+ All Categories
Home > Documents > THE ROCK CYCLE

THE ROCK CYCLE

Date post: 02-Jan-2016
Category:
Upload: alea-pacheco
View: 24 times
Download: 0 times
Share this document with a friend
Description:
THE ROCK CYCLE. Rocks are naturally occurring combinations or coherent aggregates of minerals, fossils or other hard materials. They are classified by the way in which they form. The three rock types are: igneous, sedimentary and metamorphic. - PowerPoint PPT Presentation
Popular Tags:
35
THE ROCK CYCLE Rocks are naturally occurring combinations or coherent aggregates of minerals, fossils or other hard materials. They are classified by the way in which they form. The three rock types are: igneous, sedimentary and metamorphic. All rocks on Earth are locked into a system of cycling and re-cycling known as the ROCK CYCLE.
Transcript
Page 1: THE ROCK CYCLE

THE ROCK CYCLETHE ROCK CYCLE

Rocks are naturally occurring combinations or coherent aggregates of minerals, fossils or other hard materials. They are classified by the way in which they form. The three rock types are: igneous, sedimentary and metamorphic.

All rocks on Earth are locked into a system of cycling and re-cycling known as the ROCK CYCLE.

Page 2: THE ROCK CYCLE

METAMORPHICMETAMORPHIC SEDIMENTARYSEDIMENTARY

IGNEOUSIGNEOUS

mel

ting

heat

, pre

ssur

e,

ions

weathering, transportation

lithification

melting

weathering, transportation, lithification

heat, pressure, ions

THE ROCK CYCLETHE ROCK CYCLE

Page 3: THE ROCK CYCLE

IGNEOUS ROCKSIGNEOUS ROCKSIGNEOUS ROCKS are “born of

fire”. In other words, they were once molten and upon cooling, the magma (molten rock) crystallized into solid rock. Igneous rocks may form deep inside the Earth or at the Earth’s surface when a volcano erupts.

magma

conduit

Anatomy of a Vol cano

vent lava

land surface

Page 4: THE ROCK CYCLE

IGNEOUS ROCKSIGNEOUS ROCKS

Slow cooling deep beneath the Earth’s surface allows crystals to grow to large size (1/8” or more). These crystals are easily visible and distinguish this group of igneous rocks as INTRUSIVE.

Rapid cooling near or at the Earth’s surface, produces many small crystals that are not readily seen by the unaided eye. This group of igneous rocks is called EXTRUSIVE and are typically volcanic in origin. Cooling may be so rapid that crystals do not have a chance to form and instead a glass is produced.

Page 5: THE ROCK CYCLE

L I G H T C O L O R E D F e l s i c

I N T E R M E D I A T E C O L O R E D

D A R K C O L O R E D M a f i c

V E R Y D A R K C O L O R E D U l t r a m a f i c

C O A R S E - G R A I N E D

( Y o u c a n s e e d i f f e r e n t

m i n e r a l s )

G R A N I T E : C a n s e e c r y s t a l s . U s u a l l y g r a y o r p i n k . C a n s e e q u a r t z - g r a y , g l a s s y g r a i n s . C a n s e e f e l d s p a r - p i n k , b u f f , o r w h i t e .

D I O R I T E : C a n s e e c r y s t a l s w i t h s o m e w h a t m o r e l i g h t c o l o r e d f e l d s p a r g r a i n s t h a n d a r k c o l o r e d m i n e r a l s . A m i x o f l i g h t a n d d a r k b u t w i t h n o q u a r t z . S a l t & p e p p e r a p p e a r a n c e .

G A B B R O : C a n s e e c r y s t a l s — l o t s o f f l a t s h i n y c l e a v a g e s u r f a c e s . U s u a l l y b l a c k t o g r e e n i s h b l a c k .

