BIO 3220 COMPARATIVE VERTEBRATE ANATOMY Thank you to McGraw-Hill and Dr. Anil Rao (MSCD) for use of PowerPoint illustrations
Basic Definitions Anatomy Morphology
Phylogeny – Evolutionary History Paleontology Functional Adaptation Comparative Morphology Embryology
Homology Shared common ancestry Same embryonic precursor
Analogy Shared function Insect wings & bird wings Gills & lungs
Homoplasy/Homoplastic Organs Shared anatomy Generally, not homologous E.g. Insect wings vs. leaf
Key Points Homology Analogy Homoplasy
Form vs. Function Function, then form – Darwin’s Theory of Natural Selection – Adaptation Form, then function – Preadaptation
Evolution Random chance mutations, coupled with geographic isolation leads to… Change in gene frequency in a population
Divergent Evolution Related Present species evolved from common ancestor
Convergent Evolution Not closely related Dissimilar features evolved to become similar features
Parallel Evolution Related & Isolated Corresponding features undergo equivalent changes in isolated environments
Organic Evolution Present day species are descendants of previous species Changes that have taken place in plants & animals over time
Vestigial Structures Phylogenetic remnant Better developed in ancestor E.g. pelvic girdle in python
Key Point Can you think of a vestigial structure in humans?
Rudimentary Structure More developed in descendant E.g. neck, ear
Ontogeny An individual’s life history Fertilization to death Influenced by environment as well as genetics Structures earliest to develop are likely the oldest phylogenetically
Heterochrony Paedogenesis – Gonads develop quicikly Paedomorphosis – Immature features of ancestor become features of future SPECIES Neoteny – Immature features are retained as an adult in the INDIVIDUAL
paedomorphosis