igneous rock unit test
How is magma formed?
formed by partial melting that occurs at various levels within earths crust and upper mantle
igneous rocks
forms as molten rock cools and solidifies
whats another name for pyroclastic texture?
fragmental
what are pyroclastic textures made out of?
fragments ejected during a volcanic eruption; fine volcanic ash, molten blobs, or large angular blocks form the walls of a vent during an eruption
how do we know information about earths crust and mantle? what do we know?
from the study of earthquake waves, earths crust and mantle are composed primarily of solid, non molten rock
when does vesicular texture form?
gasses dissolved in the magma are able to come out of solution, forming bubbles inside it
what do the feldspar grains in granite look like?
generally white, gray, or salmon pink in color, blocky or rectangular in shape
how can we know information about the rock by the texture?
geologists can make inferences about a rocks origin based on careful observations of grain size and other characteristics of the rock
what is a pluton?
magma chamber
are intermediate volcanos dangerous, why or why not?
more dangerous, high amount of dissolved gasses, very explosive
are felsic volcanos dangerous, why or why not
most dangerous, high amount of dissolved gasses, VER EXPLOSIVE
what does granite make up?
most of the continental crust
what does welded tuff contain?
mostly of tiny glass shards, may contain walnut-size pieces of pumice and other rock fragments
are all eruptions violent? if no, what are they?
no, quiet outpouring of fluid lava
does water crystallize with the bulk of the magma body? what percentage of the melt does what phase?
no. they make up a high percentage of the melt during the final phase of cooling and solidification
what are the mafic minerals?
potassium feldspar, muscovite, quartz
how does depth affect pressure, why?
pressure increases with depth. steady increase in confining pressure exerted by the weight of overlaying rocks
what happens when gasses come out of the magma?
pressure is reduced to to its rising
what do dark/ferromagnesian silicates contain?
rich in iron and/or magnesium and comparatively low in silica
what does quenched mean?
when lava cools instantly
when are sills formed?
when magma exploits weaknesses between sedimentary beds or other rock structure
when are tabular intrusive bodies produced?
when magma is forcibly injected into a fracture or zone of weakness, such as a bedding surface
when are dikes formed?
when magma is forcibly injected into fractures and cut across bedding surfaces and other structures in the host rock
what is partial melting?
when melting isnt complete
when is glassy texture achieved?
when molten rock is ejected into the atmosphere and quenched to a solid when unordered atoms are "frozen in place" before they are able to unite in orderly crystalline structure
how is lava formed?
when molten rock reaches earths surface
what is cryptocrystalline, frothy or glassy texture?
when quenched rocks have no crystals at all
how does decompression melting form andesitic magma?
when rising basaltic magmas assimilate crystal rocks that are rich in silica
how are vein deposits produced?
when some of the fluids move along openings such as fractures or bedding planes, where they cool and precipitate metals
what is welded tuff?
when the ash particles remained hot enough to fuse
when does melting occur?
when the atoms are vibrating rapidly enough to overcome the force of their chemical bonds
why does crystal settling happen?
when the earlier formed minerals are denser than the melt, and sink toward the bottom of the magma chamber
how does partial melting form granitic magma?
when the heat from the hot basaltic magma partially melts the overlying crystal rocks, which are silica rich and have a much lower melting point
how does fractional crystallization form andesitic magma?
when the iron rich components (that crystallized first) are separated from the liquid by crystal settling, the remaining melt has an andesitic composition
when does the environment change enough for porphyritic texture to form?
when the large crystals move to a different environment
how do the tetrahedrons join together?
when the magma continues to lose heat to its surroundings
how are the gasses able to come out of vesicular rocks?
when the magma is near or a the earth surface because the pressure is reduced in these areas
how do vesicular rocks form?
when the magma reaches the surface as lava and cools, the rock solidifies around the gas bubbles and traps them inside, perserving them as holes filled with gas
what is a dissemination deposit?
when the ores are distributed as minute masses throughout the entire rock mass, rather than being concentrated in narrow veins and dikes
how does the parent magma produce a rock that is more felsic than the parent magma?
when the remaining melt solidifies, if it migrates into fractures in the surrounding rock
how is aphanitic texture formed?
when the rock is extrusively and the cooling is fast
how do pegmatites form?
when they crystallize in a fluid rich environment
what happens at subduction zones
where oceanic lithosphere descends into the mantle
what 3 factors influence the texture?
