Aggressive Behavior and Performance in the Tegu Lizard Tupinambis merianae

Aggression is an important component of behavior in many animals and may be crucial to providing individuals with a competitive advantage when resources are limited. Although much is known about the effects of catecholamines and hormones on aggression, relatively few studies have examined the effects of physical performance on aggression. Here we use a large, sexually dimorphic teiid lizard to test whether individuals that show high levels of physical performance (bite force) are also more aggressive toward a potential threat (i.e., a human approaching the lizard). Our results show that independent of their sex, larger individuals with higher bite forces were indeed more aggressive. Moreover, our data show that individuals with higher bite forces tend to show decreased escape responses and are slower, providing evidence for a trade‐off between fight and flight abilities. As bite force increased dramatically with body size, we suggest that large body size and bite force may reduce the threshold for an individual to engage in an aggressive encounter, allowing it to potentially gain or maintain resources and fight off predators while minimizing the risk of injury.

[1]  D. Miles,et al.  Locomotor performance and dominance in male Tree Lizards, Urosaurus ornatus , 2000 .

[2]  E. Civantos,et al.  Testosterone supplementation in juvenile Psammodromus algirus lizards: consequences for aggressiveness and body growth , 2002, acta ethologica.

[3]  C. Tobin,et al.  Testosterone treatment results in quiescent satellite cells being activated and recruited into cell cycle in rat levator ani muscle. , 1995, Developmental biology.

[4]  A. F. Bennett,et al.  THERMAL DEPENDENCE OF LOCOMOTION AND AGGRESSION IN A XANTUSIID LIZARD , 1992 .

[5]  S. Emerson Vertebrate Secondary Sexual Characteristics—Physiological Mechanisms and Evolutionary Patterns , 2000, The American Naturalist.

[6]  M. C. Moore,et al.  Activation of aggressive behavior by progesterone and testosterone in male tree lizards, Urosaurus ornatus. , 2004, General and comparative endocrinology.

[7]  David Firth,et al.  Ultraviolet signals ultra-aggression in a lizard , 2006, Animal Behaviour.

[8]  R. James,et al.  Fight versus flight: physiological basis for temperature-dependent behavioral shifts in lizards , 2007, Journal of Experimental Biology.

[9]  A. Herrel,et al.  Performance capacity, fighting tactics and the evolution of life–stage male morphs in the green anole lizard (Anolis carolinensis) , 2004, Proceedings of the Royal Society of London. Series B: Biological Sciences.

[10]  R. Fénéron,et al.  Effect of body size on aggression in the ant, Cataglyphis niger (Hymenoptera; Formicidae) , 1999 .

[11]  D. Carrier,et al.  Functional trade‐offs in the limb muscles of dogs selected for running vs. fighting , 2003, Journal of evolutionary biology.

[12]  W. Just,et al.  The evolution of aggressive losers , 2007, Behavioural Processes.

[13]  D. Carrier THE SHORT LEGS OF GREAT APES: EVIDENCE FOR AGGRESSIVE BEHAVIOR IN AUSTRALOPITHS , 2007, Evolution; international journal of organic evolution.

[14]  C. Bardin,et al.  Testosterone: a major determinant of extragenital sexual dimorphism. , 1981, Science.

[15]  G. Ruxton,et al.  Why are small males aggressive? , 2005, Proceedings of the Royal Society B: Biological Sciences.

[16]  R. D. Pietruszka,et al.  Aggressiveness and vocalization in the leopard lizard (Gambelia wislizennii): The influence of temperature , 1983, Animal Behaviour.

[17]  M. Dorlöchter,et al.  Effects of testosterone on a sexually dimorphic frog muscle: repeated in vivo observations and androgen receptor distribution. , 1994, Journal of neurobiology.

[18]  C. H. Summers,et al.  Future social rank: forecasting status in the green anole (Anolis carolinensis) , 2006, acta ethologica.

[19]  José Martín,et al.  Locomotor capacity and dominance in male lizards Lacerta monticola: a trade-off between survival and reproductive success? , 2002 .

[20]  C. Marler,et al.  Evolutionary costs of aggression revealed by testosterone manipulations in free-living male lizards , 1988, Behavioral Ecology and Sociobiology.

[21]  T. Garland,et al.  Locomotor performance and social dominance in male Anolis cristatellus , 2004, Animal Behaviour.

[22]  Eviatar Nevo,et al.  Fight versus flight: Body temperature influences defensive responses of lizards , 1982, Animal Behaviour.

[23]  Anthony Herrel,et al.  Sexual dimorphism of head size in Gallotia galloti: testing the niche divergence hypothesis by functional analyses , 1999 .

[24]  J. Meyers,et al.  Hormones, sexual signals, and performance of green anole lizards (Anolis carolinensis) , 2007, Hormones and Behavior.

[25]  A. Lappin,et al.  The fitness advantage of a high‐performance weapon , 2009 .

[26]  Jerry F Husak,et al.  Weapon Performance, Not Size, Determines Mating Success and Potential Reproductive Output in the Collared Lizard (Crotaphytus collaris) , 2005, The American Naturalist.

[27]  R. V. Ihering Dicionario dos animais do Brasil , 1940 .

[28]  H. Scheers,et al.  Morphology, performance and fighting capacity in male lizards, Gallotia galloti , 2005 .

[29]  M. Moore,et al.  Steroid hormones alter neuroanatomy and aggression independently in the tree lizard , 2008, Physiology & Behavior.

[30]  D. Carrier,et al.  Functional trade-offs in the limb bones of dogs selected for running versus fighting , 2005, Journal of Experimental Biology.

[31]  V. Haddad,et al.  Tegu (Teiu) Bite: Report of Human Injury Caused by a Teiidae Lizard , 2008, Wilderness & environmental medicine.

[32]  Katherine M Simpson The Role of Testosterone in Aggression , 2020 .

[33]  M. Heisenberg,et al.  Octopamine in Male Aggression of Drosophila , 2008, Current Biology.

[34]  R. V. Ihering,et al.  Brazilian Books of Interest to Ichthyologists and Herpetologists@@@Da vida dos peixes@@@Da vida dos nossos animais@@@Dicionario dos animais do Brasil@@@Do Rio de Janeiro a Cuyaba@@@Zoo-Geografia do Brasil@@@O Campo , 1944 .

[35]  J. Husak,et al.  Bite-Force Performance Predicts Dominance in Male Venerable Collared Lizards (Crotaphytus antiquus) , 2006, Copeia.

[36]  Lance D. McBrayer,et al.  Bite force in vertebrates: opportunities and caveats for use of a nonpareil whole-animal performance measure , 2008 .