Formation Of Sedimentary Rocks PDF

Summary

This document provides an overview of sedimentary rocks, including their formation through processes such as weathering, erosion, and lithification. It also discusses different types of sedimentary rocks, their features, and evidence of past life. The content is suitable for a secondary school level earth science curriculum.

Full Transcript

24/10/20

Chapter 6
Section 1 & 2

How are sedimentary rocks
formed?

1
 24/10/20

How can the different types of clastic
sedimentary rocks be described?

Weathering and Erosion
Sediments are small pieces of rock that are moved and deposited by water,
wind, glaciers, and gravity.

Copyright © McGraw-Hill Education Formation of Sedimentary Rocks

2
 24/10/20

Weathering and Erosion
Weathering
Chemical weathering occurs when the minerals in a rock are dissolved or
otherwise chemically changed.
During physical weathering, minerals remain chemically unchanged. Rock
fragments break off of the solid rock along fractures or grain boundaries.

Copyright © McGraw-Hill Education Formation of Sedimentary Rocks

Weathering and Erosion
Weathering
When exposed to both chemical and physical weathering, granite eventually
breaks apart and might look like this decomposed granite.

Copyright © McGraw-Hill Education Formation of Sedimentary Rocks

3
 24/10/20

Weathering and Erosion
Erosion
The removal and transport of sediment is called erosion.
The four main agents of erosion are wind, moving water, gravity, and glaciers.

Copyright © McGraw-Hill Education Formation of Sedimentary Rocks

Weathering and Erosion
Erosion
After rock fragments and sediments have been weathered out of the rock, they
often are transported to new locations through erosion. Eroded material is
almost always carried downhill.

Copyright © McGraw-Hill Education Formation of Sedimentary Rocks

4
 24/10/20

Weathering and Erosion
Deposition
Deposition occurs when transported sediments are deposited on the ground
or sink to the bottom of a body of water, forming layers with the largest grains
of sediment at the bottom.

Copyright © McGraw-Hill Education Formation of Sedimentary Rocks

Weathering and Erosion
Energy of transporting agents
As moving water slows down, some sediment deposits are sorted into
layers of different-sized particles. The largest particles settle out first, then
the next largest, and so on.

Copyright © McGraw-Hill Education Formation of Sedimentary Rocks

5
 24/10/20

Weathering and Erosion
Energy of transporting agents
Wind can move only small grains, so sediment deposits made by wind are
usually fine and well-sorted.
Some sediment deposits contain particles of all sizes because they are
dumped in unsorted piles when, for example, a glacier melts or there is a
landslide.

Copyright © McGraw-Hill Education Formation of Sedimentary Rocks

Lithification
As more sediment is deposited in an area, the bottom layers are subjected to
increasing pressure and temperature. These conditions cause lithification, the
physical and chemical processes that transform sediments into sedimentary
rocks.

Copyright © McGraw-Hill Education Formation of Sedimentary Rocks

6
 24/10/20

Lithification
Compaction
Lithification begins with compaction.
The weight of overlying sediments
forces the sediment grains closer
together, causing physical changes.

Copyright © McGraw-Hill Education Formation of Sedimentary Rocks

Lithification
Cementation
Cementation occurs when dissolved minerals precipitate out of groundwater
and their growth glues sediment grains together into solid rock.

Copyright © McGraw-Hill Education Formation of Sedimentary Rocks

7
 24/10/20

Sedimentary Features
Bedding
The primary feature of sedimentary rock is horizontal layering called bedding,
which results from the way sediment settles out of water or wind.
Bedding in which the particle sizes become progressively heavier and coarser
toward the bottom layers is called graded bedding.

Copyright © McGraw-Hill Education Formation of Sedimentary Rocks

Sedimentary Features
Bedding
Cross-bedding is formed as inclined layers of sediment are deposited across a
horizontal surface.

Copyright © McGraw-Hill Education Formation of Sedimentary Rocks

8
 24/10/20

Sedimentary Features
Ripple marks
When sediment is moved into small ridges by wind or wave action or by a river
current, ripple marks form.

Copyright © McGraw-Hill Education Formation of Sedimentary Rocks

Visualizing Cross-Bedding and Ripple Marks
Moving water and loose sediment result in the formation of sedimentary
structures such as cross-bedding and ripple marks.

Copyright © McGraw-Hill Education Formation of Sedimentary Rocks

9
 24/10/20

Sedimentary Features
Evidence of past life
Fossils are the preserved remains, impressions, or any other evidence of
once-living organisms.