- the rate that the magma rock cools - the amount of silica in the magma - the amount of dissolved gasses in the magma
what is the composition of granite?
10-20% quarts, roughly 50% feldspar, less than 10% of: minor amounts of dark silicates, particular biotite and amphibole, and sometimes muscovite standing out
What happens when magma bodies cut across existing structures?
The magma is injected between the between the sedimentary layers such as sedimentary strata
what is a sill?
a horizontal intrusion
what is a stock?
a large (but smaller than batholith) pluton
what is a laccolith?
a lense shaped intrusion
what makes up magma?
a liquid component, a solid component, and a gaseous component
what is a rock with porphyritic texture called?
a porphyry
how does magmatic differentiation form andesitic magma?
a rising mantle derived basaltic magma undergoes magmatic differentiation as it slowly makes its way through the continental crust
define magma and its use?
a rock that is completely or partly molten, and when cooled it solidifies to form igneous rocks mainly composed of silicate minerals
what is crystal settling?
a separation of various components during the magma crystallization process.
what is a dike?
a vertical intrusion
when can intrusions from below earths surface be studied?
after uplifting and erosion have exposed them
how are igneous rocks formed?
all of the melt is transformed into a solid mass of interlocking silicate minerals aka from the cooling and solidification of magma or lava
what are the intermediate minerals?
amphibole, biotite, albite
how do many of the most productive deposits occur? and what are they?
as hydrothermal vein deposits. gold, silver, copper, and mercury
how are hydrothermal veins usually deposited?
as sulfides of various metals
how are diamonds formed?
at depths nearly 200 km, the confining pressure is great enough to generate this high pressure form of carbon
in oceanic settings, what type of magmas erupt more often?
basaltic magmas
why does the palisades sill form an imposing cliff?
because it is resistant to erosion
what does massive mean?
blob
what does phaneritic mean?
coarse grained
describe granite
coarse grained, commonly exhibits porphyritic texture with elongated feldspar crystals a few centimeters in length
what does phaneritic mean?
coarse or very coarse
what classifies igneous rocks?
composition and texture
what does magmatic differentiation do ?
concentrates some metals, producing major deposits
are sills discordant or concordant?
concordant
what happens in crystallization?
cooling reverses the events of melting and the melt crystallizes
what are the solid portions of magma made up of?
crystals of silicate minerals
describe obsidian
dark colored glassy rock, felsic, unordered atoms, generally black or reddish brown in color,
describe the characteristics of mafic
dark in color, high density
are dikes discordant or concordant?
discordant bodies
what are volatiles?
dissolved gasses
where are greatest quantities of magma produced?
divergent plate boundaries
what is produced when lava explosively ejected?
dramatic eruptions of steam and volcanic ash
when do the metallic atoms accumulate near the top of the magma chamber?
during the cooling process
where does most magma come from?
earths uppermost mantle
why is lava emitted as fountains?
escaping gasses propel it from a magma chamber
where do vesicular rocks form?
extrusive
where is the term 'felsic' derived from?
feldspar and silica
what is the composition of a rock with the lowest melting point?
felsic
what is the composition of the melted part of a partial melt?
felsic
what is yielded when there is partial melting of intermediate rocks?
felsic
what does aphanitic mean?
fine grained
describe rhyolite
fine grained, essentially light colored silicates, buff pink or light gray, frequently contains glass fragments, rapidly cooled extrusively, low frequent and small rhyolite deposits
what does aphanitic mean?
