Morph-specific seasonal variation of aggressive behaviour in a polymorphic lizard species.

Alan Jioele Coladonato,Simone Buratti,Roberto Sacchi,Mara Battaiola,Stefano Scali,Marco Mangiacotti,Carlotta Pasquariello,Cristian Matellini,Marco A L Zuffi

doi:10.7717/peerj.10268

Alan Jioele Coladonato, Simone Buratti + Show 7 more

Open Access

https://doi.org/10.7717/peerj.10268

Copy DOI

Journal: PeerJ	Publication Date: Nov 20, 2020
Citations: 10	License type: CC BY 4.0

Affiliation: University of Pavia, Museo Galileo, University of Pisa

Abstract

The persistence of colour polymorphism (CP) within a given population is generally associated with the coexistence of alternative reproductive strategies, each one involving specific trade-offs among behavioural, morphological, physiological, and other life histories. Common wall lizard (Podarcis muralis), is a medium-sized diurnal lizard, showing CP in three main colours (yellow, white, and red) on throat and belly, and a morph-specific pattern for both immunocompetence and seasonal variation of T levels. Yellow males show low stamina with high plasma T levels at the beginning of the season, while white males show high stamina with a higher plasma T levels at the end of the season. We hypothesised the presence of two strategies: a risky one, characterised by high aggressiveness played by yellow-morph, and a conservative one by white morph with low aggressiveness. Thus, we tested the aggressive response to conspecifics of yellow and white morphs using a mirror inserted into their cage, mimicking an intrusion of a stranger in their territories, throughout the breeding season (from April to July, 117 trials). We considered three types of aggressive response, with different levels of aggressiveness: (i) bite against the image reflected in the mirror, (ii) seconds spent by the individuals into the half mirrored cage, and (iii) number of times the lizard entered the half mirrored cage. We also considered the number of tongue flicking as explorative behaviour variable. All lizards were tested after a period of acclimatisation to the captivity conditions. Results demonstrate that yellow males showed a higher aggressive response in the early season and a decrease aggressive response towards the end, whereas white males showed an opposite pattern.

Highlights

Species exhibiting colour polymorphism (CP) are excellent model systems to understand evolutionary processes
A significant increase in bites has been observed in white males (Day: β = 0.37 ± 0.16; P = 0.02), whereas the opposite pattern has been observed in yellow males, not in a significant statistical way (Day: β = −0.29 ± 0.16; P = 0.07)
Yellow males at the beginning of the season had higher aggression than white males, but as the season went on this difference disappeared until a switch of the aggressive behaviour in the two morphs did occur

Summary

Introduction

Species exhibiting colour polymorphism (CP) are excellent model systems to understand evolutionary processes. CP is generally associated with the coexistence of alternative reproductive strategies, which are modulated by complex interactions among environmental pressures (e.g. social interactions and individual density), each one involving specific trade-offs among behaviour, physiological, and other life-history traits (Roulin & Bize, 2007). A colour morph represents an alternative, locally adapted optimum, that is an optimal combination of the traits involved in the trade-offs, which optimise the fitness (Sinervo & Lively, 1996; Svensson, Sinervo & Comendant, 2001; Roulin & Bize, 2007; Sacchi et al, 2007a; Andrade et al, 2019)

Methods

Results

Discussion

Conclusion