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II. Animal Diversity b. Ecdysozoans 3. Arthropod Phyla e. Phylum Hexapoda 1. Diversity - Collembola
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II. Animal Diversity b. Ecdysozoans 3. Arthropod Phyla e. Phylum Hexapoda 1. Diversity - Collembola - Protura
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II. Animal Diversity b. Ecdysozoans 3. Arthropod Phyla e. Phylum Hexapoda 1. Diversity - Collembola - Protura - Insecta
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II. Animal Diversity b. Ecdysozoans 3. Arthropod Phyla e. Phylum Hexapoda 2. Biology - spiracles
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II. Animal Diversity b. Ecdysozoans 3. Arthropod Phyla e. Phylum Hexapoda 2. Biology - spiracles - Fusion of segments into three regions: head, thorax, abdomen
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II. Animal Diversity b. Ecdysozoans 3. Arthropod Phyla e. Phylum Hexapoda 2. Biology - spiracles - Fusion of segments into three regions: head, thorax, abdomen - Flight in insects
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II. Animal Diversity C. Bilateria 1. Protostomes – blastopore forms mouth a. Lophotrochozoans b. Ecdysozoans 2. Deuterostomes – blastopore forms anus a. Echinodermata b. Hemichordata c. Chordata
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II. Animal Diversity C. Bilateria 2. Deuterostomes – blastopore forms anus a. Echinodermata 1. Diversity - sea stars
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II. Animal Diversity C. Bilateria 2. Deuterostomes – blastopore forms anus a. Echinodermata 1. Diversity - sea stars - sea cucumbers
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II. Animal Diversity C. Bilateria 2. Deuterostomes – blastopore forms anus a. Echinodermata 1. Diversity - sea stars - sea cucumbers - sea urchins
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II. Animal Diversity C. Bilateria 2. Deuterostomes – blastopore forms anus a. Echinodermata 2. Biology - “biradial symmetry”
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II. Animal Diversity C. Bilateria 2. Deuterostomes – blastopore forms anus a. Echinodermata 2. Biology - “biradial symmetry” - internal skeleton – calcified plates
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II. Animal Diversity C. Bilateria 2. Deuterostomes – blastopore forms anus a. Echinodermata 2. Biology - “biradial symmetry” - internal skeleton – calcified plates - water vascular system and tube feet (sieve plate, ring canal, radial canal)
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II. Animal Diversity C. Bilateria 2. Deuterostomes – blastopore forms anus a. Echinodermata 2. Biology - “biradial symmetry” - internal skeleton – calcified plates - water vascular system and tube feet (sieve plate, ring canal, radial canal) - filter feeders (Sea Lily), herbivores (sea urchins), predators (sea stars).
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II. Animal Diversity C. Bilateria 2. Deuterostomes – blastopore forms anus b. Hemichordata – Acorn Worms
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II. Animal Diversity C. Bilateria 2. Deuterostomes – blastopore forms anus b. Hemichordata – Acorn Worms - pharyngeal gill slits - hollow dorsal nerve tube
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II. Animal Diversity C. Bilateria 2. Deuterostomes – blastopore forms anus c. Chordata: Four Key Characters
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II. Animal Diversity C. Bilateria 2. Deuterostomes – blastopore forms anus c. Chordata: Four Key Characters - Pharyngeal Gill Slits
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II. Animal Diversity C. Bilateria 2. Deuterostomes – blastopore forms anus c. Chordata: Four Key Characters - Pharyngeal Gill Slits - Hollow Dorsal Nerve Tube
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II. Animal Diversity C. Bilateria 2. Deuterostomes – blastopore forms anus c. Chordata: Four Key Characters - Pharyngeal Gill Slits - Hollow Dorsal Nerve Tube - Post-anal tail
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II. Animal Diversity C. Bilateria 2. Deuterostomes – blastopore forms anus c. Chordata: Four Key Characters - Pharyngeal Gill Slits - Hollow Dorsal Nerve Tube - Post-anal tail - notochord – a rigid supporting rod
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II. Animal Diversity C. Bilateria 2. Deuterostomes – blastopore forms anus c. Chordata: Four Key Characters 1. Urochordata - Tunicates
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II. Animal Diversity C. Bilateria 2. Deuterostomes – blastopore forms anus c. Chordata: Four Key Characters 1. Urochordata – Tunicates - 4 traits as larva
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II. Animal Diversity C. Bilateria 2. Deuterostomes – blastopore forms anus c. Chordata: Four Key Characters 1. Urochordata – Tunicates - 4 traits as larva - mobile as larva
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II. Animal Diversity C. Bilateria 2. Deuterostomes – blastopore forms anus c. Chordata: Four Key Characters 1. Urochordata – Tunicates - 4 traits as larva - mobile as larva - become sedentary as adults (filter)
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II. Animal Diversity C. Bilateria 2. Deuterostomes – blastopore forms anus c. Chordata: Four Key Characters 2. Cephalochordata – Lancelets
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II. Animal Diversity C. Bilateria 2. Deuterostomes – blastopore forms anus c. Chordata: Four Key Characters 2. Cephalochordata – Lancelets - 4 traits - burrowers - filter feeders
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II. Animal Diversity C. Bilateria 2. Deuterostomes – blastopore forms anus c. Chordata: 3. Vertebrata
