Source: Earth PD http://bit.ly/1ESoBKp Big Bang PD http://bit.ly/18m7uVX Early Earth CC http://bit.ly/17VRBFI Atmosphere PD http://bit.ly/1FJ8GkJ Earth PD http://bit.ly/1ESoBKp
Hi. I'm Jensen Morgan. We're going to talk about some great concepts in environmental science. Today's topic is Earth's Formation, so let's get started. We're going to talk about the history of the earth's formation, what the earth was like before life forms, and what it was like once early life forms began to appear. According to Big Bang theory, the universe came into existence 13.8 billion years ago. After that, approximately 4.5 billion years ago, our solar system, sun, and earth came into existence. It wasn't until 3.8 billion years ago that life first appeared on Earth.
If all of that history were compressed into a single year, it would look something like this. The Big Bang would happen January 1 at the stroke of midnight. Eight months later, our solar system would have formed. And by September, life would have started appearing on Earth. Then on the 31st of December at 11:54 PM, the first of the homo sapiens would have emerged. Humans have only been around for the last six minutes at this scale, and the human practice of agriculture only appeared in the last 12 seconds.
From about 3.8 to 4.5 billion years ago, the earth existed without any life forms. It was a planet filled with intense volcanic activity and frequent bombardment from meteorites. The entirety of Earth was incredibly hot as a result of the heat generated from its formation. The high temperatures were probably not conducive to any forms of life. During this time, the earth's surface and core were cooling. Today, the surface is significantly cooler, but the earth's core is still molten iron and nickel.
During this time period, the earth's atmosphere contained no free oxygen. What it did consist of was water, CO2, sulfur dioxide, carbon monoxide, sulfide, chloride, nitrogen, hydrogen, and ammonia. This combination of gases was favorable for later formation of life due to the chemical bonds and chemical processes this combination of gases can create. During this time period, there was a lot of lightning energy and UV radiation, which provided the energy required for early molecule formation.
Finally, starting at about 3.8 billion years ago, a few early life forms developed the capacity of photosynthesis, which began to produce free oxygen. Over time, this saturated Earth's oceans and atmosphere until it reached a concentration of 20% oxygen, which is what we currently have today. Many of those early life forms, however, died out because the new oxygen concentration became a toxin for many species. Because oxygen is not conducive to forming chemical bonds, early life most likely evolved in a low-oxygen environment.
Humans live in a layer of atmosphere called the troposphere. But just above that is the stratosphere, which contains what eventually became our ozone layer as free oxygen levels increased and reacted with the UV radiation from the sun to create O3, also called ozone. This new ozone layer protected the earth's surface from certain types of UV radiation by absorbing it, which allowed early life forms to survive and evolve on land. Now let's have a recap. We talked about the history of our earth's formation, what the earth was like before life forms, and what it was like as early life forms began to appear. Well, that's all for this tutorial. I hope these concepts have been helpful, and I look forward to next time. Bye.