1 / 24

The History of Life: Fossil Record & Evolutionary Patterns

Learn about the fossil record and how it provides evidence of the history of life on Earth. Explore techniques like relative and radioactive dating to determine the age of fossils. Discover the geological time scale, the origin of life, the evolution of eukaryotic cells, and the diversification of multicellular life forms. Dive into the Cambrian, Devonian, and Mesozoic periods, and understand the patterns of macroevolution, including mass extinctions, adaptive radiation, and punctuated equilibrium.

drucillaw
Download Presentation

The History of Life: Fossil Record & Evolutionary Patterns

An Image/Link below is provided (as is) to download presentation Download Policy: Content on the Website is provided to you AS IS for your information and personal use and may not be sold / licensed / shared on other websites without getting consent from its author. Content is provided to you AS IS for your information and personal use only. Download presentation by click this link. While downloading, if for some reason you are not able to download a presentation, the publisher may have deleted the file from their server. During download, if you can't get a presentation, the file might be deleted by the publisher.

E N D

Presentation Transcript

  1. The History of Life Chapter 19

  2. The Fossil record • Palentologists study fossils • These records provided evidence about the history of life on earth • It shows that different organisms have changed over time • Some even became extinct

  3. Interpreting Fossil Evidence • Relative dating- used to determine the age of a fossil • You compare the fossil’s placement in the rock layer with other fossils in the rock • The rock layers are formed by age with the oldest on the bottom

  4. Index fossil • Can be used if the species is easily recognized and existed for a short period but have a wide geographic range

  5. Radioactive dating • Scientists calculate the age of a sample based ion the amount of remaining radioactive isotopes it contains • The half life is the minimum amount of time it takes for half of a radioactive element to decay

  6. Geological time scale • Used to divide time • After precambrian time, the basic divisions of the geological time scale are eras, periods, and epochs

  7. eras • Paleozoic era- 544 million years ago, vert and invert • Mesozoic- 251 million yrs ago, dino and mammals • Cenozoic- 65 million yr ago, mammal age

  8. Periods and epochs • Period range in length from 10 million years to less than 2 million years • Further divide periods into epochs

  9. Earths Early History • Formation of the earth occurred 8.2 billion years ago • Its early atmosphere contained hydrogen cyanide, carbon dioxide, carbon monoxide, nitrogen, hydrogen sulfide, and water

  10. First organic molecules • Miller and Urey did an experiment which suggested how mixture of compounds could have arisen from simplier compounds present on primitive earth

  11. How Did Life begin? • 1. formation of microspheres • 2. evolution of RNA and DNA • 3. free oxygen in air drove some life forms to extinction and evolved others

  12. Origin of Eukaryotic Cells • The endosymbiotic theory proposes that eukaryotic cells arose from living communities formed by several organisms • After eukaryotic cells arose, those cells began to reproduce sexually • This enabled evolution to take place at a greater rate

  13. Evolution of multicellualr life forms • 90% of Earth’s history occurred during Precambrian • Simple anaerobic forms appeared and were followed by photosyntheitc forms which added oxygen to the air • Aerobic forms evolved and eukaryotes appeared • Early in Paleozoic era the fossil record became rich with evidence of many types of marine life • Life was highly diverse by the first part of Paleozoic era

  14. Cambrian Period • This is when diversification of life occurred • Organisms had hard part and first animilia phyla evolved • Trilobites were common

  15. Ordovician and silurian periods • Octopus and squid ancestors appeared along with aquatic arthropods

  16. Devonian period • Animals began to invade the land • Fish developed the ability to crawl on leglike fins • Fish had jaws, bony skeletons, and scales

  17. Carboniferous and permian period • Life expanded over the earth’s continents • Other groups of vert evolved from amphibians • Mass extinction occurred at the end of the Paleozoic era • It affects both plants and animals on land and on sea • 95% of the complex life in the ocean disappeared

  18. Mesozoic era • Increase dominance of the dinosaurs • 1. triassic period-fish, reptiles insects • 2. jurassic period-dinosaurs dominant • 3. cretaceous period-reptiles still dominated, but another mass extinction occurred

  19. Cenozoic era • Mammals evolved adaptations that allowed them to live in various environments

  20. Patterns of evolution • Macroevolution- large scale change that take place over a long time • There are 6 important patterns to macroevolution: • 1. mass extinction • 2. adaptive radiation • 3. convergent evolution • 4. coevolution • 5. punctuated equilibrium • 6. changes in developmental genes

  21. Mass extinction • Causes food webs to collapse

  22. Adaptive radiation • Unrelated organisms come to resemble one another

  23. coevolution • The process by which 2 species evolve in response to changes in each other over time • Ex flowering plants

  24. Punctuated equilibrium • Patterns of long stable periods interrupted by brief periods of more rapid change

More Related