Parental morph combination does not influence innate immune function in nestlings of a colour-polymorphic African raptor

Parental morph combination does not influence innate immune function in nestlings of a colour-polymorphic African raptor

Abstract Conditions experienced during early life can have long-term individual consequences by influencing dispersal, survival, recruitment and productivity. Resource allocation during development can have strong carry-over effects onto these key parameters and is directly determined by the quality...

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Main Authors: Carina Nebel, Arjun Amar, Arne Hegemann, Caroline Isaksson, Petra Sumasgutner
Format: Article
Language:English
Published: Nature Publishing Group 2021-05-01
Series:Scientific Reports
Online Access:https://doi.org/10.1038/s41598-021-90291-7
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spelling doaj-bd67f4964aa044f39a0f10ac47b70bd92021-05-30T11:39:34ZengNature Publishing GroupScientific Reports2045-23222021-05-0111111110.1038/s41598-021-90291-7Parental morph combination does not influence innate immune function in nestlings of a colour-polymorphic African raptorCarina Nebel0Arjun Amar1Arne Hegemann2Caroline Isaksson3Petra Sumasgutner4FitzPatrick Institute of African Ornithology, DSI-NRF Centre of Excellence, University of Cape TownFitzPatrick Institute of African Ornithology, DSI-NRF Centre of Excellence, University of Cape TownDepartment of Biology, Lund UniversityDepartment of Biology, Lund UniversityFitzPatrick Institute of African Ornithology, DSI-NRF Centre of Excellence, University of Cape TownAbstract Conditions experienced during early life can have long-term individual consequences by influencing dispersal, survival, recruitment and productivity. Resource allocation during development can have strong carry-over effects onto these key parameters and is directly determined by the quality of parental care. In the black sparrowhawk (Accipiter melanoleucus), a colour-polymorphic raptor, parental morphs influence nestling somatic growth and survival, with pairs consisting of different colour morphs (‘mixed-morph pairs’) producing offspring with lower body mass indices, but higher local apparent survival rates. Resource allocation theory could explain this relationship, with nestlings of mixed-morph pairs trading off a more effective innate immune system against somatic growth. We quantified several innate immune parameters of nestlings (hemagglutination, hemolysis, bacteria-killing capacity and haptoglobin concentration) and triggered an immune response by injecting lipopolysaccharides. Although we found that nestlings with lower body mass index had higher local survival rates, we found no support for the proposed hypothesis: neither baseline immune function nor the induced immune response of nestlings was associated with parental morph combination. Our results suggest that these immune parameters are unlikely to be involved in providing a selective advantage for the different colour morphs’ offspring, and thus innate immunity does not appear to be traded off against a greater allocation of resources to somatic growth. Alternative hypotheses explaining the mechanism of a low nestling body mass index leading to subsequent higher local survival could be related to the post-fledgling dependency period or differences in dispersal patterns for the offspring from different morph combinations.https://doi.org/10.1038/s41598-021-90291-7
collection DOAJ
language English
format Article
sources DOAJ
author Carina Nebel
Arjun Amar
Arne Hegemann
Caroline Isaksson
Petra Sumasgutner
spellingShingle Carina Nebel
Arjun Amar
Arne Hegemann
Caroline Isaksson
Petra Sumasgutner
Parental morph combination does not influence innate immune function in nestlings of a colour-polymorphic African raptor
Scientific Reports
author_facet Carina Nebel
Arjun Amar
Arne Hegemann
Caroline Isaksson
Petra Sumasgutner
author_sort Carina Nebel
title Parental morph combination does not influence innate immune function in nestlings of a colour-polymorphic African raptor
title_short Parental morph combination does not influence innate immune function in nestlings of a colour-polymorphic African raptor
title_full Parental morph combination does not influence innate immune function in nestlings of a colour-polymorphic African raptor
title_fullStr Parental morph combination does not influence innate immune function in nestlings of a colour-polymorphic African raptor
title_full_unstemmed Parental morph combination does not influence innate immune function in nestlings of a colour-polymorphic African raptor
title_sort parental morph combination does not influence innate immune function in nestlings of a colour-polymorphic african raptor
publisher Nature Publishing Group
series Scientific Reports
issn 2045-2322
publishDate 2021-05-01
description Abstract Conditions experienced during early life can have long-term individual consequences by influencing dispersal, survival, recruitment and productivity. Resource allocation during development can have strong carry-over effects onto these key parameters and is directly determined by the quality of parental care. In the black sparrowhawk (Accipiter melanoleucus), a colour-polymorphic raptor, parental morphs influence nestling somatic growth and survival, with pairs consisting of different colour morphs (‘mixed-morph pairs’) producing offspring with lower body mass indices, but higher local apparent survival rates. Resource allocation theory could explain this relationship, with nestlings of mixed-morph pairs trading off a more effective innate immune system against somatic growth. We quantified several innate immune parameters of nestlings (hemagglutination, hemolysis, bacteria-killing capacity and haptoglobin concentration) and triggered an immune response by injecting lipopolysaccharides. Although we found that nestlings with lower body mass index had higher local survival rates, we found no support for the proposed hypothesis: neither baseline immune function nor the induced immune response of nestlings was associated with parental morph combination. Our results suggest that these immune parameters are unlikely to be involved in providing a selective advantage for the different colour morphs’ offspring, and thus innate immunity does not appear to be traded off against a greater allocation of resources to somatic growth. Alternative hypotheses explaining the mechanism of a low nestling body mass index leading to subsequent higher local survival could be related to the post-fledgling dependency period or differences in dispersal patterns for the offspring from different morph combinations.
url https://doi.org/10.1038/s41598-021-90291-7
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