Urban environments increase generalization of hummingbird-plant networks across climate gradients

Pietro Kiyoshi Maruyama; Camila Bosenbecker; João Custódio F. Cardoso; Jesper Sonne; Caio S. Ballarin; Camila S. Souza; Johana Leguizamón; Ariadna Valentina Lopes; María A. Maglianesi; Mauricio Fernández Otárola; Juan L. Parra; João Carlos Pena; Mónica B. Ramírez-Burbano; Claudia I. Rodríguez-Flores; André R. Rech; Thais B. Zanata; Juan Fernando Acevedo-Quintero; Gabriela Almeida; Pedro Amaral Anselmo; Felipe W. Amorim; Sergio Montoya-Arango; Andréa Cardoso Araujo; Francielle Paulina De Araújo; María Del Coro Arizmendi; Lucilene Brito; Alejandra Castillo-García; Amanda Graciela Cherutte; Carolina Figuerêdo Costa; Fernando Henrique Santos Ferreira; Manoel Martins Dias Filho; Angélica Vilas Boas Da Frota; Alice Scheer Iepsen; Leandro Freitas; Ingrid Gabriela De Almeida; Ana Caroline Silva Gomes; Leandro Hachuy-Filho; Carlos Lara; Liliana Rosero Lasprilla; Julian Llano; Vivian Nakamura; Edvaldo Nunes Neto; Cristiane Estrêla C. Nunes; Caio Graco MacHado; Monique Maianne; Oscar Marin-Gomez; Ubaldo Márquez-Luna; Ruara Soares Mendes; Juan Guillermo Mesa; Rafael Oliveira; Jeane Lima-Passos; Janayna Andreza S. Pereira; Alejandro Restrepo-González; Sarah Mendonça Rigotto; Bruno Magro Rodrigues; Ana Maria Rui; Diana Betancur Ruiz; Luis Sandoval; Carina Araujo Santana; Jéssica Luiza S. Silva; Larissa Lais Silva; Vinicius Calda Santos; Paulo Antonio Silva; Maria Cristina Vargas-Espinosa; Breno Dias Vitorino; Marina Wolowski; Ivan Sazima; Marlies Sazima; Bo Dalsgaard; Jeferson Vizentin-Bugoni; Paulo E. Oliveira

doi:10.1073/pnas.2322347121

Urban environments increase generalization of hummingbird-plant networks across climate gradients

Pietro Kiyoshi Maruyama
, Camila Bosenbecker
, João Custódio F. Cardoso
, Jesper Sonne
, Caio S. Ballarin
, Camila S. Souza
, Johana Leguizamón
, Ariadna Valentina Lopes
, María A. Maglianesi
, Mauricio Fernández Otárola
, Juan L. Parra
, João Carlos Pena
, Mónica B. Ramírez-Burbano
, Claudia I. Rodríguez-Flores
, André R. Rech
, Thais B. Zanata
, Juan Fernando Acevedo-Quintero
, Gabriela Almeida
, Pedro Amaral Anselmo
, Felipe W. Amorim

Sergio Montoya-Arango, Andréa Cardoso Araujo, Francielle Paulina De Araújo, María Del Coro Arizmendi, Lucilene Brito, Alejandra Castillo-García, Amanda Graciela Cherutte, Carolina Figuerêdo Costa, Fernando Henrique Santos Ferreira, Manoel Martins Dias Filho, Angélica Vilas Boas Da Frota, Alice Scheer Iepsen, Leandro Freitas, Ingrid Gabriela De Almeida, Ana Caroline Silva Gomes, Leandro Hachuy-Filho, Carlos Lara, Liliana Rosero Lasprilla, Julian Llano, Vivian Nakamura, Edvaldo Nunes Neto, Cristiane Estrêla C. Nunes, Caio Graco MacHado, Monique Maianne, Oscar Marin-Gomez, Ubaldo Márquez-Luna, Ruara Soares Mendes, Juan Guillermo Mesa, Rafael Oliveira, Jeane Lima-Passos, Janayna Andreza S. Pereira, Alejandro Restrepo-González, Sarah Mendonça Rigotto, Bruno Magro Rodrigues, Ana Maria Rui, Diana Betancur Ruiz, Luis Sandoval, Carina Araujo Santana, Jéssica Luiza S. Silva, Larissa Lais Silva, Vinicius Calda Santos, Paulo Antonio Silva, Maria Cristina Vargas-Espinosa, Breno Dias Vitorino, Marina Wolowski, Ivan Sazima, Marlies Sazima, Bo Dalsgaard, Jeferson Vizentin-Bugoni, Paulo E. Oliveira

