Earth Science Week 5

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In some circumstances, the temperature of a deeply buried rock can become so great that the rock starts melting. When this happens, a rock having both igneous and metamorphic features results. This intermediate rock type is called ...

Migmatite

metamorphic mineral assemblage

index minerals sillimanite, kyanite, staurolite, andalusite, and garnet

The increasing heating and pressure, without melt, as a result of burial and/or stress of pre-existing rock, will result in the formation of ...

metamorphic rock

solid-state diffusion (metamorphism due to heat)

movement of atoms or ions through a solid to arrange into a new crystal structurem

shear stress

moves one part of a material sideways relative to another

During mountain building, the deformation resulting at any specific location actually depends on the stress developed at that location. Which of the following kinds of stress takes place when the same push acts on all sides of an object?

pressure

metamorphism due to heat and pressure

pressure and temperature change together as the depth increases

During mountain building, the deformation resulting at any specific location actually depends on the stress developed at that location. Which of the following kinds of stress takes place when a rock is pulled apart?

tension

The Alpine cliff emphasize that during deformation, rocks can undergo one or more of the following

A change in location (displacement); A change in orientation (rotation); A change in shape (distortion).

dome

A fold with the shape of an overturned bowl

when do rocks start to melt?

As you can see from the figure below, the rock will start to melt when temperatures reach about 1200oC (look for the "solidus" line in the figure). But we also know that some minerals start melting way before 1200oC (quartz, for example, start melting at temperatures as low as 600oC ).

What is the name of a rare metamorphic rock that forms under very unusual conditions, very HIGH pressures (corresponding to a depth of 15 to 30 kilometers) and LOW temperatures (between 200 to 400 degrees Celsius)?

Blueschist

"The type of metamorphism that is due to the proximity to a source of heat (magma from an igneous intrusion) without significant change in pressure and without differential stress". This is the definition of ... (mark all that applies)

Correct Answer Contact metamorphism Correct! Thermal metamorphism

Which of the following options are correct regarding the clasts and rock layers in the figure below? (mark all that applies)

Correct Answer The clasts in the rock are equant Correct Answer The sandstone layer is older than the limestone layer Correct Answer The rock layers are undeformed

Dynamic metamorphism

Correct Answer Thermal metamorphism Correct Answer Contact metamorphism

Metamorphic reactions usually take place in the presence of hydrothermal fluids (chemically reactive solutions that can dissolve certain minerals). Which of the following options indicate a role played by hydrothermal fluids during metamorphic reactions?

Correct! Hydrothermal fluids accelerate metamorphic reactions inside the rock Correct Answer Hydrothermal fluids can change the overall chemical composition of a rock during metamorphism Correct! Hydrothermal fluids passing through a rock pick up some ions and drop off others Correct Answer Hydrothermal fluids provide water that is absorbed by minerals during metamorphic reactions

anticlines

Folds that have an arch-like shape in which the limbs dip away from the hinge

Which of the following options are correct regarding the conditions in which metamorphism occurs? (mark all that applies)

Just BEFORE melting takes place BEYOND depths of 2 km down the Earth Generally at temperatures GREATER than 200 degrees centigrades

The figure below is a metamorphic rock called SCHIST, which is formed from ...

NEOcrystallization of micas and garnets in a shale protolith

The formation of metamorphic minerals and textures takes place very slowly and involves several processes, which sometimes occur alone and sometimes together. Which of these metamorphic processes is represented in the figure below?

Pressure solution

In the metamorphic region of the northeastern United States, snowball garnets preserve an important record of the building of the Appalachian Mountains. These Vermont garnets began growing about 380 million years ago, and preserve a record of which of the following geologic events?

The formation of the supercontinent Pangaea

preferred mineral orientation

The metamorphic texture that exists where platy grains lie parallel to one another and/or elongate grains align in the same direction.

exhumation

The process (involving uplift and erosion) that returns deeply buried rocks to the surface.

