Transcript Lecture 4
Lecture 4 Evolution & Dentition 1. Evolutionary timeline 2. Morphological changes 3. Mammal characteristics (hard anatomy this time) Sept. 20, 2010 1 Once upon a time … Sept. 20, 2010 2 Sept. 20, 2010 3 Synapsids Turtles Anapsida Lizards & snakes Crocodiles Dinosaurs & birds Mammals & reptile-like mammals Diapsida Amphibians Saurapsida Amniota Sept. 20, 2010 Synapsida -ca. 320 mya -evolution of cleidoic (shelled) egg; ca. 350 mya (late Paleozoic) 4 Synapsids (about 320 mya) • 1st group to radiate widely in terrestrial habitats. • Development of the shelled egg. Sept. 20, 2010 5 Synapsids diverge into Pelycosaurs and Therapsids Sept. 20, 2010 6 Single bone in mandible: dentary Pelycosaur Sept. 20, 2010 7 Therapsids = Mammal evolved from Reptiles? FALSE! Currently, it is thought that mammals and our “mammal-like reptiles” did not evolve from reptiles; rather, reptiles and mammals shared a common ancestor (the Amniota) from which each group evolved in divergent ways. Sept. 20, 2010 8 Most suborders of Therapsids go extinct except Cynodontia. Sept. 20, 2010 9 Cynodontia (almost mammal grade) • Tricuspids • Double-rooted cheekteeth • Mammalian jaw structure and masseter muscles • Hearing • More erect posture (better movement) • Postcranial skeletal features – Differentiated vertebrae – Modified pectoral and pelvic girdle –2010Thoracic ribs Sept. 20, 10 Class Mammalia (200-250 mil/yr ago) • Defined by articulation of between the squamosal and dentary bones. – Changes increased auditory acuity and efficiency of chewing. http://www.youtube.com/watch?v=AXcYXRFQ_DE Sept. 20, 2010 11 http://www.youtube.com/watch?v=SIVs6lixFFQ&NR=1 http://www.youtube.com/watch?v=L-FCPC6IDzY\ Sept. 20, 2010 12 Lets Recap & Symplify! Synapsids 325mya Pelycosaurs 300mya Therapsids 275mya Cynodonts 250mya Mammals 225mya Sept. 20, 2010 13 First Mammals http://www.youtube.com/watch?v=sCEeefdaRcw • What advantages can you think of that would have allowed the mammals to expand while the dinosaurs collapsed? • Mammals have been the dominant terrestrial vertebrates for the last 65 million years. Sept. 20, 2010 14 Linking Evolution and Mammal Characteristics • Changes in skeletal features occurred in association with metabolism, physiology, and reproduction. • Mammals need ~10 times more food and oxygen than a reptile of equal size. • Most morphological changes directly assisted endothermy and homeostasis. • How do we know????????????? Sept. 20, 2010 15 Mammal Characteristics Occipital condyles Dentary, ear ossicles Dentition Upright posture Determinite growth/ephiphyses Simplification of skeleton Vertebral column Mammary glands 4-chambered heart Enucleated red blood cells Diaphragm Endothermy/homeothermy Olfaction Sept. 20,Hair 2010 16 Fossil evidence? Occipital condyles Dentary, ear ossicles Dentition Upright posture Determinite growth/ephiphyses Simplification of skeleton Vertebral column Mammary glands 4-chambered heart Enucleated red blood cells Diaphragm Endothermy/homeothermy(??) Olfaction (??) Sept. 20,Hair 2010 17 Summary of Trends Mammal-like Amniotes Sept. 20, 2010 Mammals 18 Dentary-squamosal articulation post-dentary bones 1. Larger and heavier dentary bone. Process food better? 