F I N E - G R A I N E D

( Y o u c a n N O T s e e c r y s t a l s , f o r

t h e m o s t p a r t )

R H Y O L I T E : U s u a l l y g r a y , p i n k , p a s t e l . M i g h t s e e s m a l l c l e a r , r e c t a n g u l a r c r y s t a l s . S o m e t i m e s b a n d e d .

A N D E S I T E : L i g h t t o d a r k g r a y . N o r m a l l y h a s s m a l l b l a c k c r y s t a l s

B A S A L T : U s u a l l y b l a c k o r r u s t r e d . M a y h a v e s o m e o r l o t s o f g a s b u b b l e h o l e s , s o m e h o l e s m a y b e f i l l e d . M a y s e e s m a l l g r e e n g r a i n s .

G L A S S Y

O B S I D I A N : B l a c k , r e d , g r e e n , G L A S S

P E R L I T E : U s u a l l y p e a r l y g r a y . M a y c o n t a i n A p a c h e T e a r s .

P U M I C E : L O T S o f g a s b u b b l e h o l e s , v e r y l i g h t w e i g h t , w i l l f l o a t o n w a t e r . A b r a s i v e .

P O R P H Y R I T I C

( 2 g r a i n s i z e s )

A L L C R Y S T A L L I N E I G N E O U S V A R I E T I E S m a y e x h i b i t p o r p h y r i t i c t e x t u r e

F R A G M E N T A L

T U F F : C o m p a c t e d v o l c a n i c f r a g m e n t s g e n e r a l l y l e s s t h a n 4 m m d i a m e t e r ( a s h )

V O L C A N I C B R E C C I A : M i x e d t u f f a n d a n g u l a r l a r g e ( > 3 2 m m d i a m e t e r ) f r a g m e n t s

A G G L O M E R A T E : M i x e d a s h a n d r o u n d e d / s u b - r o u n d e d l a r g e ( > 3 2 m m d i a m e t e r ) f r a g m e n t s

P E R I D O T I T E : C o m p o s e d o f 9 0 -1 0 0 % o l i v i n e P Y R O X E N I T E : C o m p o s e d o f p r e -d o m i n a t e l y p y r o x e n e

A M P H I B O L I T E : C o m p o s e d o f p r e -d o m i n a t e l y a m p h i b o l e s ( s u c h a s h o r n b l e n d e )

C L U E S T O I G N E O U S R O C K S

C O L O R

T E X T U R E

Page 6: THE ROCK CYCLE

Granite - intrusiveGranite - intrusive

GRANITEGRANITE is a coarse to medium-grained rock that forms from the cooling of magma deep within the Earth (intrusive). It is made up mainly of varying amounts of the minerals: quartz, orthoclase, muscovite, biotite and hornblende. The name is from the Latin granum, for “grains”.

quartz

feldspar

biotite mica

(*)(*)

Page 7: THE ROCK CYCLE

Granite - intrusiveGranite - intrusive

Pegmatite

Graphic Granite

Porphyritic

mica

feldspar

Page 8: THE ROCK CYCLE

Rhyolite – extrusiveRhyolite – extrusive

RHYOLITERHYOLITE’S name comes from the Greek rhyo, from rhyax, “stream of lava”. It is formed when molten rock with the same composition as a high silica granite oozes (rhyolite is VERY viscous and does not really flow) to the Earth’s surface; and therefore cools quickly so only microscopic-

sized crystals develop. The volcanoes that produce rhyolite are very explosive varieties such as Mt. St. Helens, Krakatoa and O’Leary Peak (AZ). Frequently it is banded due to flow alignment of different associated minerals (quartz, feldspar, mica, and hornblende).

Page 9: THE ROCK CYCLE

This is an example of This is an example of banded rhyolite. banded rhyolite.

Rhyolite – extrusiveRhyolite – extrusive

If you look closely, you might see tiny clear phenocrysts of If you look closely, you might see tiny clear phenocrysts of feldspar. feldspar.

