How many eggs should be laid in one's own nest and others' in intra-specific brood parasitism?
Authored by F Takasu
Date Published: 2004
DOI: 10.1007/s10144-004-0192-x
Sponsors:
Japanese Society for the Promotion of Science (JSPS)
Platforms:
No platforms listed
Model Documentation:
Other Narrative
Mathematical description
Model Code URLs:
Model code not found
Abstract
Recent field studies have demonstrated that many bird species practice
intra-specific brood parasitism. They lay eggs in the nests of other
individuals of the same species, let the foster parents rear their
offspring and avoid the cost of parental care. It has been shown that
many birds, including starlings, swallows and geese, practice
intra-specific brood parasitism in various forms. Intra-specific brood
parasitism can be viewed in terms of optimal resource allocation: how
many eggs should be put in the nests of other individuals under the risk
of being parasitized by others. The situation here is a ``game{''}, because the fitness of a parasitic individual depends on how other
individuals behave (how many individuals practice parasitism and to what
extent). The ecology of intra-specific brood parasitism has been
investigated extensively by field ornithologists recently and it is full
of material for modeling population/evolutionary biology. In this paper, I present a simple individual-based model to challenge the resource
allocation problem in intra-specific brood parasitism. Previous
theoretical studies of intra-specific brood parasitism have been based
on ESS or quantitative genetics models, where a population is implicitly
assumed to be homogeneous and the distribution form of the trait being
studied (the allocation rate or the number of eggs laid parasitically)
is inherently monomorphic. This paper aims to explore the evolution of
intra-specific brood parasitism without these restrictions. In the
model, an individual is assigned a strategy, an allocation ratio of eggs
that are laid parasitically in the nests of other individuals, and the
strategy is inherited by offspring either asexually or sexually. Based
on the simulation analysis, the evolution of the allocation rate (the
extent of intra-specific brood parasitism) is discussed. The extension
of this model to a tractable analytical model is also discussed.
Tags
birds
Starling sturnus-vulgaris
Swallows