Neurobiological basis of adaptability: neurotransmitter and behavioral profile of two species of lizard, The Italian Wall Lizard, Podarcis Siculus and The Dalmatian Wall Lizard, Podarcis Melisellesis (CROSBI ID 656905)
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Podaci o odgovornosti
Blazevic, Sofia Ana ; Glogoški, Marko ; Gajsek, Tamara ; Burić, D ; Josić, P ; Lisičić, Duje
engleski
Neurobiological basis of adaptability: neurotransmitter and behavioral profile of two species of lizard, The Italian Wall Lizard, Podarcis Siculus and The Dalmatian Wall Lizard, Podarcis Melisellesis
The Italian wall lizard, Podarcis siculus and the Dalmatian wall lizard, Podarcis melisellensis are two lizards from the family of Lacertidae. When this two species share same habitat, P. siculus outcompetes P. melisellensis as a dominant competitor, usually leading to extinction of P. melisellensis. We investigated the behavior of these two species of lizards, Podarcis siculus and Podarcis melisellensis in a new environment. In order to do so, we observed habituation period in the open field test and 8-arm radial maze. Habituation is an extremely simple form of learning, in which an animal, after a period of exposure to a stimulus, stops responding. We had 28 specimens of each species, 14 females and 14 males. Each experiment lasted between 15 and 23 minutes. Parameters of interest were: latency time, time spent in the central vs. marginal area and returning into hiding place. We tested for the behavioral differences between the species and sexes. After behavioral testing, the animals we sacrificed and levels of monoamines (5ht, DA, NA) in the brain was analyzed with HPLC. P. melisellensis showed bolder behavior, spending more time in open spaces, while P. siculus was more agile and found food quicker and in general learned faster than P. melisellensis. Consistent with literature, females were bolder than males. Specific traits correlated with neurotransmitter levels. Each species adapted in a different way to the same environment. We propose these two species of lizards as a good model for understanding the neurobiological basis of adaptive behavior, warranting further research.
neurobiology, adaptivity, behavior
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Podaci o prilogu
59-59.
2017.
objavljeno
Podaci o matičnoj publikaciji
Podaci o skupu
Federation of European Neuroscience Societies
poster
20.09.2017-23.09.2017
Pečuh, Mađarska