fine or glassy crystals
describe the outer core
fluid, iron rich, very dense, deep in earth
describe pumice
glassy volcanic, vesicular texture, gray, frothy mass, resembles fine shards of intertwined glass, float in water.
what are some of the most important accumulations of metals, how are they produced?
gold, silver, copper, mercury, lead, platinum, and nickel. by igneous processes
what is the most present mineral in the lower portion of the palisade sills, why?
great thickness, slow rate of solidification, it sank first
what do light/nonferromagnesian silicates contain?
greater amounts of silica, potassium, sodium, and calcium
how are felsic rocks classified?
high in silica, less iron/magnesium
characteristics of felsic lava and volcano?
high viscosity, steep slope
what are vesicles?
holes filled with gas, nearly spherical openings
whats an example of decompression melting?
hot mantle rock ascends as part of slow moving convective flow at mid ocean ridges
what is hydrothermal?
hot, atom rich fluid solutions
where do the majority of hydrothermal deposits originate?
hot, metal rich fluids that are remnants of late stage magmatic processes
where do the majority of hydrothermal veins originate?
hot, metal rich fluids that are remnants of late stage magmatic processes
what does discordant mean?
if they cut across existing structures
what does concordant mean?
if they inject parallel to features such as sedimentary strata
what is a laccolith and how was it formed?
igneous intrusion that was forcibly injected between sedimentary strata so as to arch the beds above while leaving those below relatively flat
what does extrusive igneous rocks mean?
igneous rocks that formed from lava near the surface of the earth or in the atmosphere/water
what is an intrusive igneous rock?
igneous rocks that formed from magma inside the earth
define porphyritic texture?
igneous rocks that has large crystals embedded in a matrix of smaller crystals
where are the best known and most important ore deposits formed?
in hydrothermal sollutions
what does crystallization in a fluid rich environment result in?
in the formation of large or very large crystals
how are pyroclastic rocks formed and what makes them up?
individual particles or fragments rather than interlocking crystals
what is yielded when there is partial melting of mafic rocks?
intermediate
characteristics of intermediate lava and volcano?
intermediate viscosity, not very thin or very thick, intermediate slope
describe diorite
intrusive, coarse, gray, little or no visible quartz crystals, higher percentage of dark silicate mineral; primarily plagioclase feldspar and amphibole, light colored; feldspar, salt pepper appearance
describe gabbro
intrusive, dark green to black, primarily composed of pyroxene and calcium rich plagioclase feldspar, uncommon in continental crust, makes up a significant percent of oceanic crust
how does the composition of the melt change throughout crystalllization?
it becomes more and more felsic (richer and richer in silica) because the iron and magnesium gets used in the rocks that form first
what does magma mixing do to the composition of the magma?
it changes it
what does the incorporation of a foreign material to a magma body do?
it changes the composition
what does assimilation do?
it changes the overall composition of the rising magma body
what does magma rising do to the preexisting crustal rock?
it forcefully displaces them
what is the composition of the partial melted magma in comparison to the parent rock?
it is nearer the felsic end of the compositional spectrum than the parent rock
how does decrease of pressure affect the melting point?
it lowers the melting point
what is magma mixing?
it occurs during the ascent of 2 chemically distinct magma bodies as the more buoyant mass overtakes the more slowly rising body. once they are joined, convective flow stirs the 2 magmas, generating a single mass that is intermediate
how does water in the subduction affect the melting of magmas?
it promotes partial melting of the mantle rocks that lie above.
why is texture important?
it reveals a great deal about the environment and cooling histories in which the rock formed
what is porphritic texture and how is it formed?
larger crystals are embedded in a fine grained groundmass
what is the name of a felsic volcano?
lava dome, sleep slope
what is a bedding plane?
layers of sedimentary rock
are mafic volcanos dangerous, why or why not?
least dangerous, low amount of dissolved gasses- low explosivity
describe the characteristics of felsic
light in color, low density
characteristics of mafic lava and volcano?
low viscosity so its thin and runny, gentle slope
what is the composition of a rock with the highest melting point?