This is another sample of rhyolite. This is another sample of rhyolite. This has a crystal of garnet that This has a crystal of garnet that grew after the rhyolite was grew after the rhyolite was deposited. deposited.

Page 10: THE ROCK CYCLE

Basalt - extrusiveBasalt - extrusive

BASALTBASALT occurs as thin to massive lava flows, sometimes accumulating to thicknesses of thousands of feet and covering thousands of square miles. The volcanoes that produce basaltic lavas are relatively quiet, such as the Hawaiian Islands volcanoes. Basalt

is dark, fine-grained and often vesicular (having gas pockets). The pockets may be filled with secondary minerals, e.g. quartz, zeolite minerals, calcite, opal, etc. and then it is called amygdaloidal (a-mig-duh-loy-dal) basalt.

The name may have originated with Pliny who used the Ethiopian word basal for iron-bearing rocks.

Page 11: THE ROCK CYCLE

Basalt - extrusiveBasalt - extrusive

Gases released near the surface of a lava flow create bubbles or vesicles that are “frozen” in stone.

Vesicular (Scoria)

Amygdaloidal

Volcanic Bomb

Page 12: THE ROCK CYCLE

Basalt - extrusiveBasalt - extrusive

Peridotite

Peridotite xenolith

Basalt (*)

Page 13: THE ROCK CYCLE

Basalt - extrusiveBasalt - extrusivePahoehoe is a feature that forms on the surface of very fluid basalt flows. Much like the skin on a bowl of tomato soup – the surface in contact with the air begins to crystallize, while the fluid lava below continues to flow. This drags the upper, still plastic, surface into a series of smooth wrinkles.

Page 14: THE ROCK CYCLE

Obsidian - extrusiveObsidian - extrusive

OBSIDIANOBSIDIAN is volcanic glass (an acrystalline “solid” –actually a supercooled liquid). Its glassy, lustrous and sometimes banded appearance makes it rather easy to distinguish from all other rocks. It is composed of the elements that make quartz, feldspar and iron/ magnesium minerals that

have cooled so quickly that the minerals could not develop and crystallize.

Colors vary from black to red, black & red (mahogany), gray, green, iridescent, snowflake.

Apache Tears are little nodules of obsidian.

Page 15: THE ROCK CYCLE

Obsidian - extrusiveObsidian - extrusiveFlow banding

Apache tear

Snowflake

Page 16: THE ROCK CYCLE

Pumice - extrusivePumice - extrusive

PUMICEPUMICE is highly vesicular (i.e. it has lots of gas bubble holes) and is of rhyolitic composition.

Due to the many small holes, it is lightweight and will often float in water.

Page 17: THE ROCK CYCLE

SEDIMENTARY ROCKSSEDIMENTARY ROCKS

SEDIMENTARY ROCKS are composed of particles derived from pre-existing rocks or by the crystallization of minerals that were held in solutions. A general characteristic of this group is the layering or stratification, as seen in the outcrop.

Those sedimentary rocks that are composed of particles of pre-existing rocks are considered FRAGMENTAL or CLASTIC. These fragments show evidence of transport – rounding of the grains and size sorting.

CHEMICAL sedimentary rocks are the result of either precipitation of solids from solutions (like salt from water) or by organic process, like shells from marine organisms.

Page 18: THE ROCK CYCLE

C L U E S T O S E D IM E N TA R Y R O C K S

F R A G M E N T A L : C o m p o s e d o f p ie c e s o f ro c ks a n d m in e ra ls

L A R G E P IE C E S (B o u ld e rs ,c o b b le s ,

p e b b le s )

B R E C C IA : C o m p o s e d o f la rg e a n g u la r p ie c e s a n d c la y C O N G L O M E R AT E : C o m p o s e d o f la rg e ro u n d e d p ie c e s a n d c la y

S M A L L P IE C E S (s a n d )

S A N D S T O N E : L o o ks s a n d y (m a y “s h e d ” s a n d g ra in s ) , fe e ls ro u g h ( l ike s a n d p a p e r) ; m a y b e ta n , w h ite , re d , g ra y.