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

15 Scopus citations

Abstract

Urbanization has reshaped the distribution of biodiversity on Earth, but we are only beginning to understand its effects on ecological communities. While urbanization may have homogenization effects strong enough to blur the large-scale patterns in interaction networks, urban community patterns may still be associated with climate gradients reflecting large-scale biogeographical processes. Using 103 hummingbird-plant mutualistic networks across continental Americas, including 176 hummingbird and 1,180 plant species, we asked how urbanization affects species interactions over large climate gradients. Urban networks were more generalized, exhibiting greater interaction overlap. Higher generalization was also associated with lower precipitation in both urban and natural areas, indicating that climate affects networks irrespective of habitat type. Urban habitats also showed lower hummingbird functional trait diversity and over/underrepresentation of specific clades. From the plant side, urban communities had a higher prevalence of nonnative nectar plants, which were more frequently visited by the hummingbird species occurring in both urban and natural areas. Therefore, urbanization affected hummingbird-plant interactions through both the composition of species and traits, as well as floral resource availability. Taken together, we show that urbanization consistently modifies ecological communities and their interactions, but climate still plays a role in affecting the structure of these novel communities over the scale of continents.

Original language	English
Article number	e2322347121
Journal	Proceedings of the National Academy of Sciences of the United States of America
Volume	121
Issue number	48
DOIs	https://doi.org/10.1073/pnas.2322347121
State	Published - 26 Nov 2024
Externally published	Yes

UN SDGs

This output contributes to the following UN Sustainable Development Goals (SDGs)

SDG 11 Sustainable Cities and Communities

Keywords

Latin America
Neotropics
functional diversity
pollination
urbanization

Access to Document

10.1073/pnas.2322347121

Cite this

Maruyama, P. K., Bosenbecker, C., Cardoso, J. C. F., Sonne, J., Ballarin, C. S., Souza, C. S., Leguizamón, J., Lopes, A. V., Maglianesi, M. A., Otárola, M. F., Parra, J. L., Pena, J. C., Ramírez-Burbano, M. B., Rodríguez-Flores, C. I., Rech, A. R., Zanata, T. B., Acevedo-Quintero, J. F., Almeida, G., Anselmo, P. A., ... Oliveira, P. E. (2024). Urban environments increase generalization of hummingbird-plant networks across climate gradients. Proceedings of the National Academy of Sciences of the United States of America, 121(48), Article e2322347121. https://doi.org/10.1073/pnas.2322347121

@article{87305aab7a384926a94d8663b9f63320,

title = "Urban environments increase generalization of hummingbird-plant networks across climate gradients",

abstract = "Urbanization has reshaped the distribution of biodiversity on Earth, but we are only beginning to understand its effects on ecological communities. While urbanization may have homogenization effects strong enough to blur the large-scale patterns in interaction networks, urban community patterns may still be associated with climate gradients reflecting large-scale biogeographical processes. Using 103 hummingbird-plant mutualistic networks across continental Americas, including 176 hummingbird and 1,180 plant species, we asked how urbanization affects species interactions over large climate gradients. Urban networks were more generalized, exhibiting greater interaction overlap. Higher generalization was also associated with lower precipitation in both urban and natural areas, indicating that climate affects networks irrespective of habitat type. Urban habitats also showed lower hummingbird functional trait diversity and over/underrepresentation of specific clades. From the plant side, urban communities had a higher prevalence of nonnative nectar plants, which were more frequently visited by the hummingbird species occurring in both urban and natural areas. Therefore, urbanization affected hummingbird-plant interactions through both the composition of species and traits, as well as floral resource availability. Taken together, we show that urbanization consistently modifies ecological communities and their interactions, but climate still plays a role in affecting the structure of these novel communities over the scale of continents.",