2. Allowing jaw muscles to attach from inner surface of cranium to outer surface. Ossification of braincase. More protection? Sept. 20, 2010 19 Formation of secondary palate • More efficient airflow • Constant breathing while chewing; thus, more efficient transfer of oxygen and enhanced metabolism • Also may have related to efficient suckling. Sept. 20, 2010 20 Double occipital condyle: greater range of motion Sept. 20, 2010 21 Modified limbs and pelvic girdle Reptile-like Mammal-like femur pelvic girdle fibula femur calcaneus tibia astragalus Sprawling posture Lateral gait Poorly developed calcaneus http://www.youtube.com/watch?v=_ut5jENqBX8 Sept. 20, 2010 fibula tibia astragalus calcaneus Upright posture Fore-aft gait Well-developed calcaneus http://www.youtube.com/watch?v=jMwefq1ZtNI 22 Loss of cervical and thoracic ribs • More flexible movement, especially in lower spine Sept. 20, 2010 23 Mammal Teeth & Dentition (complicated subject) • One of the most important aspects of living mammals. – Reflect trophic level and specialization – Along with feeding, used for borrowing, grooming, and protection – One of the main tools for distinguishing mammals from other classes and from each other. • Little variation in skeletal system of mammals relative to variation in dental patterns. • They fossilize Sept. 20, 2010 24 Heterodont or Dyphodont Dentition Synapsids Sept. 20, 2010 had homodont dentition (& some mammals still do) 25 Enamel: hardest tissue in mammals. 3% organic... “pre-fossilized” Crown gumline Root Alveolus (pl. “alveoli”) Sept. 20, 2010 Dentine: same mineral composition, but 30% organic; softer. Pulp cavity: nerves & vessels. Remains open in rootless, evergrowing teeth (rodent incisors, some cheekteeth) Cementum: bony material surrounding root 26 Teeth grow from one of 3 bones Maxilla, Premaxilla, and Dentary Sept. 20, 2010 27 Tooth replacement •Living mammals DIPHYODONT (EXCEPT molars!). Ancestral condition for mammals. Most other vertebrates have POLYPHYODONT dentition. •“Deciduous” teeth replaced by “permanent” teeth. •Replacement timing varies (e.g., shrews) •Morphology often different in deciduous teeth vs. permanent teeth •Sequence of replacement constant w/in species: useful for AGING Sept. 20, 2010 28 4 basic kinds of teeth Sept. 20, 2010 29 Incisors incisors •Anteriormost teeth, grow out of premaxilla, usually single-rooted •Used mainly for picking, grasping, grooming, but heavily modified in some taxa... Sept. 20, 2010 30 Incisors incisors Dog Sept. 20, 2010 Rodent Lemur 31 Incisors incisors Elephant Sept. 20, 2010 Vampire bat 32 Incisors incisors I C P M 1 0 0 0 3 3 3 3 Tusk is modified 2nd incisor. How do we know??? Elephant Sept. 20, 2010 33 Canine canine •First tooth in maxilla or at maxillary/premaxillary suture. •All mammals have AT MOST one canine per quadrant •Usually single-cusped (unicuspid), single-rooted (but exceptions) •Generally used for stabbing, holding prey in carnivores (but exceptions) •Often absent (rodents, some artiodactyls) or heavily modified (elephants) •Can be problematic to identify if absent and next tooth is caniniform Sept. 20, 2010 34 Canine canine Cat Sept. 20, 2010 Moschid deer Rodent 35 Canine canine Walrus Sept. 20, 2010 Babirusa 36 Premolars premolars •Posterior to canines, rooted entirely in maxilla •Variable: tiny, peglike in some, massive crushing tool in others •Often “molariform,” but generally smaller, less developed than molars •Premolars are replaced, molars aren’t Sept. 20, 2010 37 Premolars premolars Sept. 20, 2010 Dog carnassial pair 38 Molars molars •Posteriormost teeth in toothrow •Variable, but late to erupt •Erupt anterior-to-posterior •NOT REPLACED! Sept. 20, 2010 39 Molars Capybara molars Shrew Raccoon Sept. 20, 2010 Elk 40 Cheekteeth premolars molars “cheekteeth” Despite variation in I, C, much of the important functional variation is found in CHEEKTEETH, particularly MOLARS. Sept. 20, 2010 41 “Assembly line” for food processing capture, pick up puncture puncture, shear grind Sept. 20, 2010 gulp! 42