1 / 20

The History of Life

The History of Life. Chapter 17 – Miller · Levine. Fossils. Paleontologists – scientists who study fossils Infer what past life forms were like Classify fossil organisms Fossil record – information about past life Provides evidence about the history of life on Earth

Download Presentation

The History of Life

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 17 – Miller · Levine

  2. Fossils • Paleontologists – scientists who study fossils • Infer what past life forms were like • Classify fossil organisms • Fossil record – information about past life • Provides evidence about the history of life on Earth • Shows how different groups of organisms have changed over time

  3. How Fossils Form • Either the remains of the organism or some trace of its presence must be preserved • Most fossils form in sedimentary rock • An imprint of soft parts can be made • The hard parts can become mineralized • Can be preserved in rock, ice, amber, tar, etc.

  4. Relative Dating • The age of a fossil is determined by comparing its placement with that of fossils in other layers of rock • Older fossils will be in the bottom layers • More recent fossils will be in the upper layers • Index fossils – fossils of species that existed for a short period but had a wide range • Allows paleontologists to estimate a fossil’s age compared with that of other fossils

  5. Relative Dating

  6. Radioactive Dating • Scientists use radioactive decay to assign absolute ages to rocks • Calculate the age of a sample based on the amount of remaining radioactive isotopes it contains • Half-life – the length of time required for half of the radioactive atoms in a sample to decay

  7. Geologic Time Scale • Precambrian Time – covers about 88% of Earth’s history • Paleozoic Era – many vertebrates and invertebrates • Mesozoic Era – “Age of the Dinosaurs” • Mammals evolved • Cenozoic Era – “Age of Mammals” • Eras are subdivided into periods

  8. Geologic Time Scale

  9. Formation of Earth • Pieces of cosmic debris were probably attracted to one another • The early atmosphere probably contained hydrogen cyanide, carbon dioxide, carbon monoxide, nitrogen, hydrogen sulfide, and water • Violent volcanic activity, comets and asteroids bombarded the surface, oceans did not exist • About 3.8 billion years ago, Earth’s surface cooled enough for oceans to form

  10. How Did Life Begin? • The first organic molecules were able to form because of the atmosphere being bombarded by electricity (lightning) • RNA probably evolved before DNA

  11. The Rise of Oxygen… • The first life forms must have evolved in the absence of oxygen (anaerobic prokaryotes) • Over time, photosynthetic bacteria evolved, adding oxygen to the atmosphere • The ozone layer formed • The rise of oxygen caused some life forms to go extinct while other organisms evolved

  12. Endosymbiotic Theory • Prokaryotic organisms entered the “ancestral eukaryote” • Formed a symbiotic relationship • Some had the ability to perform respiration – became modern mitochondria • Others could perform photosynthesis – became the modern chloroplasts

  13. Endosymbiotic Theory

  14. Macroevolution • Large scale evolutionary changes that take place over long periods of time • Mass extinctions • Adaptive radiation • Convergent evolution • Coevolution • Punctuated equilibrium

  15. Mass Extinctions • Extinction occurs all the time • More than 99% of all species that have ever lived are now extinct • Mass extinctions occur when large numbers of species go extinct in a relatively short period of time • Most mass extinctions were probably caused by multiple factors • Usually followed by mass speciation

  16. Adaptive Radiation • A single species or a small group of species has evolved into several different forms that live in different ways • Also known as divergent evolution • Often caused by geographic isolation – geological change (river, canyon, or mountain) that isolates segments of a population

  17. Adaptive Radiation

  18. Convergent Evolution • Adaptive radiation in groups of different organisms in different places or at different times, but in similar environments • Unrelated organisms resemble one another • Analogous structures – look and function similarly but do not share a common ancestry • Fins of dolphins, seals, penguins, sharks

  19. Coevolution • Sometimes organisms that are closely connected to one another evolve together • An evolutionary change in one organism may be followed by a corresponding change in another organism • Snails developed thicker shells, so crabs evolved stronger claws • Plants produce poisonous chemicals, herbivores evolved the ability to detoxify these chemicals

  20. Gradualism vs. Punctuated Equilibrium • Gradualism – biological change is a slow and steady process • Punctuated equilibrium – long, stable periods interrupted by brief periods of more rapid change

More Related