keywords = "Latin America, Neotropics, functional diversity, pollination, urbanization",

author = "Maruyama, \{Pietro Kiyoshi\} and Camila Bosenbecker and Cardoso, \{Jo{\~a}o Cust{\'o}dio F.\} and Jesper Sonne and Ballarin, \{Caio S.\} and Souza, \{Camila S.\} and Johana Leguizam{\'o}n and Lopes, \{Ariadna Valentina\} and Maglianesi, \{Mar{\'i}a A.\} and Ot{\'a}rola, \{Mauricio Fern{\'a}ndez\} and Parra, \{Juan L.\} and Pena, \{Jo{\~a}o Carlos\} and Ram{\'i}rez-Burbano, \{M{\'o}nica B.\} and Rodr{\'i}guez-Flores, \{Claudia I.\} and Rech, \{Andr{\'e} R.\} and Zanata, \{Thais B.\} and Acevedo-Quintero, \{Juan Fernando\} and Gabriela Almeida and Anselmo, \{Pedro Amaral\} and Amorim, \{Felipe W.\} and Sergio Montoya-Arango and Araujo, \{Andr{\'e}a Cardoso\} and \{De Ara{\'u}jo\}, \{Francielle Paulina\} and \{Del Coro Arizmendi\}, Mar{\'i}a and Lucilene Brito and Alejandra Castillo-Garc{\'i}a and Cherutte, \{Amanda Graciela\} and Costa, \{Carolina Figuer{\^e}do\} and Ferreira, \{Fernando Henrique Santos\} and Filho, \{Manoel Martins Dias\} and \{Da Frota\}, \{Ang{\'e}lica Vilas Boas\} and Iepsen, \{Alice Scheer\} and Leandro Freitas and \{De Almeida\}, \{Ingrid Gabriela\} and Gomes, \{Ana Caroline Silva\} and Leandro Hachuy-Filho and Carlos Lara and Lasprilla, \{Liliana Rosero\} and Julian Llano and Vivian Nakamura and Neto, \{Edvaldo Nunes\} and Nunes, \{Cristiane Estr{\^e}la C.\} and MacHado, \{Caio Graco\} and Monique Maianne and Oscar Marin-Gomez and Ubaldo M{\'a}rquez-Luna and Mendes, \{Ruara Soares\} and Mesa, \{Juan Guillermo\} and Rafael Oliveira and Jeane Lima-Passos and Pereira, \{Janayna Andreza S.\} and Alejandro Restrepo-Gonz{\'a}lez and Rigotto, \{Sarah Mendon{\c c}a\} and Rodrigues, \{Bruno Magro\} and Rui, \{Ana Maria\} and Ruiz, \{Diana Betancur\} and Luis Sandoval and Santana, \{Carina Araujo\} and Silva, \{J{\'e}ssica Luiza S.\} and Silva, \{Larissa Lais\} and Santos, \{Vinicius Calda\} and Silva, \{Paulo Antonio\} and Vargas-Espinosa, \{Maria Cristina\} and Vitorino, \{Breno Dias\} and Marina Wolowski and Ivan Sazima and Marlies Sazima and Bo Dalsgaard and Jeferson Vizentin-Bugoni and Oliveira, \{Paulo E.\}",

note = "Publisher Copyright: Copyright {\textcopyright} 2024 the Author(s).",

year = "2024",

month = nov,

day = "26",

doi = "10.1073/pnas.2322347121",

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

volume = "121",

journal = "Proceedings of the National Academy of Sciences of the United States of America",