V E R Y S M A L L P IE C E S (c la y, s i l t, m u d )

S H A L E : H a s ve r y th in la ye rs ; o fte n b la c k. M a y h a ve fo s s ils — u s u a ll y im p re s s io n s (n o s h e ll, b u t in d e n ta tio n w ith p a tte rn o f s h e ll) o r c a rb o n ize d fi lm (as fo r p la n ts ) . H a s a d u ll lu s te r . Is s o ft. W h e n ta p p e d w ith a ro d o r o n a ta b le , i t g e n e ra ll y m a ke s a d u ll th u n k.

Page 19: THE ROCK CYCLE

Conglomerate - fragmentalConglomerate - fragmental

CONGLOMERATES are very similar to breccias, but the fragments are rounded. The name is from the Latin conglomeratus for “heaped, rolled or pressed together”.

These rocks form in alluvial fans, stream beds and pebble beaches.

Page 20: THE ROCK CYCLE

Sandstone - fragmentalSandstone - fragmentalSANDSTONESANDSTONE is made up of fine-

grained particles (1/16 –2 mm). The sand grains (often quartz) are commonly cemented by silica, carbonates, clay or iron oxides. Sandstone is identified by its sandy texture – which often translates into a gritty feel.

Environments in which sandstones form include beaches, sand bars, deltas and dunes.

Coconino Sandstone, the result of a Permian age coastal dune field

Page 21: THE ROCK CYCLE

Shale - fragmentalShale - fragmentalSHALESHALE is a very common rock made

of silt and clay sized particles. It is generally very thin-bedded and splits along the bedding planes. In fact, the name is probably from the Old English scealu, “shell or husk”. Normally gray to black, shale may be brown to dark red, depending on the amount of included iron oxide.

Shales form in quiet environ-ments, such as lakes, swamps, deltas and offshore marine.

Black shale, deposited in a offshore basin in a Middle Cambrian sea. Wheeler Shale with trilobite fossil (Elrathia kingii)

Fish scales

Utah

Page 22: THE ROCK CYCLE

M O R E C L U E S T O S E D IM E N TA R Y R O C K S

C H E M IC A L : R o c k s a re c rys ta l l in e

L IM E S T O N E S : C o m p o s e d o f c a lc i te a n d a l l W IL L F IZ Z vig o ro u s ly in a c id C rys ta l l in e — L o o k s s u g a r y, u s u a l ly g ra y o r ta n F o s s il i fe ro u s — C o n ta in s s e a s h e lls (u s u a lly) o r o th e r a q u a tic o rg a n is m s T ra ve r t in e — L o o k s s u g a r y w ith b a n d s o f v a r io u s c o lo rs C h a lk — W h ite a n d s o ft ( c o m e s o ff o n h a n d s ) C o q u in a — C o n ta in s a lm o s t n o th in g b u t s e a s h e l ls o r s e a s h e l l fra gm e n ts

C H E R T: C ry p to c ry s ta llin e Q U A R T Z V e r y f in e — c a n N O T s e e c rys ta ls W a x y lu s te r C o n c h o id a l fra c tu re (b re a k s l ik e g la s s ) V e r y h a rd — w i l l e a s ily s c ra tc h g la s s M a y b e A N Y C O L O R (R e d = J a s p e r , B la c k = F l in t, in c lu d e s S i l ic i f ie d W o o d )

G Y P S U M : W h ite , g ra y, c le a r V e r y s o ft — yo u c a n s c ra tc h w ith f in g e rn a i l C le a r s h e e ts , f ib ro u s o r s u g a ry

R O C K S A LT: W h ite to c le a r — c u b ic s h a p e S o ft — y o u c a n s c ra tc h i t w i th f in g e rn a i l T a s te s l ik e ta b le s a l t ( IT IS T A B L E S A L T !)