Metamorphic reactions usually take place in the presence of hydrothermal fluids (chemically reactive solutions that can dissolve certain minerals). Which of the following options are correct regarding the origin of these hydrothermal fluids? (mark all that applies)

They were originally bonded to the minerals in the protolith, before experiencing metamorphism They seeped up into the protolith from a nearby igneous intrusion They seeped down into the protolith from overlying groundwater reservoirs

Schist

a medium- to coarse-grained metamorphic rock that possesses a special type of foliation called schistosity. Schistosity is defined by the preferred orientation of large mica minerals (muscovite and biotite). Like SLATE and PHYLLITE, the protolith of SCHIST (a metamorphic rock) is also SHALE (a sedimentary rock). However, schist forms at a higher temperature than slate and phyllite (we say that schist results from higher grade metamorphism).

Faults are planar deformation features of natural origin on which sliding occurs. Which of the following types of faults is indicated in the figure below?

a normal fault

flexural-slip folds

a stack of layers bends, and slip occurs between the layers

low temperature minerals (felsic)

also called LOW-TEMPERATURE MINERALS because they are the last ones to crystallize (and the first ones to melt, at temperatures just above 600oC metamorphic

Geologists use the term protolith to refer to the original rock existing before metamorphism. Amphibolite is a dark metamorphic rock rich in the ferromagnesian mineral amphibole. The protolith of amphibolite is a volcanic igneous rock called ...

basalt

high temperature minerals (mafic)

hey are the first ones to crystallize (and the last ones to melt, at temperatures above 900oC) diagenic

axial surface

imaginary plane that contains the hinges of successive layers and effectively divides the fold into two halves. With these terms in hand, we distinguish among the following types of folds

outcrop is undeformed

it contains no geologic structures other than a few joints

The melting of pre-existing rock as a result of increasing temperature and pressure will result in the formation of ...

magma

The foliated metamorphic rock in the figure below results from the flattening of pebbles and cobbles from a coarse-grained sedimentary rock. This metamorphic rock is called ...

metaconglomerate

Faults are planar deformation features of natural origin on which sliding occurs. Which of the following types of faults is indicated in the figure below?

oblique fault

Differential stress produces a distinctive texture that is typical of metamorphic rocks (an arrangement of mineral grains not found in other rock types). The figure below shows a rock, containing six equant (rounded) minerals, that is being exposed to differential stress. In this particular case, the compression is being applied to a WET rock (i.e., in the presence of hydrothermal fluids), leading to the development of which of the following metamorphic processes?

pressure solution

Geologists commonly refer to distortion as strain. We distinguish among different kinds of strain according to the nature of the change which developed during deformation. Which type of strain is indicated in the figure below?

shear strain

Folds occurs when one or a stack of originally flat and planar surfaces are bent or curved as a result of permanent deformation. The fold indicated in the figure below is called ...

syncline

brittle deformation

the cracking and fracturing of a material subjected to stress

metamorphism

the process in which one type of rock changes into metamorphic rock because of chemical processes or changes in temperature and pressure

limbs

the sides of the fold that display less curvature

plastic deformation

when a rock is squeezed or sheared at elevated temperatures and pressures. Under these conditions, grains behave like soft plastic and change shape without breaking. Such deformation can take place without changing either the composition or the crystal structure of the mineral.

Metamorphism resulting from DIFFERENTIAL STRESS

when the stress applied to a rock is applied UNEQUALLY from different sides (i.e., a rock is being squeezed or stretched strongly in one direction). When that happens, we say that the rock is being subjected to differential stress

Gneiss

(pronounced just like the word "nice") is a compositionally layered metamorphic rock, typically composed of alternating dark-colored and light-colored mineral layers that range in thickness from millimeters to meters. This compositional layering is called gneissic banding. The contrasting colors represent contrasting compositions. Light-colored layers contain predominantly FELSIC minerals (such as quartz and feldspar), whereas the dark-colored layers contain predominantly MAFIC minerals (such as amphibole, pyroxene, and biotite). Chemical reactions segregate the minerals into different layers. Gneiss usually results from the high-grade metamorphism (higher temperatures and pressures) of granite or schist.

dynamothermal metamorphism (reigonal)