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II. Animal Diversity C. Bilateria 2. Deuterostomes – blastopore forms anus c. Chordata: 3. Vertebrata - four traits
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II. Animal Diversity C. Bilateria 2. Deuterostomes – blastopore forms anus c. Chordata: 3. Vertebrata - four traits - vertebral column
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II. Animal Diversity C. Bilateria 2. Deuterostomes – blastopore forms anus c. Chordata: 3. Vertebrata - four traits - vertebral column - trends:
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II. Animal Diversity C. Bilateria 2. Deuterostomes – blastopore forms anus c. Chordata: 3. Vertebrata - four traits - vertebral column - trends: - increased locomotion
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II. Animal Diversity C. Bilateria 2. Deuterostomes – blastopore forms anus c. Chordata: 3. Vertebrata - four traits - vertebral column - trends: - increased locomotion - increased cephalization
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II. Animal Diversity C. Bilateria 2. Deuterostomes – blastopore forms anus c. Chordata: 3. Vertebrata - four traits - vertebral column - trends: - increased locomotion - increased cephalization - adaptations to land
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II. Animal Diversity 3. Vertebrata a. Origin of Vertebrates - filter feeding ancestor (lancelet-like) - 550 mya - Pikaea
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II. Animal Diversity 3. Vertebrata a. Origin of Vertebrates
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II. Animal Diversity 3. Vertebrata b. Jawless Fishes – (Class: Agnatha) - Early: Ostracoderms – filter feeding
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II. Animal Diversity 3. Vertebrata b. Jawless Fishes – (Class: Agnatha) - Current: lampreys, hagfishes: parasitic
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II. Animal Diversity 3. Vertebrata c. Jawed Fishes
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II. Animal Diversity 3. Vertebrata c. Jawed Fishes - gill arches
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II. Animal Diversity 3. Vertebrata c. Jawed Fishes - gill arches - evolved to jaws
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II. Animal Diversity 3. Vertebrata c. Jawed Fishes - gill arches - evolved to jaws - increase feeding
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II. Animal Diversity 3. Vertebrata c. Jawed Fishes - gill arches - evolved to jaws - increase feeding - priority on locomotion
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II. Animal Diversity 3. Vertebrata c. Jawed Fishes - gill arches - evolved to jaws - increase feeding - priority on locomotion - Cephalization
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II. Animal Diversity 3. Vertebrata c. Jawed Fishes - Placoderms(extinct – survived to Permian) dominant predators paired appendages for swimming
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II. Animal Diversity 3. Vertebrata c. Jawed Fishes - Placoderms(extinct – survived to Permian) - Cartilaginous fish (Class: Chondrichthyes) also efficient paired fins - sharks - skates, rays - ratfish
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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)
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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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Ichthyostegids
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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
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II. Animal Diversity 3. Vertebrata e. Reptiles - amniotic egg with shell - kidney to produce concentrated urine
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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
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II. Animal Diversity 3. Vertebrata f. Birds: evolved over 200 mya ago
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II. Animal Diversity 3. Vertebrata f. Birds - feathers – homeothermy and flight
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II. Animal Diversity 3. Vertebrata f. Birds - feathers – homeothermy and flight - “one way” lung – more efficient
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II. Animal Diversity 3. Vertebrata g. Mammals:
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II. Animal Diversity 3. Vertebrata g. Mammals: - evolved over 200 mya ago, too (remember from what?)
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II. Animal Diversity 3. Vertebrata g. Mammals: - evolved over 200 mya ago, too - hair (homeothermy)
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II. Animal Diversity 3. Vertebrata g. Mammals: - evolved over 200 mya ago, too - hair (homeothermy) - nurse young (increase survival of young)
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II. Animal Diversity 3. Vertebrata g. Mammals: - evolved over 200 mya ago, too - hair (homeothermy) - nurse young (increase survival of young) - Development: lay eggs (Monotremes)
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II. Animal Diversity 3. Vertebrata g. Mammals: - evolved over 200 mya ago, too - hair (homeothermy) - nurse young (increase survival of young) - Development: lay eggs (Monotremes) embryo born, nursed (Marsupials)
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II. Animal Diversity 3. Vertebrata g. Mammals: - evolved over 200 mya ago, too - hair (homeothermy) - nurse young (increase survival of young) - Development: lay eggs (Monotremes) embryo born, nursed (Marsupials) develop to independence (Placentals)
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