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.
N1 - Publisher Copyright:
Copyright © 2024 the Author(s).
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 - http://www.scopus.com/inward/record.url?scp=85209698808&partnerID=8YFLogxK
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 -