Host space, not energy or symbiont size, constrains feather mite abundance across passerine bird species

dc.contributor.author Labrador, María del Mar ca
dc.contributor.author Borràs, Antoni ca
dc.contributor.author Senar, Juan Carlos ca
dc.contributor.author Jovaní, Roger ca
dc.contributor.other Consorci del Museu de Ciències Naturals de Barcelona ca
dc.date.accessioned 2024-04-03T13:14:58Z
dc.date.available 2024-04-03T13:14:58Z
dc.date.issued 2023-11-06
dc.description.abstract 1. Comprehending symbiont abundance among host species is a major ecological endeavour, and the metabolic theory of ecology has been proposed to understand what constrains symbiont populations. 2. We parameterized metabolic theory equations to investigate how bird species' body size and the body size of their feather mites relate to mite abundance according to four potential energy (uropygial gland size) and space constraints (wing area, total length of barbs and number of feather barbs). Predictions were compared with the empirical scaling of feather mite abundance across 106 passerine bird species (26,604 individual birds sampled), using phylogenetic modelling and quantile regression. 3. Feather mite abundance was strongly constrained by host space (number of feather barbs) but not by energy. Moreover, feather mite species' body size was unrelated to the body size of their host species. 4. We discuss the implications of our results for our understanding of the bird– feather mite system and for symbiont abundance in general. ca
dc.description.abstract 1. Comprehending symbiont abundance among host species is a major ecological endeavour, and the metabolic theory of ecology has been proposed to understand what constrains symbiont populations. 2. We parameterized metabolic theory equations to investigate how bird species' body size and the body size of their feather mites relate to mite abundance according to four potential energy (uropygial gland size) and space constraints (wing area, total length of barbs and number of feather barbs). Predictions were compared with the empirical scaling of feather mite abundance across 106 passerine bird species (26,604 individual birds sampled), using phylogenetic modelling and quantile regression. 3. Feather mite abundance was strongly constrained by host space (number of feather barbs) but not by energy. Moreover, feather mite species' body size was unrelated to the body size of their host species. 4. We discuss the implications of our results for our understanding of the bird– feather mite system and for symbiont abundance in general. en
dc.description.abstract 1. Comprehending symbiont abundance among host species is a major ecological endeavour, and the metabolic theory of ecology has been proposed to understand what constrains symbiont populations. 2. We parameterized metabolic theory equations to investigate how bird species' body size and the body size of their feather mites relate to mite abundance according to four potential energy (uropygial gland size) and space constraints (wing area, total length of barbs and number of feather barbs). Predictions were compared with the empirical scaling of feather mite abundance across 106 passerine bird species (26,604 individual birds sampled), using phylogenetic modelling and quantile regression. 3. Feather mite abundance was strongly constrained by host space (number of feather barbs) but not by energy. Moreover, feather mite species' body size was unrelated to the body size of their host species. 4. We discuss the implications of our results for our understanding of the bird– feather mite system and for symbiont abundance in general. es
dc.format.extent 13 p. ca
dc.identifier http://hdl.handle.net/2072/537180
dc.identifier.entitat consorcis ca
dc.identifier.uri http://hdl.handle.net/11703/134663
dc.language eng ca
dc.provenance Recercat (Dipòsit de la Recerca de Catalunya) ca
dc.rights CC-BY-NC-ND ca
dc.rights.notes © The Authors ca
dc.rights.uri https://creativecommons.org/licenses/by-nc-nd/4.0/deed.ca ca
dc.subject Passeriformes ca
dc.subject Plomes ca
dc.subject Àcars ca
dc.subject Ocells ca
dc.subject Passeriformes en
dc.subject Feathers en
dc.subject Àcars en
dc.subject Birds en
dc.subject Passeriformes es
dc.subject Plumas es
dc.subject Àcars es
dc.subject Aves es
dc.subject.category Ciència i tecnologia ca
dc.subject.forma articles ca
dc.title Host space, not energy or symbiont size, constrains feather mite abundance across passerine bird species ca
dc.type text ca
dc.type.driver info:eu-repo/semantics/article ca
dc.type.driver info:eu-repo/semantics/acceptedVersion ca
metadadalocal.dependencia 8008920

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