issn = "0027-8424",

number = "48",

}

Maruyama, PK, Bosenbecker, C, Cardoso, JCF, Sonne, J, Ballarin, CS, Souza, CS, Leguizamón, J, Lopes, AV, Maglianesi, MA, Otárola, MF, Parra, JL, Pena, JC, Ramírez-Burbano, MB, Rodríguez-Flores, CI, Rech, AR, Zanata, TB, Acevedo-Quintero, JF, Almeida, G, Anselmo, PA, Amorim, FW, Montoya-Arango, S, Araujo, AC, De Araújo, FP, Del Coro Arizmendi, M, Brito, L, Castillo-García, A, Cherutte, AG, Costa, CF, Ferreira, FHS, Filho, MMD, Da Frota, AVB, Iepsen, AS, Freitas, L, De Almeida, IG, Gomes, ACS, Hachuy-Filho, L, Lara, C, Lasprilla, LR, Llano, J, Nakamura, V, Neto, EN, Nunes, CEC, MacHado, CG, Maianne, M, Marin-Gomez, O, Márquez-Luna, U, Mendes, RS, Mesa, JG, Oliveira, R, Lima-Passos, J, Pereira, JAS, Restrepo-González, A, Rigotto, SM, Rodrigues, BM, Rui, AM, Ruiz, DB, Sandoval, L, Santana, CA, Silva, JLS, Silva, LL, Santos, VC, Silva, PA, Vargas-Espinosa, MC, Vitorino, BD, Wolowski, M, Sazima, I, Sazima, M, Dalsgaard, B, Vizentin-Bugoni, J & Oliveira, PE 2024, 'Urban environments increase generalization of hummingbird-plant networks across climate gradients', Proceedings of the National Academy of Sciences of the United States of America, vol. 121, no. 48, e2322347121. https://doi.org/10.1073/pnas.2322347121

Urban environments increase generalization of hummingbird-plant networks across climate gradients. / Maruyama, Pietro Kiyoshi; Bosenbecker, Camila; Cardoso, João Custódio F. et al.
In: Proceedings of the National Academy of Sciences of the United States of America, Vol. 121, No. 48, e2322347121, 26.11.2024.

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

TY - JOUR

T1 - Urban environments increase generalization of hummingbird-plant networks across climate gradients

AU - Maruyama, Pietro Kiyoshi

AU - Bosenbecker, Camila

AU - Cardoso, João Custódio F.

AU - Sonne, Jesper

AU - Ballarin, Caio S.

AU - Souza, Camila S.

AU - Leguizamón, Johana

AU - Lopes, Ariadna Valentina

AU - Maglianesi, María A.

AU - Otárola, Mauricio Fernández

AU - Parra, Juan L.

AU - Pena, João Carlos

AU - Ramírez-Burbano, Mónica B.

AU - Rodríguez-Flores, Claudia I.

AU - Rech, André R.

AU - Zanata, Thais B.

AU - Acevedo-Quintero, Juan Fernando

AU - Almeida, Gabriela

AU - Anselmo, Pedro Amaral

AU - Amorim, Felipe W.

AU - Montoya-Arango, Sergio

AU - Araujo, Andréa Cardoso

AU - De Araújo, Francielle Paulina

AU - Del Coro Arizmendi, María

AU - Brito, Lucilene

AU - Castillo-García, Alejandra

AU - Cherutte, Amanda Graciela

AU - Costa, Carolina Figuerêdo

AU - Ferreira, Fernando Henrique Santos

AU - Filho, Manoel Martins Dias

AU - Da Frota, Angélica Vilas Boas

AU - Iepsen, Alice Scheer

AU - Freitas, Leandro

AU - De Almeida, Ingrid Gabriela

AU - Gomes, Ana Caroline Silva

AU - Hachuy-Filho, Leandro

AU - Lara, Carlos

AU - Lasprilla, Liliana Rosero

AU - Llano, Julian

AU - Nakamura, Vivian

AU - Neto, Edvaldo Nunes

AU - Nunes, Cristiane Estrêla C.

