/10.1111/jbi.13045

TY - JOUR

T1 - Global patterns of interaction specialization in bird–flower networks

AU - Zanata, Thais B.

AU - Dalsgaard, Bo

AU - Passos, Fernando C.

AU - Cotton, Peter A.

AU - Roper, James J.

AU - Maruyama, Pietro K.

AU - Fischer, Erich

AU - Schleuning, Matthias

AU - Martín González, Ana M.

AU - Vizentin-Bugoni, Jeferson

AU - Franklin, Donald C.

AU - Abrahamczyk, Stefan

AU - Alárcon, Ruben

AU - Araujo, Andréa C.

AU - Araújo, Francielle P.

AU - Azevedo-Junior, Severino M.de

AU - Baquero, Andrea C.

AU - Böhning-Gaese, Katrin

AU - Carstensen, Daniel W.

AU - Chupil, Henrique

AU - Coelho, Aline G.

AU - Faria, Rogério R.

AU - Hořák, David

AU - Ingversen, Tanja T.

AU - Janeček, Štěpán

AU - Kohler, Glauco

AU - Lara, Carlos

AU - Las-Casas, Flor M.G.

AU - Lopes, Ariadna V.

AU - Machado, Adriana O.

AU - Machado, Caio G.

AU - Machado, Isabel C.

AU - Maglianesi, María A.

AU - Malucelli, Tiago S.

AU - Mohd-Azlan, Jayasilan

AU - Moura, Alan C.

AU - Oliveira, Genilda M.

AU - Oliveira, Paulo E.

AU - Ornelas, Juan Francisco

AU - Riegert, Jan

AU - Rodrigues, Licléia C.

AU - Rosero-Lasprilla, Liliana

AU - Rui, Ana M.

AU - Sazima, Marlies

AU - Schmid, Baptiste

AU - Sedláček, Ondřej

AU - Timmermann, Allan

AU - Vollstädt, Maximilian G.R.

AU - Wang, Zhiheng

AU - Watts, Stella

AU - Rahbek, Carsten

AU - Varassin, Isabela G.

PY - 2017/6/21

Y1 - 2017/6/21

N2 - Aim: Among the world's three major nectar-feeding bird taxa, hummingbirds are the most phenotypically specialized for nectarivory, followed by sunbirds, while the honeyeaters are the least phenotypically specialized taxa. We tested whether this phenotypic specialization gradient is also found in the interaction patterns with their floral resources. Location: Americas, Africa, Asia and Oceania/Australia. Methods: We compiled interaction networks between birds and floral resources for 79 hummingbird, nine sunbird and 33 honeyeater communities. Interaction specialization was quantified through connectance (C), complementary specialization (H2′), binary (QB) and weighted modularity (Q), with both observed and null-model corrected values. We compared interaction specialization among the three types of bird–flower communities, both independently and while controlling for potential confounding variables, such as plant species richness, asymmetry, latitude, insularity, topography, sampling methods and intensity. Results: Hummingbird–flower networks were more specialized than honeyeater–flower networks. Specifically, hummingbird–flower networks had a lower proportion of realized interactions (lower C), decreased niche overlap (greater H2′) and greater modularity (greater QB). However, we found no significant differences between hummingbird– and sunbird–flower networks, nor between sunbird– and honeyeater–flower networks. Main conclusions: As expected, hummingbirds and their floral resources have greater interaction specialization than honeyeaters, possibly because of greater phenotypic specialization and greater floral resource richness in the New World. Interaction specialization in sunbird–flower communities was similar to both hummingbird–flower and honeyeater–flower communities. This may either be due to the relatively small number of sunbird–flower networks available, or because sunbird–flower communities share features of both hummingbird–flower communities (specialized floral shapes) and honeyeater–flower communities (fewer floral resources). These results suggest a link between interaction specialization and both phenotypic specialization and floral resource richness within bird–flower communities at a global scale.

AB - Aim: Among the world's three major nectar-feeding bird taxa, hummingbirds are the most phenotypically specialized for nectarivory, followed by sunbirds, while the honeyeaters are the least phenotypically specialized taxa. We tested whether this phenotypic specialization gradient is also found in the interaction patterns with their floral resources. Location: Americas, Africa, Asia and Oceania/Australia. Methods: We compiled interaction networks between birds and floral resources for 79 hummingbird, nine sunbird and 33 honeyeater communities. Interaction specialization was quantified through connectance (C), complementary specialization (H2′), binary (QB) and weighted modularity (Q), with both observed and null-model corrected values. We compared interaction specialization among the three types of bird–flower communities, both independently and while controlling for potential confounding variables, such as plant species richness, asymmetry, latitude, insularity, topography, sampling methods and intensity. Results: Hummingbird–flower networks were more specialized than honeyeater–flower networks. Specifically, hummingbird–flower networks had a lower proportion of realized interactions (lower C), decreased niche overlap (greater H2′) and greater modularity (greater QB). However, we found no significant differences between hummingbird– and sunbird–flower networks, nor between sunbird– and honeyeater–flower networks. Main conclusions: As expected, hummingbirds and their floral resources have greater interaction specialization than honeyeaters, possibly because of greater phenotypic specialization and greater floral resource richness in the New World. Interaction specialization in sunbird–flower communities was similar to both hummingbird–flower and honeyeater–flower communities. This may either be due to the relatively small number of sunbird–flower networks available, or because sunbird–flower communities share features of both hummingbird–flower communities (specialized floral shapes) and honeyeater–flower communities (fewer floral resources). These results suggest a link between interaction specialization and both phenotypic specialization and floral resource richness within bird–flower communities at a global scale.

KW - honeyeaters

KW - hummingbirds

KW - modularity

KW - niche partitioning

KW - ornithophily

KW - plant–animal interactions

KW - specialization

KW - sunbirds

UR - http://www.mendeley.com/catalogue/global-patterns-interaction-specialization-birdflower-networks

U2 - 10.1111/jbi.13045

DO - 10.1111/jbi.13045

M3 - Article

SN - 0305-0270

VL - 44

SP - 1891

EP - 1910

JO - Journal of Biogeography

JF - Journal of Biogeography

IS - 8

ER -

Global patterns of interaction specialization in bird–flower networks

Abstract

Keywords

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