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Chapter 32 Introduction to Animal Evolution. Chapter 32 Introduction to Animal Evolution. What is an animal?. Chapter 32 Introduction to Animal Evolution. What is an animal?. multicellular. Chapter 32 Introduction to Animal Evolution. What is an animal?. multicellular. heterotrophic.
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Chapter 32Introduction to Animal Evolution What is an animal?
Chapter 32Introduction to Animal Evolution What is an animal? multicellular
Chapter 32Introduction to Animal Evolution What is an animal? multicellular heterotrophic
Chapter 32Introduction to Animal Evolution What is an animal? multicellular heterotrophic eukaryotes
Chapter 32Introduction to Animal Evolution What is an animal? multicellular heterotrophic eukaryotes ingest their food
Chapter 32Introduction to Animal Evolution What is an animal? multicellular heterotrophic eukaryotes ingest their food no cell walls
Chapter 32Introduction to Animal Evolution What is an animal? multicellular heterotrophic eukaryotes ingest their food no cell walls nervous tissue
Chapter 32Introduction to Animal Evolution What is an animal? multicellular heterotrophic eukaryotes ingest their food no cell walls nervous tissue muscle tissue
Chapter 32Introduction to Animal Evolution What is an animal? multicellular heterotrophic eukaryotes ingest their food no cell walls nervous tissue muscle tissue blastula stage
Chapter 32Introduction to Animal Evolution What is an animal? multicellular heterotrophic eukaryotes ingest their food no cell walls nervous tissue muscle tissue blastula stage gastrula stage
What is an animal? Chapter 32Introduction to Animal Evolution multicellular heterotrophic eukaryotes ingest their food no cell walls nervous tissue muscle tissue blastula stage gastrula stage embryonic tissue layers
What is an animal? Chapter 32Introduction to Animal Evolution multicellular heterotrophic eukaryotes ingest their food no cell walls nervous tissue muscle tissue blastula stage gastrula stage embryonic tissue layers Hox genes
What is an animal? Chapter 32Introduction to Animal Evolution multicellular heterotrophic eukaryotes ingest their food no cell walls nervous tissue muscle tissue blastula stage gastrula stage embryonic tissue layers Hox genes
What is an animal? Chapter 32Introduction to Animal Evolution multicellular heterotrophic eukaryotes ingest their food no cell walls nervous tissue muscle tissue blastula stage gastrula stage embryonic tissue layers Hox genes Animals probably evolved from a colonial, flagellated protist.
What is an animal? Chapter 32Introduction to Animal Evolution multicellular heterotrophic eukaryotes ingest their food no cell walls nervous tissue muscle tissue blastula stage gastrula stage embryonic tissue layers Hox genes Animals probably evolved from a colonial, flagellated protist.
Phylogenetic trees are always being revised. Chapter 32Introduction to Animal Evolution
Science is different from other ways of knowing Even our most cherished ideas in science are probationary Ideas can be falsified through experiments or observation The more testing a hypothesis withstands, the more credible it is It’s all about the evidence. Chapter 32Introduction to Animal Evolution
The old system: Chapter 32Introduction to Animal Evolution Ancestral colonial choanoflagellate
The old system: Chapter 32Introduction to Animal Evolution No true tissues True tissues Ancestral colonial choanoflagellate
The old system: Chapter 32Introduction to Animal Evolution No true tissues True tissues Ancestral colonial choanoflagellate
The old system: Chapter 32Introduction to Animal Evolution Radial symmetry Bilateral symmetry No true tissues True tissues Ancestral colonial choanoflagellate
The old system: Chapter 32Introduction to Animal Evolution Radial symmetry Bilateral symmetry No true tissues True tissues Ancestral colonial choanoflagellate
The old system: Chapter 32Introduction to Animal Evolution No body cavity Body cavity Radial symmetry Bilateral symmetry No true tissues True tissues Ancestral colonial choanoflagellate
The old system: Chapter 32Introduction to Animal Evolution No body cavity Body cavity Radial symmetry Bilateral symmetry No true tissues True tissues Ancestral colonial choanoflagellate
The old system: Chapter 32Introduction to Animal Evolution Protostome Deuterostome No body cavity Body cavity Radial symmetry Bilateral symmetry No true tissues True tissues Ancestral colonial choanoflagellate
