Contrasting patterns of phenotypic plasticity in reproductive traits in two great tit (Parus major) populations

Date

2010

Authors

Husby, Arild
Nussey, Daniel H.
Visser, Marcel E.
Wilson, Alastair J.
Sheldon, B.C.
Kruuk, Loeske

Journal Title

Journal ISSN

Volume Title

Publisher

Society for the Study of Evolution

Abstract

Phenotypic plasticity is an important mechanism via which populations can respond to changing environmental conditions, but we know very little about how natural populations vary with respect to plasticity. Here we use random-regression animal models to understand the multivariate phenotypic and genetic patterns of plasticity variation in two key life-history traits, laying date and clutch size, using data from long-term studies of great tits in The Netherlands (Hoge Veluwe [HV]) and UK (Wytham Woods [WW]). We show that, while population-level responses of laying date and clutch size to temperature were similar in the two populations, between-individual variation in plasticity differed markedly. Both populations showed significant variation in phenotypic plasticity (IxE) for laying date, but IxE was significantly higher in HV than in WW. There were no significant genotype-by-environment interactions (GxE) for laying date, yet differences in GxE were marginally nonsignificant between HV and WW. For clutch size, we only found significant IxE and GxE in WW but no significant difference between populations. From a multivariate perspective, plasticity in laying date was not correlated with plasticity in clutch size in either population. Our results suggest that generalizations about the form and cause of any response to changing environmental conditions across populations may be difficult.

Description

Keywords

Keywords: climate change; clutch size; ecosystem response; environmental conditions; genotype-environment interaction; laying date; life history trait; multivariate analysis; passerine; phenotypic plasticity; regression analysis; reproductive strategy; animal; arti Animal model; Climate change; Genotype environment interaction; Heritability; Multivariate; Phenotypic plasticity; Random regression

Citation

Source

Evolution

Type

Journal article

Book Title

Entity type

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Restricted until

2037-12-31