Science Layers of The Earth PDF

Summary

This document provides an overview of the layers of Earth, including Magma, Lava, Upper Mantle, Mantle, Crust, Core, Outer Core, and Inner Core. It details their characteristics and interactions within the overall structure of the Earth.

Full Transcript

Layers of the Earth
Magma
It is an extremely hot liquid and
semi-liquid rock located underneath the
Earth’s surface.

Lava
Lava is a molten or partially molten rock
(magma) ejected by volcanoes in the
form of a liquid outside the Earth’s
surface. The Theory Through the Centuries
1. Edmond Halley
Upper Mantle Halley's model of the Earth's interior
This layer is hard and brittle and is takes the form of a series of hollow
where tectonic plates exist. It is also spheres around a central core. His
fairly plastic. argument was that the exterior of the
Earth has its own magnetic north and
Mantle south pole, but that there must be four
It is molten; flowing freely. poles in total.
It has convections similar to boiling
water. 2. John Cleves Symmes Jr.
The layer between the crust and the In its original form, Symmes’s Hollow
core. Earth theory described the world as
consisting of five (5) concentric spheres,
Crust with our outer Earth and its atmosphere
The thin, hard, outermost layer of the as the largest.
Earth. He argued that due to the centrifugal
force of Earth's rotation, the Earth
Core would be flattened at the poles, leading
The extremely hot, dense center of the to a vast passage into the inner Earth.
Earth.
It is composed mainly of nickel-iron True North
alloy. True north is the direction that points
directly towards the geographic North
Outer Core Pole. This is a fixed point on the Earth's
The liquid iron layer that covers the globe.
inner core.
Continental Crust
Inner Core Thick and divided into tectonic plates.
The solid iron center of the Earth. Consists primarily of granite and gneiss.
Oceanic Crust Continental Drift
Thinner; it is when a new crust is Geologists
formed. People who study Earth’s nature,
behavior, and history.
The Asthenosphere
The supplier of new material for the Abraham Ortelius
lithosphere. The Dutch geographer and cartographer
Consists of the upper mantle. first noted this observation in the late
1960s.
The Lithosphere
Consists of the crust and the uppermost Alfred Lothar Wegener (W pronounced as V)
portion of the mantle. The German meteorologist and
It is divided into several segments called geophysicist proposed the idea of the
tectonic plates. drifting continents in his book “The
Origin of the Continents and Oceans” in
The Mesosphere 1912.
Comprised of the lower mantle. It is
between the asthenosphere and the Pangaea
outer core. A single huge land mass or
The rocks in this layer also behave supercontinent once existed in the
plastically but flow much more slowly distant past.
and rigidly than asthenospheric rocks. A Greek word that means “all lands”.

The MOHO Mesosaurus
Characterized by a drastic increase in An extinct group of aquatic reptiles that
seismic rate. have lived thousands of million years
Discovered by Andrija Mohorivicic. ago.

Compositional Layers Lystrosaurus & Cynognathus
Composed of the crust, mantle, and Two (2) extinct groups of ancient
core. mammal-like reptiles have been found
only in several continents.
Mechanical Layers
Consist of the lithosphere, Glossopteris
asthenosphere, mesosphere, outer An extinct group of seed ferns, have
core, and inner core. been found in Australia, India, South
America, and South Africa. They had
large seeds; thus, it would have been
impossible for the seeds to be carried
away by the wind at considerable
distances across Earth.
 Evidence for Continental Drift Sonar Technology
Fossil Records A modern technique that uses sound
Fossils of similar types of plants and waves to detect and track underwater
animals in rocks of similar age. These vessels, fish, and other objects under
rocks were on the shores of different the ocean.
continents. This suggests that the
continents were once joined. Jigsaw Puzzle
For example, fossils of Mesosaurus, a Alfred Wegener published a theory to
freshwater reptile, have been found explain why the Earth looked like a huge
both in Brazil and western Africa. jigsaw. He believed the continents were
Glacial Striations (i.e., scratches on once joined, forming a supercontinent
bedrocks that were caused by glaciers he called Pangaea. Over 180 million
that were moving downslope). years ago, this supercontinent began to
“break up” due to continental drift.
Geologic Features
The fit of the continents; the Mid-Ocean Ridges
distribution of ancient fossils, rocks, and These are chains of mountain ranges
mountain ranges; and the locations of that are about 3 km above the ocean
ancient climatic zones. floor.
These structures are interconnected
Seafloor Spreading and form the oceanic ridge system,
Observing and measuring magnetic which traverses every major ocean
anomalies that occur around mid-ocean around the globe.
ridges. The magnetic field of the Earth
originates from electrical and magnetic Evidence for Seafloor Spreading
energy that is generated by the Harry Hess
convective energy produced by molten Hess proposed the radical idea that the
iron in the core of the Earth. ocean floor move like a conveyor belt,
which in turn moves the continents.
Rock Magnetism on the Ocean Floor He postulated that a new oceanic
Earth also has magnetic north and lithosphere is being generated at
south poles. mid-ocean ridges through the process
called seafloor spreading.
Geomagnetic Reversal
This means that Earth’s magnetic north Evidence from Molten Material
pole switches positions with its Alvin
magnetic south pole. Scientists used a small submarine called
The present-day orientation of the Alvin to explore the ocean floor.
Earth’s magnetic field is called normal Alvin’s crew found rocks shaped like
polarity, whereas its opposite is called pillows or toothpaste squeezed from a
reverse polarity. tube.
 These rocks showed that molten Microplates
material had erupted many different Mostly located within major plates and
times from cracks along the mid-ocean measure less than 1 million km².
ridge. Ex. Madagascar Plate, Victoria Plate,
Shetland Plate, Capricorn Plate, and
Evidence from Magnetic Stripes Panama Plate.
The Earth is like a giant magnet with a
north and south pole. Plate Boundaries
The Earth’s magnetic poles reversed Active regions on Earth where tectonic
themselves 780,000 years ago. plates interact.
All volcanoes are mountains, but not all
mountains are volcanoes. Types of Plate Boundaries
1. Divergent Boundary
Subduction Zone Regions on Earth where two (2) tectonic
Locations on Earth where the oceanic plates are moving away from each
material of one tectonic plate dives other.
below the material (oceanic or Ex. The Mid-Atlantic Ridge.
continental) of another tectonic plate New oceanic lithosphere is being
into the mantle. constructed at divergent boundaries;
they are also called constructive plate
margins.

