Geology, What is it?
Geology is the study of the Earth. It includes not only the surface process which have shaped the earth's surface, but the study of the ocean floors, and the interior of the Earth. It is not only the study of the Earth as we see it today, but the history of the Earth as it has evolved to its present condition.
- Important point: The Earth has evolved (changed) throughout its history, and will continue to evolve.
- The Earth is about 4.6 billion years old, human beings have been around for only the
past 2 million years.
- Thus, mankind has been witness to only 0.043% of Earth history.
- The first multi-celled organisms appeared about 700 million years ago. Thus, organisms have only been witness to about 15% of Earth's history.
Thus, for us to have an understanding of the earth upon which we live, we must look at processes and structures that occur today, and interpret what must have happened in the past. One of the major difficulties we have is with the time scale. Try to imagine 1 million years-- That's 50,000 times longer than most of you have lived. It seems like a long time doesn't it? Yet, to geologists, 1 million years is a relatively short period of time. More discussion about time in later lectures. But one thing we have to remember when studying the earth is that things that seem like they take a long time to us, may take only a short time to earth.
Examples:
- A river deposits about 1mm of sediment (mud) each year. How thick is the mud after
100 years? -- 10 cm hardly noticeable over your lifetime.
- What if the river keeps depositing that same 1 mm/yr for 10 million years? Answer 10,000 meters (6.2 miles). Things can change drastically!
Why Study the Earth?
- We're part of it. Dust to Dust. Humans have the capability to make rapid changes.
All construction from houses to roads to dams are effected by the Earth, and thus require
some geologic knowledge. All life depends on the Earth for food and nourishment. The Earth
is there everyday of our lives.
- Energy and Mineral resources that we depend on for our lifestyle come from the Earth. At
present no other source is available.
- Geologic Hazards -- Earthquakes, volcanic eruptions, hurricanes, landslides, could
affect us at any time. A better understanding of the Earth is necessary to prepare for
these eventualities.
- Curiosity-- We have a better understanding of things happening around us. Science in general. I'll try to relate geology (and science in general) to our everyday lives.
Earth Materials and Processes
The materials that make up the Earth are mainly rocks (including soil, sand, silt, dust) . Rocks in turn are composed of minerals. Minerals are composed of atoms,
Processes range from those that occur rapidly to those that occur slowly
- Examples of slow processes
- Formation of rocks
- Chemical breakdown of rock to form soil (weathering)
- Chemical cementation of sand grains together to form rock (diagenesis)
- Recrystallization to rock to form a different rock (metamorphism)
- Construction of mountain ranges (tectonism)
- Erosion of mountain ranges
- Examples of faster processes
- Beach erosion during a storm.
- Construction of a volcanic cone
- Landslides (avalanches)
- Dust Storms
- mudflows
Processes such as these are constantly acting upon and within the Earth to change it. Many of these processes are cyclical in nature.
- Hydrologic Cycle (see figure 1.17b & 1.18 in your text)
- Rain comes from clouds - falls on surface, picks up sand, silt and clay, carries
particles to river and into ocean. Water then evaporates to become clouds, which move over
continents to rain again.
Most surface rocks started out as igneous rocks- rocks produced by crystallization from a liquid. When igneous rocks are exposed at the surface they are subject to weathering (chemical and mechanical processes that reduce rocks to particles). Erosion moves particles into rivers and oceans where they are deposited to become sedimentary rocks. Sedimentary rocks can be buried or pushed to deeper levels in the Earth, where changes in pressure and temperature cause them to become metamorphic rocks. At high temperatures metamorphic rocks may melt to become magmas. Magmas rise to the surface, crystallize to become igneous rocks and the processes starts over.
External Processes
Erosion- rocks are broken down (weathered) into small fragments which are then carried by wind, water, ice and gravity. External because erosion operates at the Earth's surface. The energy source for this process is solar and gravitational.
Internal Processes
Processes that produce magmas, volcanoes, earthquakes and build mountain
ranges. Energy comes from the interior of the Earth, Most from radioactive decay - nuclear
energy.
Principle of Uniformitarianism
Processes that are operating during the present are the same processes
that have operated in the past. i.e. the present is the key to the past. If we look at
processes that occur today, we can infer that the same processes operated in
the past.
Problems:
- Rates -- rates of processes may change over time for example a river might deposit 1 mm
of sediment /yr if we look at it today. but, a storm could produce higher runoff and
carry more sediment tomorrow. Another example: the internal heat of the Earth may have
been greater in the past than in the present -- rates of processes that depend on the
amount of heat available may have changed through time.
- Observations -- we may not have observed in human history all possible processes. Examples: Mt. St. Helens, Size of earthquakes.
Perhaps a better way of stating the Principle of Uniformitarianism is that the laws of nature have not changed through time. Thus, if we understand the physical and chemical laws of nature, these should govern all processes that have taken place in the past, are taking place in the present, and will take place in the future.
Energy
All processes that act on or within the Earth require energy. Energy can exist in many different forms:
- Gravitational Energy -- Energy released when an object falls from higher elevations to
lower elevations.
- Heat Energy -- Energy exhibited by moving atoms, the more heat energy an object has, the
higher its temperature.
- Chemical Energy -- Energy released by breaking or forming chemical bonds.
- Radiant Energy -- Energy carried by electromagnetic waves (light). Most of the
Sun's energy reaches the Earth in this form.
- Atomic Energy -- Energy stored or released in binding atoms together. Most of the energy generated within the Earth comes from this source.
Heat Transfer
Heat Moves through material by the following modes:
- Conduction - atoms vibrate against each other and these vibrations move from high
temperature areas (rapid vibrations) to low temperature areas (slower vibrations).-
Heat from Earth's interior moves through the solid crust by this mode of heat transfer.
- Convection - Heat moves with the material, thus the material must be able to move.
The mantle of the Earth appears to transfer heat by this method, and heat is transferred
in the atmosphere by this mode.
- Radiation - Heat moves with electromagnetic radiation (light) Heat from the Sun or
from a fire is transferred by this mode
Geothermal Gradient
Temperature and pressure increase with depth in the Earth. Near the surface of the Earth the rate of increase in temperature (called the Geothermal Gradient) ranges from 15 to 35oC per kilometer. Temperature at the center of the Earth is about 4500oC
The Earth -- What is it?
The Earth has a radius of about 6371 km, although it is about 22 km larger at equator than at poles.
Internal Structure of the Earth:
Density, (mass/volume), Temperature, and Pressure increase with depth in the Earth.