: (1) it heats up because of the geothermal gradient and because of igneous activity; (2) it endures greater pressure because of the weight of overburden; and (3) it undergoes compression and shearing. As a result of these changes, the protolith transforms into foliated metamorphic rock. The type of foliated rock that forms depends on the grade of metamorphism: slate forms at shallower depths, whereas schist and gneiss form at greater depths

migmatite

: low-temperature minerals begin to melt first! If the melt freezes again before flowing out of the source area, a mixture of igneous rock (cooling of the melt) and relict metamorphic rock (the 'unmelted' part of the rock) forms. This mixture is a metamorphic rock called migmatite

Folds occurs when one or a stack of originally flat and planar surfaces are bent or curved as a result of permanent deformation. Which of the following sentences is true regarding the character of FOLDS resulting from crustal deformation?

A fold is the result of DUCTILE deformation of rock, occurring primarily in the WARM and SOFT, LOWER portion of the crust

The action or process of changing shape/location/orientation of rocks or rock layers through the application of strain and stress is called deformation. Which of the following types of deformation is illustrated in the figure below?

Brittle deformation

Stress vs. Strain

Compression takes place when a rock is squeezed; Tension occurs when a rock is pulled apart; Shear stress develops when one part of a rock body moves sideways past another; Pressure refers to a special stress condition that happens when the same push acts on all sides of an object.

The type of metamorphism represented in the figure below (due to the proximity to an igneous intrusion) is called ... (mark all that applies)

Contact metamorphism thermal metamorphism

Metamorphic reactions usually take place in the presence of hydrothermal fluids (chemically reactive solutions that can dissolve certain minerals). Which of the following options are correct regarding the origin of these hydrothermal fluids? (mark all that applies)

Correct Answer They were originally bonded to the minerals in the protolith, before experiencing metamorphism Correct Answer They seeped down into the protolith from overlying groundwater reservoirs Correct Answer They seeped up into the protolith from a nearby igneous intrusion

Metamorphic rocks contain a distinctive metamorphic texture, defined by arrangements of mineral grains not found in other rock types. This distinctive metamorphic texture is formed by which of the following structural arrangements? (mark all that applies)

Crystals segregating in alternating layers of dark-colored and light-colored minerals The parallel arrangement of platy minerals

fault scarp

Displacement on a dip-slip or oblique-slip fault will make a step on the ground surface

"The type of metamorphism that occurs as a consequence of shearing alone under metamorphic conditions, without requiring a change in temperature or pressure". This is the definition of ...

Dynamic metamorphism

The type of metamorphism represented in the figure below (in response to continental collision over a wide area) is called ... (mark all that applies)

Dynamothermal and contact metamorphism

The type of metamorphism that occurs in response to either convergent-margin tectonics or continental collision, and involves not only heat but also compression and shearing". This is the definition of ... (mark all that applies)

Dynamothermal metamorphism and regional

fault breccia

Faulting under brittle conditions may crush or break rock. If this shattered rock consists of visible angular fragments

Metamorphism is a process of progressive change. As rocks are exposed to higher temperature and pressures, they are altered in a predictable manner. As the intensity of metamorphism increases, the rocks become harder, more coarsely crystalline, and develop special metamorphic textures. Geologists refer to progressive metamorphism as an increase in metamorphic grade. Which of the following options are true regarding the figure below? (mark all that applies)

GNEISS has a higher metamorphic grade than SCHIST MIGMATITE has a higher metamorphic grade than SLATE SCHIST has a higher metamorphic grade than SLATE

The action or process of changing shape/location/orientation of rocks or rock layers through the application of strain and stress is called deformation. Which of the following is correct regarding the effects of rock composition on the type of deformation? (mark all that applies)

Hard rocks deforms brittlely Soft rocks deform plastically

shear strain

If a change in shape involves the movement of one part of a rock body past another, so that angles between features in the rock change

open vs tight

If the angle between the limbs is large, the fold is an open fold. If the angle between the limbs is small, the fold is a tight fold.

non plunging fold

If the hinge is horizontal

Neocrystallization

Initial minerals become unstable and change to new minerals, original minerals are digested by chemical reaction chemical reactions digest minerals of the protolith to produce new minerals of the metamorphic rock

Which of the following rock features/characteristics are changed by metamorphism? (mark all that applies)

It changes the rock's shape It changes the rock's age It changes the rock's chemical structure It changes the rock's appearance It changes the rock's mineral composition

The formation of metamorphic minerals and textures takes place very slowly and involves several processes, which sometimes occur alone and sometimes together. Which of these metamorphic processes is represented in the figure below?

