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II. Animal Diversity 3. Vertebrata c. Jawed Fishes - Placoderms(extinct – survived to Permian) - Cartilaginous fish (Class: Chondrichthyes) - Bony Fish (Class: Osteichthyes)
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II. Animal Diversity 3. Vertebrata c. Jawed Fishes - Placoderms(extinct – survived to Permian) - Cartilaginous fish (Class: Chondrichthyes) - Bony Fish (Class: Osteichthyes) - light bone skeleton
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II. Animal Diversity 3. Vertebrata c. Jawed Fishes - Placoderms(extinct – survived to Permian) - Cartilaginous fish (Class: Chondrichthyes) - Bony Fish (Class: Osteichthyes) - light bone skeleton - air sac for respiration
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II. Animal Diversity 3. Vertebrata c. Jawed Fishes - Placoderms(extinct – survived to Permian) - Cartilaginous fish (Class: Chondrichthyes) - Bony Fish (Class: Osteichthyes) - light bone skeleton - air sac for respiration - in Ray-finned: swim bladder (light, buoyant, fast) save energy by floating
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- Bony Fish (Class: Osteichthyes) - light bone skeleton - air sac for respiration - in Ray-finned: swim bladder (light, buoyant, fast) - in Lobe-finned and lungfish: evolved jointed fins… could support weight on land, and breath with air sac. (Devonian – 400my)
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II. Animal Diversity 3. Vertebrata d. Amphibians
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II. Animal Diversity 3. Vertebrata d. Amphibians - Evolved in Devonian (375 mya) - Lungfish - fed on abundant terrestrial Arthropods
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An extraordinary sequence of intermediates documenting the colonization of land. The "red gap" was filled in 2006. 385 mya 365 mya
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Eusthenopteron
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Panderichthys rhombolepis
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Tiktaalik roseae
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Acanthostega gunnari
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Ichthyostega sp. (remember ?)
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II. Animal Diversity 3. Vertebrata d. Amphibians - Caecilians, Frogs and Toads, Salamanders
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II. Animal Diversity 3. Vertebrata d. Amphibians - Caecilians, Frogs and Toads, Salamanders - small lungs, respiratory skin must stay moist
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II. Animal Diversity 3. Vertebrata d. Amphibians - Caecilians, Frogs and Toads, Salamanders - small lungs, respiratory skin must stay moist - eggs must stay moist
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II. Animal Diversity 3. Vertebrata e. Reptiles – evolved in Carboniferous (325 mya)
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II. Animal Diversity 3. Vertebrata e. Reptiles - amniotic egg with shell; protects embryo from desiccation (like a seed...) embryo
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II. Animal Diversity 3. Vertebrata e. Reptiles - amniotic egg with shell - kidney to produce concentrated urine...(reduces water loss. reptiles and birds excrete their nitrogenous waste as a paste (the white stuff in a bird's droppings) that requires little water.)
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II. Animal Diversity 3. Vertebrata e. Reptiles - amniotic egg with shell - kidney to produce concentrated urine - scales to reduce water loss from skin (correlating with a larger lung compared to amphibians)
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From 250 to 200 mya, the formation of the supercontinent of Pangaea created warm dry climates that gave ‘reptiles’ the edge. Remember? This gave gymnosperms the edge, too...
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II. Animal Diversity 3. Vertebrata f. Mammals: ‘Reptile to Mammal’ transitions - deep history: Pelycosaurs
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II. Animal Diversity 3. Vertebrata f. Mammals: ‘Reptile to Mammal’ transitions - deep history: Pelycosaurs Therapsids
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II. Animal Diversity 3. Vertebrata f. Mammals: - traits: - hair (endothermy)
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II. Animal Diversity 3. Vertebrata f. Mammals: - traits: - hair (endothermy) - nurse young
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II. Animal Diversity 3. Vertebrata g. Mammals: - Development: - Lay eggs (Monotremes)
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II. Animal Diversity 3. Vertebrata g. Mammals: - Development: - Lay eggs (Monotremes) - birth (Marsupials)
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II. Animal Diversity 3. Vertebrata g. Mammals: - Development: - Lay eggs (Monotremes) - birth (Marsupials) - birth of independent offspring (Placentals)
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II. Animal Diversity 3. Vertebrata g. Mammals: - Radiation:
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II. Animal Diversity 3. Vertebrata g. Birds: - Reptilian Roots feathered dinosaurs and endothermy
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II. Animal Diversity 3. Vertebrata g. Birds: - Reptilian Roots feathered dinosaurs and endothermy - flight
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II. Animal Diversity 3. Vertebrata g. Birds: - one way lung
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even on an exhalation, new air is pulled through the lungs... so birds even absorb oxygen on an exhalation. One way transport is more efficient (like a gut)...
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Summary - Patterns in Vertebrate Diversity I. Innovation and Radiation A. Patterns:
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Summary - Patterns in Vertebrate Diversity I. Innovation and Radiation A. Patterns: 1. Fish
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A. Patterns: 2. Tetrapods
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A. Patterns: 3. Summary - innovation: new “adaptive zone” colonized (a new place, like an island, or a new habitat (like land or the air).
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A. Patterns: 3. Summary - innovation: new “adaptive zone” colonized - radiation – explosion of species colonizing new areas and exploiting new environments in this new way
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A. Patterns: 3. Summary - innovation: new “adaptive zone” colonized - radiation – explosion of species colonizing new areas and exploiting new environments in this new way - competitive contraction? – winners exclude others…
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Summary - Patterns in Vertebrate Diversity I. Innovation and Radiation A. Patterns: B. Mechanisms: - How/why is a new adaptive zone colonized?
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Summary - Patterns in Vertebrate Diversity I. Innovation and Radiation A. Patterns: B. Mechanisms: - How/why is a new adaptive zone colonized? 1. Evolve a new way of life that allows the organism to use resources in a new way (adaptations to land… adaptations for flight…)
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Summary - Patterns in Vertebrate Diversity I. Innovation and Radiation A. Patterns: B. Mechanisms: - How/why is a new adaptive zone colonized? 1. Evolve a new way of life that allows the organism to use resources in a new way (adaptations to land… adaptations for flight…) 2. Colonize an uninhabited area (islands) – these are “ecological vacuums, too…
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Summary - Patterns in Vertebrate Diversity I. Innovation and Radiation A. Patterns: B. Mechanisms: - How/why is a new adaptive zone colonized? 1. Evolve a new way of life that allows the organism to use resources in a new way (adaptations to land… adaptations for flight…) 2. Colonize an uninhabited area (islands) – these are “ecological vacuums, too… 3. Be released from competition by mass extinction of competitors…
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