Franziska C. Schaedelin scite author profile

Animal signals may result from construction behaviour and can provide receivers with essential information in various contexts. Here we explore the potential benefits of extended phenotypes with a signalling function as compared to bodily ornaments and behavioural displays. Their independence of the body, their physical persistence and the morphological and cognitive conditions required for their construction allow unique communication possibilities. We classify various levels of information transfer by extended phenotype signals and explore the differences between secreted signals and signals resulting from collection and construction, which usually involve higher behavioural complexity. We examine evolutionary pathways of extended phenotypes with a signalling function with help of a comparative evaluation and conclude that often constructions first provide a direct fitness benefit, with a signalling function becoming more and more prominent during evolutionary progression. The abundance and variability of extended phenotypes as signals is impressive and provides unique possibilities for animal communication research.

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Mating craters of Cyathopharynx furcifer (Cichlidae) are individually specific, extended phenotypes

Schaedelin

Taborsky

2006

Animal Behaviour

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Female choice of a non-bodily ornament: an experimental study of cichlid sand craters in Cyathopharynx furcifer

Schaedelin

Taborsky

2010

Behav Ecol Sociobiol

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In many species of East African cichlids, males build sand craters or "bowers" to attract females for spawning. It is commonly assumed that these exaggerated sexual traits have a function similar to bodily ornaments. In non-bodily ornaments, however, the behaviour creating the structure may serve as an additional source of information to potential partners, providing multiple signals for mate choice. We tested whether and to what extent females use these signals for choosing males by observing the individual sampling behaviour of female Cyathopharynx furcifer in the field. In addition, we experimentally manipulated crater characteristics in the field and laboratory. We found that females spawn preferably with owners of large and well-maintained craters, but when crater size was enlarged or reduced, the resulting building activity of crater owners affected female choice more strongly than the manipulated crater size per se. We discuss the importance of multiple signals in species constructing extended phenotypes.

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Peerage of Science: will it work?

Hettyey

Griggio

Mann

et al. 2012

Trends in Ecology & Evolution

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