Neocrystallization

Differential stress produces a distinctive texture that is typical of metamorphic rocks (an arrangement of mineral grains not found in other rock types). The figure below shows a rock, containing six equant (rounded) minerals, that is being exposed to differential stress. In this particular case, the compression is being applied to a WET rock (i.e., in the presence of hydrothermal fluids), leading to the development of which of the following metamorphic processes?

Pressure solution

The figure below is a metamorphic rock called QUARTZITE, which is formed from

REcrystallization of quartz grains in a sandstone protolith

Which of the following options correctly indicate the metamorphic process responsible for the formation of marble, a common metamorphic rock containing coarse, interlocked grains of the mineral calcite?

Recrystallization of calcite grains

What determines weather the rock deforms brittlely or plastically

Temperature: Warmer rocks tend to deform plastically, whereas colder rocks tend to deform brittlely. Heat makes materials softer. Pressure: Under great pressures deep in the Earth, rock behaves more plastically than it does under low pressures near the surface. Pressure effectively prevents rock from separating into fragments. Deformation rate: A sudden change in shape causes brittle deformation, whereas a slow change in shape causes ductile deformation. For example, if you hit a marble bench with a hammer, it shatters, but if you leave the bench alone for a century, it gradually sags without breaking. Composition: Some rock types are softer than others; for example, halite (rock salt) deforms plastically under conditions in which granite deforms brittlely

ductile (plastic) deformation

The bending and flowing of a material (without cracking and breaking) subjected to stress.

prolith

The pre-existing rock, before metamorphism. Can be igneous, sedimentary, or metamorphic.

Metaconglomerate

a coarse-grained metamorphic rock formed from the flattening of pebbles and cobbles in conglomerate. The protolith of METACONGLOMERATE (a metamorphic rock) is CONGLOMERATE (a sedimentary rock). The flattening of conglomerate clasts into pancake-like shapes occur as a result of pressure solution and plastic deformation. The alignment of inequant clasts defines the foliation.

diagenesis

a collective term for all the chemical, physical, and biological changes that take place after sediments are deposited and during and after lithification

Phyllite

a fine grained metamorphic rock with a foliation caused by the preferred orientation of very fine-grained white mica. The name comes from the Greek word phyllon, meaning leaf, as does the word phyllo, the flaky dough in Greek pastry. Phyllite forms by the metamorphism of shale at a temperature high enough to cause neocrystallization of white micas from clay minerals in the original protolith. The parallel orientation of translucent fine-grained micas gives phyllite a silky sheen known as phyllitic luster (figure below).

hornfels

a fine-grained nonfoliated rock that contains a variety of metamorphic minerals. The specific mineral assemblage in a hornfels depends on the composition of the protolith and on the temperature and pressure of metamorphism (figure below).

hinge

a line along which the curvature is greatest

foliated metamorphic rock

a metamorphic rock with a texture that gives the rock a layered appearance' slate, phyllite, metaconglomerate, schist, gneiss, and migmatite slate has salty cleavage

. Gneissic banding

alternating layers or lenses of light and dark medium to coarse grained minerals Some evolved directly from the original bedding in a rock. For example, metamorphism of a protolith consisting of alternating beds of sandstone and shale produces a gneiss consisting of alternating beds of quartzite and mica can also form when the protolith undergoes an extreme amount of shearing under conditions in which the rock can flow like soft plastic

Folds occurs when one or a stack of originally flat and planar surfaces are bent or curved as a result of permanent deformation. The fold indicated in the figure below is an example of ...

basin

Joints are planar deformation features of natural origin which indicate a break in the continuity of either a layer or body of rock that lacks any visible or measurable movement parallel to the surface (plane) of the fracture. Although they can occur singly, they most frequently occur as joint sets and systems. Joints result from which of the following types of deformation?

brittle deformation

Most metamorphic rocks form in one of TWO geologic settings. In which of the following types of metamorphism temperature is the predominant cause of metamorphic reactions?

contact metamorphism

Most metamorphic rocks form in one of TWO geologic settings. One of this settings occurs where cold rock is intruded by a hot magma. This type of metamorphism is called ...

contact metamorphism

joints

develop in response to tensile stress in brittle rock: a rock splits open because it has been pulled slightly apart.