C O A L : B la c k ; B r i t t le ; L ig h tw e ig h t M a y c o n ta in p la n t fo s s i ls V a r ie t ie s : p e a t, l ig n i te ( in c l . je t) , s u b -b i tu m in o u s , b i tu m in o u s

D IAT O M IT E : W hite V e r y s o ft ( c o m e s o ff o n y o u r h a n d s ) L ig h tw e ig h t W i ll N O T fiz z in H C l a c id (u n l ik e c h a lk )

Page 23: THE ROCK CYCLE

Limestone - chemicalLimestone - chemicalUses:

Manufacture of lime and Portland cement & to neutralize smokestack gases.

Finely ground, used as a functional filler in products such as paint, countertops & plastics.

The dust on chewing gum is ground limestone.

Mild abrasive additive to toothpaste.

Soil conditioner Flux in processing iron and

copper ores. Building and ornamental stone.

LIMESTONELIMESTONE is composed primarily of calcite. Generally it is dense, fine-grained, and usually white to dark gray. Its most distinguishing feature is its solubility in weak hydrochloric or acetic acid accompanied by brisk effervescence.

The environment of deposition if generally warm, shallow seas. Therefore, marine invertebrate fossils are common.

Page 24: THE ROCK CYCLE

LIMESTONE - chemicalLIMESTONE - chemical

Redwall LimestoneRedwall Limestone

Pleistocene, Rocky Point, Mexico

Crystalline

Fossiliferous

Coquina

Travertine Mayer, AZ

Page 25: THE ROCK CYCLE

GYPSUM - chemicalGYPSUM - chemicalGYPSUMGYPSUM (calcium sulfate) is found

in geographically wide-spread deposits resulting from the evaporation of a body of water, such as ocean basin or playa lake.

It is soft (H=2) & usually white to gray. Three varieties are: Alabaster, Satin Spar and Selenite.

Gypsum is mined for use in wallboard and plasters, as an agricultural amendment and to control the set/cure time of Portland cement.

AlabasterSatin Spar

Selenite

Gypsum & Anhydrite (water-less Gypsum & Anhydrite (water-less calcium sulfate), Carlsbad, NMcalcium sulfate), Carlsbad, NM

Page 26: THE ROCK CYCLE

METAMORPHIC ROCKSMETAMORPHIC ROCKSMETAMORPHIC ROCKS have changed (meta) their form (morphic). Under the

influence of heat, pressure and fluids, pre-existing rocks are modified in form and even in internal atomic structure to produce new rocks stable at the new conditions. This is done within the solid state, i.e. without melting.

Changes that occur include: increase in grain size, new minerals and foliation (parallel alignments).

Metamorphic rocks that exhibit parallel alignments of minerals are called FOLIATED. In these rocks, the minerals all line up perpendicular to the exerted pressure.

Metamorphic rocks composed of minerals that are not elongated or flat, do not exhibit parallel alignments and are called NON-FOLIATED.

Page 27: THE ROCK CYCLE

FOLIATED: Rocks have layers or banding

SLATE: Rock breaks into very thin layers Beginning to look polished; Is harder than shale Cannot see crystals Black , gray or red

PHYLLITE: Like slate, but shinier (“phyllitic sheen” — similar to satin)

SCHIST: Very shiny — you can SEE CRYSTALS (usually MICA) Is layered May have crystals (of garnet, tourmaline, etc.) growing with the mica

GNEISS: Crystalline Black & White BANDING (due to segregation of minerals)

CLUES TO METAMORPHIC ROCKS

Page 28: THE ROCK CYCLE

SLATE - foliatedSLATE - foliatedSLATESLATE is derived from shale. It is

a dense, microcrystalline rock, but one in which parallel planes are very evident in its slaty foliation – a feature resulting from the alignment of clay and mica minerals,which allows it to split readily into sheets. It may be gray, black, green or red.

Uses include roofing, flagstone, pool table tops and “blackboards”.

