1. Beginings

2. Introduction
Earth formed 4.6 billion years ago, and life first appeared about 4 billion years ago.
The first life forms were microscopic, single-celled organisms.
From these simple beginnings, evolution (change over time), gradually produced the vast complexity and diversity of life today.

3. The evolution of life on Earth wasn’t always smooth and steady—far from it
Living things had to cope with some astounding changes.
Giant meteorites struck Earth’s surface.
Continents drifted and shifted.
Ice ages buried the planet in snow and ice for millions of years at a time.
At least five times, many, if not most, of Earth’s living things went extinct. Extinction occurs when a species completely dies out and no members of the species remain.

4. But life on Earth was persistent.

5. This timeline shows the history of life on Earth.

6. Earth in a Day
It’s hard to grasp the vast amounts of time since Earth formed and life first appeared on its surface. Humans would have appeared only during the last minute of that day. If we are such newcomers on planet Earth, how do we know about the vast period of time that went before us? How have we learned about the distant past?

7. Learning About the Past
In his book On the Origin of Species, Darwin included evidence to show that evolution had taken place. He also made logical arguments to support his theory that evolution occurs by natural selection. Since Darwin’s time a great deal more evidence has been gathered. The evidence includes a huge number of fossils. In fact, much of what we know today about the history of life on Earth is based on the fossil record. Detailed knowledge of modern organisms also helps us understand how life evolved

8. The Fossil Record
Fossils (the preserved remains or traces of organisms that lived long ago) provide clear evidence that evolution has occurred. Scientists who find and study fossils are called paleontologists. The soft parts of organisms almost always decompose quickly after death. On occasion, the hard parts — mainly bones, teeth, or shells—remain long enough to mineralize and form fossils. The fossil record (the record of life that unfolded over four billion years) has been pieced back together through the analysis of fossils.

9. Extinct Lion Fossil This fossilized skeleton represents an extinct lion species. It is rare for fossils to be so complete and well preserved as this one.

10. To be preserved as fossils, remains must be covered quickly by sediments or preserved in some other way.
For example, they may be frozen in glaciers or trapped in tree resin. Sometimes traces of organisms—such as footprints or burrows—are preserved. The conditions required for fossils to form rarely occur. Therefore, the chance of an organism being preserved as a fossil is very low.

11. The photo on the left shows an ancient frog trapped in hardened tree resin, or amber. The photo on the right shows the fossil footprints of a dinosaur.

12. You can watch a video at the following link to see in more detail how fossils form:

13. In order for fossils to “tell” us the story of life, they must be dated. Then they can help scientists reconstruct how life changed over time.
Fossils can be dated in two different ways:
relative dating
absolute dating
Australopithecus fossil named Little Foot, South African and French scientists have now convincingly shown that it is probably around 3 million years old

14. Relative dating determines which of two fossils is older or younger than the other, but not their age in years.
Relative dating is based on the positions of fossils in rock layers.
Lower layers were laid down earlier, so they are assumed to contain older fossils.

15. Relative Dating Using Rock Layers
Relative Dating Using Rock Layers. Relative dating establishes which of two fossils is older than the other. It is based on the rock layers in which the fossils formed.

16. Absolute dating uses the molecular (combination of two or more atoms) amount of carbon-14 or other radioactive element that remains in a fossil to determine about how long ago a fossilized organism lived.
This gives the fossil an approximate age in years.

17. You can learn more about carbon-14 dating by watching the animation at this link:

18. Geologic Time Scale
Another tool for understanding the history of Earth and its life is the geologic time scale. The geologic time scale divides Earth’s history into divisions (such as eons, eras, and periods) that are based on major changes in geology, climate, and the evolution of life. It organizes Earth’s history and the evolution of life on the basis of important events instead of time alone. It also allows more focus to be placed on recent events, about which we know the most.

19. Geologic Time Scale The geologic time scale divides Earth’s history into units that reflect major changes in Earth and its life forms. During which eon did Earth form? What is the present era?

20. THINK LIKE A PALEONTOLOGIST
1. How old is the Earth? How long has there been life on Earth? 2. How do scientists measure the relative age of fossils? How do they measure the exact age of a fossil? 3. How do paleontologists contribute evidence to the theory of evolution?