"All physical, chemical, and biological processes that transform sediment into sedimentary rock and alter the character of the rock once it has been formed". This is the definition of which of the following processes?

diagenesis

metamorphic texture

distinctive arrangements of mineral grains not found in other rock types. Commonly, the texture results in metamorphic foliation, due to the -parallel alignment of platy minerals (such as mica) -presence of alternating light-colored and dark-colored layers.

Folds occurs when one or a stack of originally flat and planar surfaces are bent or curved as a result of permanent deformation. A fold with the shape of an overturned bowl is called ...

dome

Folds occurs when one or a stack of originally flat and planar surfaces, such as sedimentary strata, are bent or curved as a result of permanent deformation. Folds result from which of the following types of deformation? (mark all that applies)

ductile and plastic deformation

The type of metamorphism represented in the figure below (the formation of mylonite in the shear zone of a fault) is called ...

dynamic metamorphism

What is the name of the geologic structure indicated by number 2 in the figure below?

folds

syncline

folds with a trough-like shape in which the limbs dip toward the hinge

Directed stress involving compression helps explain the origin of a very common metamorphic structure. As temperature and pressure increase, minerals recombine to make new, more stable minerals. The minerals grow in the direction of lowest pressure, perpendicular to the directed stress (figure below), resulting in a layering which geologists call ...

foliation

salty cleavage

foliation that develops at low temperature and pressure (metamorphosed shale). develops when pressure solution removes portions of clay flakes that are not perpendicular to the compression direction, while clay flakes that are perpendicular to the compression direction grow

passive flow folds

form when the rock, overall, is so soft that it behaves like weak plastic and slowly flows; these folds develop simply because different parts of the rock body flow at different rates.

Quartsite

forms by the metamorphism of pure quartz sandstone. During metamorphism, pre-existing quartz grains recrystallize, creating new, larger grains. In the process, the distinction between cement and grains disappears, open pore space disappears, and the grains become interlocking. When quartzite cracks, the fracture cuts across grain boundaries in contrast, fractures in sandstone curve around grains. Quartzite looks glassier than sandstone and does not have the grainy, sandpaper-like surface characteristic of sandstone (figure below). Depending on the impurities it contains, quartzite can vary in color from white to gray, purple, or green.

Metamorphic rocks contain a distinctive metamorphic texture, defined by arrangements of mineral grains not found in other rock types. The metamorphic texture in GNEISS (a compositionally-layered metamorphic rock) is called ...

gneissic banding

monocline

has the shape of a carpet draped over a stair step

hydrothermal fluids

hot water with dissolved ions and volatiles chemically reactive and can dissolve certain minerals

plunging fold

if the hinge is tilted

as shape changes ______ changes

internal structure

dynamic metamorphism

it occurs as a consequence of shearing alone under metamorphic conditions, without requiring a change in temperature or pressure. The resulting rock, a mylonite, has a foliation that roughly parallels the fault (figure below). Mylonites are very fine-grained, due to processes during dynamic metamorphism that replace larger crystals with a mass of very tiny ones. Dynamic metamorphism takes place anywhere that faulting occurs at depth in the crust. Thus, mylonites can be found at all plate boundaries, in rifts, and in collision zones.

Geologists use the term protolith to refer to the original rock existing before metamorphism. Marble is one of the most common metamorphic rocks on Earth. The protolith of marble is a sedimentary rock called ...

limestone

"All physical, chemical, and biological processes that transform sediment into sedimentary rock". This is the definition of which of the following processes?

lithification

pressure solution

metamorphic formation process; happens when a WET rock is squeezed more strongly in one direction that in others at relatively low pressures and temperatures, in the presence of water. Mineral grains dissolve where their surfaces are pressed against other grains, producing ions that migrate through the water to precipitate elsewhere.