During lithification, parts of an organism can be replaced by minerals and
turned into rock, such as shells that have been mineralized.

Copyright © McGraw-Hill Education Formation of Sedimentary Rocks

Sedimentary Features
Angular vs. rounded
As sediment is transported, pieces that began with an angular shape knock into
each other and become rounded as their edges are broken off.

Copyright © McGraw-Hill Education Formation of Sedimentary Rocks

10
 24/10/20

Clastic Sedimentary Rocks
The most common sedimentary rocks, clastic sedimentary rocks, are
formed from the abundant deposits of loose sediments that accumulate on
Earth’s surface.
Clastic refers to rock and mineral fragments produced by weathering and
erosion. These rocks are further classified according to the sizes of their
particles.

Copyright © McGraw-Hill Education Types of Sedimentary Rocks

Clastic Sedimentary Rocks
Coarse-grained rocks
Sedimentary rocks consisting of gravel-sized rock and mineral fragments are
classified as coarse-grained rocks.

Copyright © McGraw-Hill Education Types of Sedimentary Rocks

11
 24/10/20

Clastic Sedimentary Rocks
Coarse-grained rocks
Conglomerates have rounded, gravel-sized particles.
Breccias are composed of angular, gravel-sized particles.

Copyright © McGraw-Hill Education Types of Sedimentary Rocks

Clastic Sedimentary Rocks
Medium-grained rocks
Sedimentary rocks that contain sand-sized rock and mineral fragments are
classified as medium-grained clastic rocks.
Porosity is the percentage of open spaces between grains in a material, such as
rock.

Copyright © McGraw-Hill Education Types of Sedimentary Rocks

12
 24/10/20

Clastic Sedimentary Rocks
Medium-grained rocks
When open spaces between grains in a rock are connected to one another,
fluids can move through porous rock such as sandstone. Sandstone layers can
be valuable as underground reservoirs of oil, natural gas, and groundwater.

Copyright © McGraw-Hill Education Types of Sedimentary Rocks

Clastic Sedimentary Rocks
Fine-grained rocks
Sedimentary rocks consisting of silt- and clay-sized particles are called fine-
grained rocks.
Fine-grained sedimentary rock has low porosity and often forms barriers that
hinder the movement of groundwater and oil.

Copyright © McGraw-Hill Education Types of Sedimentary Rocks

13
 24/10/20

Chemical and Biochemical Sedimentary Rocks
Chemical sedimentary rocks
When the concentration of dissolved minerals in a body of water reaches
saturation, crystals can precipitate out of solution and settle to the bottom. The
resulting layers of chemical sedimentary rocks are called evaporites.

Copyright © McGraw-Hill Education Types of Sedimentary Rocks

Chemical and Biochemical Sedimentary Rocks
Chemical sedimentary rocks
The constant evaporation from a body of salt water results in precipitation of
large amounts of salts.

Copyright © McGraw-Hill Education Types of Sedimentary Rocks

14
 24/10/20

Chemical and Biochemical Sedimentary Rocks
Biochemical sedimentary rocks
Biochemical sedimentary rocks are formed from the remains of once-living
organisms.
The most abundant of this type of rock is limestone, which is composed
primarily of calcite.

Copyright © McGraw-Hill Education Types of Sedimentary Rocks

Chemical and Biochemical Sedimentary Rocks
Biochemical sedimentary rocks
After the death of organisms that used calcium carbonate to make their shells,
the shells settle to the bottom of the ocean and can form thick layers of
carbonate sediment.
During burial and lithification of the carbonate sediment formed from the shells
of once-living organisms, calcium carbonate precipitates out of the water,
crystallizes between the grains of carbonate sediment, and forms limestone.

Copyright © McGraw-Hill Education Types of Sedimentary Rocks

15
 24/10/20

Sedimentary Identify
Group of three
1. Carefully observe the following characteristics of each rock:
1. Grain Size
2. Color
3. Rounded or Angular pieces

2. Design a data table to record your observations.

3. With you data answer
Which group

Classify

Compare and contrast your samples using the data from the data table.
1. How are Sedimentary rocks different from Igneous?
2. What characteristics do each of the groups share?

Speculate Which process do you think these rocks were formed compaction or cementation.

Homework

Read Chapter 6 Section 3

Before You Leave!!
Hand ins:
Nothing for today

16