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Experimental demonstration of a parasite-induced immune response in wild birds: Darwin's finches and introduced nest flies

Ecological immunology aims to explain variation among hosts in the strength and efficacy of immunological defenses. However, a shortcoming has been the failure to link host immune responses to actual parasites under natural conditions. Here, we present one of the first experimental demonstrations of...

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Autores principales: Koop, Jennifer A H, Owen, Jeb P, Knutie, Sarah A, Aguilar, Maria A, Clayton, Dale H
Formato: Online Artículo Texto
Lenguaje:English
Publicado: Blackwell Science Inc 2013
Materias:
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC3930052/
https://www.ncbi.nlm.nih.gov/pubmed/24567824
http://dx.doi.org/10.1002/ece3.651
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author Koop, Jennifer A H
Owen, Jeb P
Knutie, Sarah A
Aguilar, Maria A
Clayton, Dale H
author_facet Koop, Jennifer A H
Owen, Jeb P
Knutie, Sarah A
Aguilar, Maria A
Clayton, Dale H
author_sort Koop, Jennifer A H
collection PubMed
description Ecological immunology aims to explain variation among hosts in the strength and efficacy of immunological defenses. However, a shortcoming has been the failure to link host immune responses to actual parasites under natural conditions. Here, we present one of the first experimental demonstrations of a parasite-induced immune response in a wild bird population. The recently introduced ectoparasitic nest fly Philornis downsi severely impacts the fitness of Darwin's finches and other land birds in the Galápagos Islands. An earlier study showed that female medium ground finches (Geospiza fortis) had P. downsi-binding antibodies correlating with presumed variation in fly exposure over time. In the current study, we experimentally manipulated fly abundance to test whether the fly does, in fact, cause changes in antibody levels. We manipulated P. downsi abundance in nests and quantified P. downsi-binding antibody levels of medium ground finch mothers, fathers, and nestlings. We also quantified host behaviors, such as preening, which can integrate with antibody-mediated defenses against ectoparasites. Philornis downsi-binding antibody levels were significantly higher among mothers at parasitized nests, compared to mothers at (fumigated) nonparasitized nests. Mothers with higher antibody levels tended to have fewer parasites in their nests, suggesting that antibodies play a role in defense against parasites. Mothers showed no behavioral changes that would enhance the effectiveness of the immune response. Neither adult males, nor nestlings, had P. downsi-induced immunological or behavioral responses that would enhance defense against flies. None of the parasitized nests fledged any offspring, despite the immune response by mothers. Thus, this study shows that, while the immune response of mothers appeared to be defensive, it was not sufficient to rescue current reproductive fitness. This study further shows the importance of testing the fitness consequences of immune defenses, rather than assuming that such responses increase host fitness. Host immune responses can protect against the negative fitness consequences of parasitism; however, the strength and effectiveness of these responses vary among hosts. Strong host immune responses are often assumed to correlate with greater host fitness. This study investigates the relationship between host immune response, parasite load, and host fitness using Darwin's finches and an invasive nest parasite. We found that while the immune response of mothers appeared defensive, it did not rescue current reproductive fitness.
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spelling pubmed-39300522014-02-24 Experimental demonstration of a parasite-induced immune response in wild birds: Darwin's finches and introduced nest flies Koop, Jennifer A H Owen, Jeb P Knutie, Sarah A Aguilar, Maria A Clayton, Dale H Ecol Evol Original Research Ecological immunology aims to explain variation among hosts in the strength and efficacy of immunological defenses. However, a shortcoming has been the failure to link host immune responses to actual parasites under natural conditions. Here, we present one of the first experimental demonstrations of a parasite-induced immune response in a wild bird population. The recently introduced ectoparasitic nest fly Philornis downsi severely impacts the fitness of Darwin's finches and other land birds in the Galápagos Islands. An earlier study showed that female medium ground finches (Geospiza fortis) had P. downsi-binding antibodies correlating with presumed variation in fly exposure over time. In the current study, we experimentally manipulated fly abundance to test whether the fly does, in fact, cause changes in antibody levels. We manipulated P. downsi abundance in nests and quantified P. downsi-binding antibody levels of medium ground finch mothers, fathers, and nestlings. We also quantified host behaviors, such as preening, which can integrate with antibody-mediated defenses against ectoparasites. Philornis downsi-binding antibody levels were significantly higher among mothers at parasitized nests, compared to mothers at (fumigated) nonparasitized nests. Mothers with higher antibody levels tended to have fewer parasites in their nests, suggesting that antibodies play a role in defense against parasites. Mothers showed no behavioral changes that would enhance the effectiveness of the immune response. Neither adult males, nor nestlings, had P. downsi-induced immunological or behavioral responses that would enhance defense against flies. None of the parasitized nests fledged any offspring, despite the immune response by mothers. Thus, this study shows that, while the immune response of mothers appeared to be defensive, it was not sufficient to rescue current reproductive fitness. This study further shows the importance of testing the fitness consequences of immune defenses, rather than assuming that such responses increase host fitness. Host immune responses can protect against the negative fitness consequences of parasitism; however, the strength and effectiveness of these responses vary among hosts. Strong host immune responses are often assumed to correlate with greater host fitness. This study investigates the relationship between host immune response, parasite load, and host fitness using Darwin's finches and an invasive nest parasite. We found that while the immune response of mothers appeared defensive, it did not rescue current reproductive fitness. Blackwell Science Inc 2013-08 2013-06-26 /pmc/articles/PMC3930052/ /pubmed/24567824 http://dx.doi.org/10.1002/ece3.651 Text en © 2013 Published by John Wiley & Sons Ltd http://creativecommons.org/licenses/by/2.5/ Re-use of this article is permitted in accordance with the Creative Commons Deed, Attribution 2.5, which does not permit commercial exploitation.
spellingShingle Original Research
Koop, Jennifer A H
Owen, Jeb P
Knutie, Sarah A
Aguilar, Maria A
Clayton, Dale H
Experimental demonstration of a parasite-induced immune response in wild birds: Darwin's finches and introduced nest flies
title Experimental demonstration of a parasite-induced immune response in wild birds: Darwin's finches and introduced nest flies
title_full Experimental demonstration of a parasite-induced immune response in wild birds: Darwin's finches and introduced nest flies
title_fullStr Experimental demonstration of a parasite-induced immune response in wild birds: Darwin's finches and introduced nest flies
title_full_unstemmed Experimental demonstration of a parasite-induced immune response in wild birds: Darwin's finches and introduced nest flies
title_short Experimental demonstration of a parasite-induced immune response in wild birds: Darwin's finches and introduced nest flies
title_sort experimental demonstration of a parasite-induced immune response in wild birds: darwin's finches and introduced nest flies
topic Original Research
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC3930052/
https://www.ncbi.nlm.nih.gov/pubmed/24567824
http://dx.doi.org/10.1002/ece3.651
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