Schist is a coarse-grained metamorphic rock in which the foliation is caused by the preferred orientation of LARGE grains of a silicate mineral group known as ...

micas

phase change

one mineral is transformed into another WITH THE SAME COMPOSITION but a different crystal structure. On an atomic scale, phase change involves the rearrangement of atoms under extreme pressure. For example, the transformation of quartz into a denser mineral called coesite represents a phase change

Recrystallization

original mineral crystals re-grow and become bigger (change shape and size) but they remain the same minerals (same composition and same crystal structure). In the example below - the recrystallization of sandstone

The formation of metamorphic minerals and textures takes place very slowly and involves several processes, which sometimes occur alone and sometimes together. Which of these metamorphic processes transforms a grain of one mineral into a grain of another mineral with the same composition but different crystal structure, and involves the rearrangement of atoms under extreme pressure?

phase change

faults

planar structures, so we can represent their orientation by strike and dip.

The action or process of changing shape/location/orientation of rocks or rock layers through the application of strain and stress is called deformation. Which of the following types of deformation is illustrated in the figure below? (mark all that applies)

plastic ductile

In addition to directed stress, rising temperatures also affect minerals in a metamorphic rock, resulting in the formation of new crystal lattices, causing minerals to grow larger, and developing an interlocking texture. This metamorphic process is called ...

recrystallization

Most metamorphic rocks form in one of TWO geologic settings. In which of the following types of metamorphism BOTH temperature and pressure are required for causing metamorphic reactions?

regional metamorphism

Faults are planar deformation features of natural origin on which sliding occurs. Which of the following types of faults is indicated in the figure below?

reverse fault

pressure on wet rock

rock is being exposed to differential stress. In one case (bottom left) the compression is being applied to a WET rock (i.e., in the presence of hydrothermal fluids). This leads to the development of a metamorphic process called pressure solution (mineral grains dissolve under pressure and re-precipitate). After compression, the equant minerals all become inequant (elongated), and align in a specific direction (preferred mineral orientation).

At Earth's surface, the pressure we experience is equal all around us. Deep underground, however, pressure is not equally applied. When opposing pressures are applied on different parts of the rock, as indicated in the figure below, the rock experiences which of the following types of stress?

shear stress

During mountain building, the deformation resulting at any specific location actually depends on the stress developed at that location. Which of the following kinds of stress takes place when one part of a rock body moves sideways past another?

shear stress

The figure below shows a magnified view of elongated flakes of mica minerals in a layered metamorphic rock called mica schist. These slanted layers result from the preservation of a stress field generated within a subduction zone environment. These slanted mica layers are produced by which of the following types of stress?

shear stress

Geologists commonly refer to distortion as strain. We distinguish among different kinds of strain according to the nature of the change which developed during deformation. Which type of strain is indicated in the figure below?

shortening

distortion. is often referred to as a

strain

stress vs strain

stress refers to the amount of force applied per unit area of a rock, whereas strain refers to a change in shape of a rock. Thus, stress causes strain

nonfoliated

that metamorphism occurred in the absence of compression and shear, or that most of the new crystals can only grow in an equant form. We list below some of the rock types that can occur without foliation.

pressure on dry rock

the compression is being applied to a DRY rock under high temperature conditions (solids behave like plastic). This leads to the development of a metamorphic process called plastic deformation (mineral grains deform under pressure). After compression, the equant minerals all become inequant (elongated), and align in a specific direction (preferred mineral orientation). Note that, in both cases, the preferred mineral orientation is PERPENDICULAR to the direction of the differential stress.

what minerals start to melt?

the minerals from gneiss that start to melt to form migmatite are the FELSIC minerals (low-temperature minerals, usually quartz and feldspar)

litlification

the process by which sediment hardens into sedimentary rock happens at temperatures even lower than 600oC. - the heat and pressure is more than normal but not enough to cause melting

basin

upright bowl

Metamorphism due to pressure

when minerals are subjected to extreme pressure, denser minerals tend to form. Such transformations involve phase changes and/or neocrystallization. Rocks subjected to ultra-high pressure contain grains of coesite, a phase of SiO2 that is much denser than familiar quartz.


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