Published August 15, 2006
by Landes Bioscience .
Written in English
|Contributions||Yegor B. Malashichev (Editor), A. Wallace Deckel (Editor)|
|The Physical Object|
|Number of Pages||193|
Additional Physical Format: Online version: Behavioral and morphological asymmetries in vertebrates. Georgetown, Tex.: Landes Bioscience: , © Get this from a library! Behavioral and morphological asymmetries in vertebrates. [Yegor B Malashichev; A Wallace Deckel;] -- This volume grew out of the 2nd International Symposium on Behavioral and Morphological Asymmetries, which took place in St. Petersburg (Russia) in September at the St. Petersburg State. 2 Behavioural and Morphological Asymmetries in Vertebrates examine phylogenetic and developmental foundations of cerebral lateralization, the functional and ontogenetic interplay between neuronal substrate and behavioural lateralization is still an unsolved problem. This ambiguity results at least partly from the uncertainty regarding the. This book provides students and researchers with reviews of biological questions related to the evolution of feeding by vertebrates in aquatic and terrestrial environments. Based on recent technical developments and novel conceptual approaches, the book covers functional questions on trophic behavior in nearly all vertebrate groups including.
Externally, vertebrates are bilaterally symmetrical; however, left–right asymmetry is observed in the structure of their internal organs and systems of organs (circulatory, digestive, and. (). Behavioral and Morphological Asymmetries in Vertebrates. Texas: Landes Biosciences. (). Behavioral aspects of sleep in bottlenose dolphin mothers and their calves. (). Behavioral development of wild bottlenose dolphin newborns. (). Behavioural and Morphological Asymmetries in Amphibians and Reptiles. Special issue. (). PDF | Morphological and behavioural asymmetries in amphibians are reviewed. Among the characteristics considered are: (1) the asymmetry of the shoulder | Find, read Author: Yegor Malashichev. Behavioural asymmetries (left–right, anterior–posterior) in arm use have been observed in octopuses, O. vulgaris (Byrne et al., a). Preferential use of posterior arms for walking was reported (Mather, ) and, in their study, Byrne et al. (a) tested the limb use of eight animals, seven of which had been involved in the eye Cited by:
asymmetries and behavioural advantages was published in on invertebrate species. Pascual and others () were able to prove that morphological asymmetry in the brain was correlated with the formation and retrieval of long-term odour memory in Drosophila melanogaster. Individuals having symmetrical brains, conversely, showed. Behavioural and Morphological Asymmetries in Vertebrates (Molecular Biology Intelligence Unit) This quantity grew out of the second foreign Symposium on Behavioral and Morphological Asymmetries, which happened in St. Petersburg (Russia) in September on the St. Petersburg kingdom college lower than the patronage of the St. Petersburg Society of Naturalists/5(37). Asymmetries in behaviour are thought commonly to originate in asymmetries in the body, typically the nervous system: in vertebrates there are several examples in Cited by: 6. Malashichev / Rogers, Behavioural and Morphological Asymmetries in Amphibians and Reptiles: Proceedings of the 4th World Congress of Herpetology Satellite Symposium, , Buch, Bücher schnell und portofrei.