AU - MacHado, Caio Graco

AU - Maianne, Monique

AU - Marin-Gomez, Oscar

AU - Márquez-Luna, Ubaldo

AU - Mendes, Ruara Soares

AU - Mesa, Juan Guillermo

AU - Oliveira, Rafael

AU - Lima-Passos, Jeane

AU - Pereira, Janayna Andreza S.

AU - Restrepo-González, Alejandro

AU - Rigotto, Sarah Mendonça

AU - Rodrigues, Bruno Magro

AU - Rui, Ana Maria

AU - Ruiz, Diana Betancur

AU - Sandoval, Luis

AU - Santana, Carina Araujo

AU - Silva, Jéssica Luiza S.

AU - Silva, Larissa Lais

AU - Santos, Vinicius Calda

AU - Silva, Paulo Antonio

AU - Vargas-Espinosa, Maria Cristina

AU - Vitorino, Breno Dias

AU - Wolowski, Marina

AU - Sazima, Ivan

AU - Sazima, Marlies

AU - Dalsgaard, Bo

AU - Vizentin-Bugoni, Jeferson

AU - Oliveira, Paulo E.

PY - 2024/11/26

Y1 - 2024/11/26

N2 - Urbanization has reshaped the distribution of biodiversity on Earth, but we are only beginning to understand its effects on ecological communities. While urbanization may have homogenization effects strong enough to blur the large-scale patterns in interaction networks, urban community patterns may still be associated with climate gradients reflecting large-scale biogeographical processes. Using 103 hummingbird-plant mutualistic networks across continental Americas, including 176 hummingbird and 1,180 plant species, we asked how urbanization affects species interactions over large climate gradients. Urban networks were more generalized, exhibiting greater interaction overlap. Higher generalization was also associated with lower precipitation in both urban and natural areas, indicating that climate affects networks irrespective of habitat type. Urban habitats also showed lower hummingbird functional trait diversity and over/underrepresentation of specific clades. From the plant side, urban communities had a higher prevalence of nonnative nectar plants, which were more frequently visited by the hummingbird species occurring in both urban and natural areas. Therefore, urbanization affected hummingbird-plant interactions through both the composition of species and traits, as well as floral resource availability. Taken together, we show that urbanization consistently modifies ecological communities and their interactions, but climate still plays a role in affecting the structure of these novel communities over the scale of continents.

AB - Urbanization has reshaped the distribution of biodiversity on Earth, but we are only beginning to understand its effects on ecological communities. While urbanization may have homogenization effects strong enough to blur the large-scale patterns in interaction networks, urban community patterns may still be associated with climate gradients reflecting large-scale biogeographical processes. Using 103 hummingbird-plant mutualistic networks across continental Americas, including 176 hummingbird and 1,180 plant species, we asked how urbanization affects species interactions over large climate gradients. Urban networks were more generalized, exhibiting greater interaction overlap. Higher generalization was also associated with lower precipitation in both urban and natural areas, indicating that climate affects networks irrespective of habitat type. Urban habitats also showed lower hummingbird functional trait diversity and over/underrepresentation of specific clades. From the plant side, urban communities had a higher prevalence of nonnative nectar plants, which were more frequently visited by the hummingbird species occurring in both urban and natural areas. Therefore, urbanization affected hummingbird-plant interactions through both the composition of species and traits, as well as floral resource availability. Taken together, we show that urbanization consistently modifies ecological communities and their interactions, but climate still plays a role in affecting the structure of these novel communities over the scale of continents.

KW - Latin America

KW - Neotropics

KW - functional diversity

KW - pollination

KW - urbanization

UR - https://www.scopus.com/pages/publications/85209698808

U2 - 10.1073/pnas.2322347121

DO - 10.1073/pnas.2322347121

M3 - Artículo

C2 - 39527750

AN - SCOPUS:85209698808

SN - 0027-8424

VL - 121

JO - Proceedings of the National Academy of Sciences of the United States of America

JF - Proceedings of the National Academy of Sciences of the United States of America

IS - 48

M1 - e2322347121

ER -

Urban environments increase generalization of hummingbird-plant networks across climate gradients

Abstract

UN SDGs

Keywords

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