2. Convergent Boundary
Regions on Earth where two (2) tectonic
plates are moving toward each other.
Plate Tectonic Theory Ex. Caribbean Islands, Himalayan
This suggests that these plates are Mountains, Andes Mountains, Cascade
constantly moving relative to one Mountains, Appalachian Mountains,
another in the processes of plate Aleutian Islands.
construction and destruction. a. Oceanic - Continental
Major plates are estimated to be more Occur when a tectonic plate primarily
than 20 million square kilometers (km²). composed of oceanic lithosphere
Minor plates measure between 1 and collides with a plate with continental
20 million km². lithosphere.
b. Oceanic - Oceanic
 A collision between two (2) plates Destructive Plate Margins or Subduction Zones
composed of oceanic lithosphere. The lithosphere is being destroyed in
c. Continental - Continental these regions.
Occur when two (2) continental plates
move towards each other. Island Arcs
Magma rises toward the surface of the
continental plate, forming curve chains
of volcanoes.

Activities Along Plate Boundaries
Earthquakes
These are violent shakings of the Earth’s
surface that are caused by the sudden
release of stored energy in rocks.

Focus
3. Transform Boundary
The point from which an earthquake
Regions on Earth where two (2) plates
originates, whereas epicenter is the
are sliding alongside each other.
point on Earth’s surface directly above
These regions are also called
the focus.
conservative plate margins because the
lithosphere is neither created nor
Volcanoes
destroyed.
These are vents (or openings) in the
The fracture where the plates meet is
crust through which magma escapes to
called transform fault.
reach Earth’s surface.
Ex. The San Andreas Fault and Queen
Charlotte Fault.
Pacific Ring of Fire
A path along the Pacific Ocean that
contains about 75% of the Earth’s
volcanoes and where approximately
90% of the Earth’s earthquakes occur.
This outlines a series of overlapping
boundaries (mostly convergent)
between several tectonic plates such as
Constructive Plate Margins the Eurasian Plate, Pacific Plates,
Where a new oceanic lithosphere is Indo-Australian Plate, North American
being constructed at divergent Plate, Juan de Fuca Plate, Cocos Plate,
boundaries, and it takes 2-3 years. and Philippine Plate.
 Ridge Push
Gravity then causes the elevated
lithosphere to apply a downslope force
that pushes the two (2) plates away
from the ridge.
The process also pushes away the older
part of the lithosphere that lies farther
from the ridge.

