Chordates

1. Chordates Chapters 30-34

2. What have we learned so far… • Kingdom Eubacteria • Kingdom Archaebacteria • Kingdom Protista • Kingdom Fungi • Kingdom Plantae • Kingdom Animalia • Invertebrates • Vertebrates (Chordates) So what’s next…?

3. Recall the evolution of living organisms… Chordates!

4. What is a chordate? • Members of the phylum Chordata must have the following four characteristics at some point during their life cycle: • A dorsal, hollow nerve cord • A notochord • Pharyngeal pouches • A tail that extends beyond the anus

5. The Chordate Family Tree

6. How did chordates evolve? • Adaptive Radiation • Rapid species diversity as they adapt to new conditions • Convergent Evolution • When unrelated species encountered similar environments and evolved similar adaptations • Ex: flying vertebrates  birds (aves) and bats (mammals)

7. Chordates are diverse! Notice that not all chordates are vertebrates! GASP! How can this be? Whoa… that’s a lot of fish!

8. Chordate Survival Requirements • Controlling body temperature • Feeding • Respiration • Circulation • Excretion • Response • Movement • Reproduction Let’s take a look at these one by one…

9. Controlling Body Temperature • Important for homeostasis…especially in habitats where temperature varies widely • Ectothermy (ectothermic) • Body temperature is mainly determined by environment • Most reptiles, fish and amphibians • Requires less fuel • Endothermy (endothermic) • Body temperature is controlled from within • They can generate and retain heat inside their bodies • Birds and mammals • Requires more fuel Are the terms “cold-blooded” and “warm-blooded” accurate?

10. Feeding • The digestive systems of vertebrates have organs that are well adapted for different feeding habits

11. Feeding • Different chordates eat in different ways!

12. Respiration • As a general rule (meaning there are exceptions): • Aquatic chordates use gills for respiration • Land vertebrates use lungs for respiration

13. Circulation • Maintain homeostasis by transporting materials throughout animals’ bodies • Single-Loop Circulatory System • Found in chordates with gills • Heart  Gills  Body  Heart • Double-Loop Circulatory System • Found in chordates with lungs • 1st loop: Heart  Lungs  Heart • 2nd loop: Heart  Body  Heart

14. Circulation • Heart Chambers • During chordate evolution, the heart developed chambers and partitions that help separate oxygenated and deoxygenated blood traveling in the circulatory system

15. Excretion • Eliminates nitrogenous wastes from the body • Nitrogenous wastes come from the break down of proteins • Kidneys filter blood in most vertebrates 15

16. Response • Nonvertebrate chordates have a simple nervous system • Vertebrates have a complex brain with distinct regions, each with a different function 16

17. Movement • Skeletal and muscular systems support a vertebrate’s body and make it possible to control movement • In vertebrates, ligaments connect vertebrae and allow it to bend without falling apart 17

18. Reproduction • Almost all chordates reproduce sexually • Vertebrate evolution moves from external to internal fertilization • After fertilization: • Some eggs develop outside mother’s body (oviparous) • Some eggs develop within the mother’s body and then young are born alive (ovoviviparous) • Some embryos develop within mother’s body and obtain nutrients directly from mother’s body (viviparous) 18