mafic
what is the composition of the solid part of a partial melt?
mafic
how does composition affect density and buoyancy?
mafic magma tends to be less dense that the surrounding rock, causing the magma to be more buoyant and rise to the surface
what is yielded when there is partial melting of ultramafic rocks?
mafic magmas
describe andesite
medium gray, fine grained rock, volcanic and continental margins origin, porphyritic texture
what is the liquid portion of magma called and what is it composed of?
melt, mainly composed of silicon and oxygen with lesser amounts of aluminum, potassium, calcium, sodium, iron and magnesium
which minerals are often found together in the same igneous rocks?
minerals that form at the same general temperature
what are the felsic minerals?
olivine, pyroxene, anorite
how do diamonds go from being deep beneath earth to near the surface?
once crystallized, the diamonds are carried upward through pipe shaped conduits that increase in diameter toward the surface.
what is one of the larges, most studied sills in the us?
palisades sill
what is responsible for the volcanic activity in and around yellowstone national park?
partial melting that forms granitic magma
describe batholiths
plutonic body having a surface exposure greater than 100 square km
what are divergent plate boundaries associated with?
seafloor spreading
what is the name of a mafic volcano?
shield volcano
what is an example of a continuous granitic structure?
sierra nevada batholith
what is the environmental impact of disseminated deposits?
significant, including problems related to waste disposal
as basaltic magma solidifies, what is the composition of the minerals crystallizing first?
silica poor ferromagnesian minerals crystallize first
what are igneous rocks mainly composed of?
silicate minerals
why is obsidian dark but felsic?
small amounts of metallic atoms in an otherwise relatively clear, glassy substance
what do the quartz grains in granite look like?
somewhat rounded in shape, glassy, clear to gray in color
where is the most productive kimberlite pipe?
south africa
what is the name of a intermediate volcano?
stratovolcano/composite volcano
where are lesser quantities of magma produced?
subduction zones
what does volcanic mean?
synonym for extrusive igneous rocks
what is plutonic?
synonym for intrusive igneous rock
what does tabular mean?
table
what shape do plutons have?
tabular shape
what triggers melting of the mantle? what else is an effect?
tectonic processes, through various means reducing the mantle rocks melting point
why does fast cooling lead to many, small crystals?
the atoms quickly lose their mobiliy and readily combine to form crystals
what does the mineral composition depend on?
the chemical makeup of its parent magma
what happens during the crystallization process of magmA?
the composition of the remaining liquid portion continually changes
what happens to the pressure and volatiles as the melt rises toward the surface?
the confining pressure is reduced the volatiles begin to separate from the melt
what is the matrix/groundmass?
the fine grained groundmass in porphyritic texture
What is magmatic differentiation?
the formation of a magma body having a mineralogy or chemical composition that is different than the parent magma
what happens to the level of gasses as the pressure goes down?
the gasses escape
what caused the demand for metallic natural resources to increase exponentially?
the growth of the middle class in countries such as china, india, and brazil
what happens to the volatiles when magma is deep below the surface?
the immense confining pressure keeps these volatiles dissolved in the melt.
what is geothermal gradient?
the increase of temperature with depth increase in Earths crust
what is phenocrysts?
the larger crystals in porphyritic texture
what is a batholith?
the largest intrusive igneous body
what happens after magma is formed
the magma body buoyantly rises toward the surface because it is less dense than the surrounding rocks
how does the rock for assimilation form?
the magma pushing upward can cause the overlying rock to fracture into numerous pieces. the force of the injected magma is often sufficient to dislodge and incorporate blocks of the surrounding host rock
what is assimilation?
the melting of the dislodged surrounding host rock
how does partial melting occur?
the minerals with the lowest melting point melt first. if melting continues, minerals with a higher melting point melt
how does the amount of volatiles depend on the felcicity?
the more felsic, the more volatiles
how is a secondary melt generated?