Note the relatively dull luster of slate.

Page 29: THE ROCK CYCLE

PHYLLITE - foliatedPHYLLITE - foliated

PHYLLITEPHYLLITE is somewhat more metamorphosed than slate. The platy crystals of mica have grown and the rock displays a subtle, satiny shine referred to as “phyllitic sheen”. The name comes from its leaf-like (many fine layers) appearance. Note the phyllitic sheen.Note the phyllitic sheen.

Page 30: THE ROCK CYCLE

SCHIST - foliatedSCHIST - foliatedSCHISTSCHIST is medium to coarse-grained,

crystalline, with prominent parallel mineral orientation. Typically, it is predominately muscovite mica, which lends a silvery white to gray sparkly appearance. It is not unusual for accessory minerals (such as garnets, staurolite, tourmaline) to grow in the rock.

Schist is added to clay mixtures as a strengthening material in vitreous pipe (red sewer) and clay roof tiles.

Crumpling of schist due to pressure and collapse of mica crystals

garnet garnet porphyroblastporphyroblast

tourmaline porphyroblast – note alignment

Page 31: THE ROCK CYCLE

GNEISS - foliatedGNEISS - foliatedGNEISS GNEISS formed under

conditions of high temperatures and pressures at great depth during regional metamorphism. It is characterized by foliation expressed as black and white banding. Because the rock becomes plastic, the banding is often contorted (squiggly).

Gneissic granite – separation of dark & light minerals is just beginning

Well banded gneiss

Augen Gneiss

Augen = quartz pebble resistant to compression

kink in gneiss

Page 32: THE ROCK CYCLE

Shale

metamorphism of shalemetamorphism of shaleSHALE is the most common sedimentary rock. Shale > Slate > Phyllite > Schist > Gneiss

Through the agents of metamorphism it changes to rocks that are stable at higher temperatures and pressures.

These changes take place in the solid state.

Increasing Temperature and PressureIncreasing Temperature and Pressure

Slate Phyllite

SchistSchist Gneiss

GRANITEGRANITE MELTING ProducesMELTING Produces

GRANITEGRANITE

Page 33: THE ROCK CYCLE

METAMORPHICMETAMORPHIC SEDIMENTARYSEDIMENTARY

IGNEOUSIGNEOUS

mel

ting

heat

, pre

ssur

e,

ions

weathering, transportation

lithification

melting

weathering, transportation, lithification

heat, pressure, ions

THE ROCK CYCLETHE ROCK CYCLE

Page 34: THE ROCK CYCLE

CLUES TO METAMORPHIC ROCKS

NON-FOLIATED: Shows NO layers or banding

MARBLE: Sugary looking Will fizz in HCl (acid) Often is multi-colored, may be white Soft — will not scratch glass

QUARTZITE: Very dense MAY look a bit sandy Very hard — will easily scratch glass

METACONGLOMERATE: Looks like sedimentary conglomerate, BUT it is harder (BREAKS THROUGH PEBBLES) and often the pebbles are squished & aligned (it is at this point foliated)

SERPENTINITE: Composed of members of the serpentine family (includes chrysotile asbestos) Generally light greenish gray to greenish black Waxy luster Often exhibit curved and slickensided surfaces

Page 35: THE ROCK CYCLE

MARBLE – non-foliatedMARBLE – non-foliatedMARBLEMARBLE is metamorphosed

limestone or dolomite. The colors can vary from pure white to gray, green, yellow, brown, black, red or any combination thereof, depending on the ‘impurities’ in the parent limestone. Bands or streaks result from plastic flow during extreme deformation, due to high pressure and temperature.

It is calcite or dolomite and will fizz in weak acids.

Marble is used for building facades, floors, countertops, statuary, landscaping, paving/roofing, poultry grit, and as filler/extender for paint, plastics, paper and adhesives.

Aguila, AZ

Hewitt Canyon, AZ


Recommended