The old system: Chapter 32Introduction to Animal Evolution Protostome Deuterostome No body cavity Body cavity Radial symmetry Bilateral symmetry No true tissues True tissues Ancestral colonial choanoflagellate
The old system: Chapter 32Introduction to Animal Evolution Protostome Deuterostome No body cavity Body cavity Radial symmetry Bilateral symmetry No true tissues True tissues Ancestral colonial choanoflagellate
The old system: Chapter 32Introduction to Animal Evolution Protostome Deuterostome No body cavity Body cavity Radial symmetry Bilateral symmetry No true tissues True tissues Ancestral colonial choanoflagellate
The old system: Chapter 32Introduction to Animal Evolution Protostome Deuterostome No body cavity Body cavity Radial symmetry Bilateral symmetry No true tissues True tissues Ancestral colonial choanoflagellate
The old system: Chapter 32Introduction to Animal Evolution Protostome Deuterostome No body cavity Body cavity Radial symmetry Bilateral symmetry No true tissues True tissues Ancestral colonial choanoflagellate
The old system: Chapter 32Introduction to Animal Evolution Protostome Deuterostome No body cavity Body cavity Radial symmetry Bilateral symmetry No true tissues True tissues Ancestral colonial choanoflagellate
The old system: Chapter 32Introduction to Animal Evolution Protostome Deuterostome No body cavity Body cavity Each of the four main branches divides the tree into grades based on body plan. Radial symmetry Bilateral symmetry No true tissues True tissues Ancestral colonial choanoflagellate
The old system: Chapter 32Introduction to Animal Evolution Protostome Deuterostome No body cavity Body cavity Radial symmetry Bilateral symmetry Molecular evidence has rearranged the branches. No true tissues True tissues Ancestral colonial choanoflagellate
The new system: Chapter 32Introduction to Animal Evolution Protostome Deuterostome No body cavity Body cavity Radial symmetry Bilateral symmetry Molecular evidence has rearranged the branches. No true tissues True tissues Ancestral colonial choanoflagellate
The new system: Chapter 32Introduction to Animal Evolution Protostome Deuterostome Radial symmetry Bilateral symmetry Molecular evidence has rearranged the branches. No true tissues True tissues Ancestral colonial choanoflagellate
The new system: Chapter 32Introduction to Animal Evolution Deuterostome Protostome Radial symmetry Bilateral symmetry Molecular evidence has rearranged the branches. No true tissues True tissues Ancestral colonial choanoflagellate
The new system: Chapter 32Introduction to Animal Evolution Lophotrochozoa (tentacles) Ecdysozoa (exoskeletons) Deuterostome Protostome Radial symmetry Bilateral symmetry Molecular evidence has rearranged the branches. No true tissues True tissues Ancestral colonial choanoflagellate
Most animal phyla originated in the “Cambrian explosion” between 525 million and 565 million years ago. Chapter 32Introduction to Animal Evolution
Most animal phyla originated in the “Cambrian explosion” between 525 million and 565 million years ago. Evolution was so fast during that period that it is difficult to sort out the history. Chapter 32Introduction to Animal Evolution
Causes of the Cambrian explosion: Chapter 32Introduction to Animal Evolution
Causes of the Cambrian explosion: Ecological: Chapter 32Introduction to Animal Evolution
Causes of the Cambrian explosion Ecological: The development of predator-prey relationships Chapter 32Introduction to Animal Evolution
Causes of the Cambrian explosion Ecological: The development of predator-prey relationships Geological: Chapter 32Introduction to Animal Evolution
Causes of the Cambrian explosion Ecological: The development of predator-prey relationships Geological: Increasing levels of atmospheric oxygen Chapter 32Introduction to Animal Evolution
Causes of the Cambrian explosion Ecological: The development of predator-prey relationships Geological: Increasing levels of atmospheric oxygen Genetic: Chapter 32Introduction to Animal Evolution
Causes of the Cambrian explosion Ecological: The development of predator-prey relationships Geological: Increasing levels of atmospheric oxygen Genetic: Changes in the Hox genes which control embryonic development. Chapter 32Introduction to Animal Evolution
Three Germ Layers and the Coelom Chapter 32Introduction to Animal Evolution
Chapter 32Introduction to Animal Evolution acoelomate pseudocoelomate coelomate protostome coelomate deuterotostome