the overlying crystal rocks have lower melting points than basaltic magmas, the hot basaltic magma may heat them sufficiently to generate a secondary melt
what is a kimberlite?
the pipe that contains nearly all diamond crystals that are disseminated throughout an ultramafic rock
what is a host rock or country rock?
the preexisting crustal rock
what is the dominant factor that influences the texture?
the rate of cooling
why does slower cooling lead to fewer, larger crystals?
the slow cooling permits ions to migrate freely until they eventually join one of the existing crystals
how does the speed of cooling affect the size of the crystals?
the slower the magma cools, the larger the crystals will become the faster the magma cools, the smaller the crystals will become
how is a pluton or intrusion formed?
the structures that result from the emplacement of magma into preexisting rocks.
how are diamonds commonly used?
they are economically important and used extensively as abrasives
what happens happens when magma is buried deeply?
they begin to crystallize, the remaining volatiles collect as hot, water rich, fluids that migrate through openings in the surrounding rocks
how are rocks classified as mafic?
they contain at least 45% dark silicates
what happens if the crystal continues to be in contact with the magma? what can happen?
they continue to react chemically, the outside layer can change into a different mineral.
why are rocks with similar mineral constituents given different names?
they exhibit different textures
how do volatiles affect the type of erruption?
they make the eruption more explosive
what happens to the crystal rocks during continental collision?
they may melt
what does the mobility of hydrothermal veins do before they are eventually deposited?
they migrate great distances through the surrounding rock before they are eventually deposited
why do intrusive magmas cool slower?
they remain insulated from lower surface temps by the surrounding rock, therefore cool very slowly over a period of like 10,000 to millions of years
commonly, what happens to the earliest formed mineral?
they seperate from the melt, stopping them from evolving
what happens to the heavy minerals that crystallize early in a large basaltic magma body?
they tend to settle to the lower portion of the magma chamber
what happens to the atoms as the temperature rises?
they vibrate more rapidly
what does pyroclastic texture resemble?
those exhibited by sedimentary rocks
when exposed what appearance do dikes have? how do they get exposed?
through erosion, they tend to have wall like appearance
how are pyroclastic rocks formed?
tiny, ash size fragments that were later cemented together
how is the term texture used?
to describe the overall appearance of a rock based on the size, shape, and arrangement of its mineral grains
what is the most common pyroclasic rock?
tuff
what are pegmatites?
unusually large crystals
describe basalt
very dark green to black, fine grained rock, primarily of pyroxene and calcium rich plag feld, lesser amounts of olivine and amphibole, most common extrusive igneous rock, makes up volcanic islands, makes up the upper layers of the continental crust
what is the gaseous portion of magma called and what is it composed of?
volatiles, materials that vaporize at surface pressures
how does water affect melting point?
water lowers melting point
what are the most common volatiles found in magma?
water vapor, carbon dioxide, sulfur dioxide
how do the silicon oxygen tetrahedrons form?
when a magma body cools, the silicon and oxygen atoms link together
what is vesicular texture?
when an igneous rock contains gas pockets
how/when does porphyritic texture develop?
when conditions during the cooling of the magma change relatively quickly. earlier textures formed slow and remained as large crystals and sudden cooling causes the remainder of the melt to become fine grained matrix
when is magma formed (with melt)?
when crystal rocks are heated sufficiently to melt
how does most granitic magma form?
when hot basaltic magma ponds below continental crust
when does columnar jointing occur?
when igneous rocks cool and develop shrinkage fractures that produce elongated, pillar like columns that often have 6 sides
how is phaneritic texture formed?
when large masses of magma slowly crystalize intrusively
what is decompression melting?
wherever hot, solid mantle rock ascends, moving to lower pressure
can a single volcano extrude lavas that change in composition over time?
yes
can granitic magmas be formed by magmatic differentiation of andesitic magmas?
yes
does decompression melting trigger partial melting?
yes
can granitic magmas become rich in rare elements?
yes, even heavy metals
can magmas change over time? can a igneous rock have a range of compositions?
yes, yes