Evidence for Plate Tectonics
Tsunami
Hot Spots
A series of large ocean waves that forms
An area within the mantle where rocks
when a sudden vertical crustal
melt because of the intense heat that is
movement in the ocean floor displaces
coming from an underlying mantle
a huge volume of overlying water.
plume.
Tsunami waves travel in all directions
Mantle Plume is a cylindrical column of
away from the earthquake zone.
magma that originates deep within the
mantle.
Driving Mechanisms of Plate Motion
Geophysical evidence and laboratory
Global Positioning System (GPS)
experiments led geologists to postulate
A radio navigation system that uses
three (3) driving mechanisms of plate
satellite signals to allow users to track
motion: mantle convection, slab pull,
their exact location anywhere on Earth.
and ridge push.
Trilateration is a method of locating the
absolute position of a specific point by
Mantle Convection
measuring distances using geometric
Mantle convection is driven by heat,
spheres.
whereas slab pull and ridge push are
both driven by gravity.
Convection is a process of heat transfer
by which dense materials sink and less
Climate Change & Global Warming
dense materials rise.
Climate Change
The change in Earth’s climate system
Slab Pull
that results in new, long-term weather
As the slab or leading edge of the plates
patterns.
sink, its weight pulls the rest of the
plate behind it.
Global Warming
Recent studies suggest that slab pull is
A significant aspect of climate change as
the main driving mechanism of plate
it is the long-term increase in the
motion because plates that are at the
average temperatures of Earth’s climate
advanced stage of subduction move
system.
fastest.
Earth’s Atmosphere ➔ Regional Climate Change: Leads to
A mixture of different gasses, primarily droughts, floods, or other extreme
of nitrogen (78%) and oxygen (21%). weather events.
The remaining 1% are called trace gases ➔ Ozone Depression: Increase chlorine’s
because they exist in significantly low effectiveness at destroying ozones.
concentrations in the atmosphere.
Examples of trace gases include carbon Temporary Solution
dioxide, methane, nitrous oxide, and The cooling effect of sulfate aerosols is a
water vapor. temporary solution.
Ex. Mt. Pinatubo erupted in 1991
Influence of Aerosols on Climate ➔ For 2 years, this decreased the global
Aerosols surface temperature by about 0.6°C.
Fine liquid and solid particles that are Mt. Pinatubo erupted again in 1994
suspended in the air. ➔ The global surface temperatures
Ex. Dust, volcanic ash, black carbon, remained at higher levels.
smoke, salt particles, and sulfuric acid.
Major Source: Ocean Common Factor: Carbon Dioxide
Other Natural Sources: Dust storms and A potent greenhouse gas, meaning it
volcanic eruptions traps heat in the Earth’s atmosphere.
Aerosols, on the other hand, can only
How does it affect the climate? remain in the atmosphere for a short
Reflect solar radiation back to space. time (up to two (2) years).
Decreasing Earth’s surface
temperatures. Examples of Aerosol
Sulfate Aerosols
Is aerosol good for the Earth? Cooling
For instance, aerosols can scatter Reflect sunlight back into space, causing
incoming sunlight and reduce the a cooling effect.
amount of radiation reaching the It can lead to cooler temperatures.
Earth's surface, which in turn can cool
down the planet. But, on the other side
Black Carbon Volcanic Ash
of the argument, black carbon or brown Warming Cooling
carbon/organic matter can absorb and Ex: Soot
re-emit radiant energy, which can
contribute to global warming. Dust Sea Salt
Warming Cooling
Unintended Consequences
Introducing large amounts of aerosols Soot
into the atmosphere can have Soot getting into ice can accelerate its
unintended consequences, such as: melting.
➔ Acid Rain: Damages forests and aquatic
ecosystems
Greenhouse Gases results in increased precipitation rate
Greenhouse gasses (also known as and coastal flooding.
GHGs) are gasses in the earth's Increase the possibility of drought,
atmosphere that trap heat that cause particularly during the dry season.
climate change. Warmer temperatures can also increase
outbreaks of food-borne diseases due
Greenhouse Effect to the increased rate of spoilage of food
The warming of the atmosphere by and growth of harmful bacteria in food.
trapping heat being radiated to space.
Warm Ocean Water
Human Impact on Global Climate Supplies more energy to tropical
Earth has gone through several changes, storms, creating stronger and more
and many of these are regarded by destructive weather disturbances that
scientists as human-caused or can cause great damage to properties.
anthropogenic changes. Heavy Rainfall
The burning of fossil fuels, such as coal, Can wash out pathogens
natural gas, and petroleum, is the (disease-causing organisms) from
primary cause of increased greenhouse contaminated areas into drinking water
gas concentration in the atmosphere. sources.

Consequences of Global Warming
Some consequences are glacier and sea
ice melting, sea level rise, extreme
precipitation rates and weather
patterns, widespread diseases, and
ecosystem alteration.
It also causes the thermal expansion of
ocean water. Because warm water has a
greater volume than cold water, the
volume of ocean water increases.

Acid Rain
Occurs when aerosols such as sulfate
and nitrate react with water, oxygen,
and other chemicals, and form acidic
compounds.
It has harmful effects on living things
and infrastructures.

Warmer Temperatures
Lead to high evaporation rates of
surface water which consequently