Exam IV Review

Question 1

Age of the earth

Answer 1

4.56 Ga

Question 2

What distinguishes the mechanical layers? How do they relate to the compositional layers?

Answer 2

Lithosphere: rigid solid (crust and upper mantle, including Moho)
Asthenosphere: weak solid (mantle)
Outer core: liquid (core)
Inner core: solid (core)

The lithosphere is primarily oxygen/silicon/aluminum/magnesium, the asthenosphere is primarily oxygen/silicon/magnesium, the outer core is mostly liquid iron, and the inner core is mostly solid iron.

Question 3

Which are most appropriate units for plate tectonic motion, cm/yr, m/yr, km/yr?

Answer 3

cm/yr (1-15 to be exact)

Question 4

What is the difference between a theory and a hypothesis?

Answer 4

Hypothesis: An explanation for observations to be tested (may be supported, not confirmed)

Theory: An explanation for observations that have been tested numerous times and is supported by evidence

Question 5

Most abundant mineral in crust of the Earth

Answer 5

plagioclase feldspar

Question 6

What are the three rock types, what differentiates them, and what are their rock forming processes?

Answer 6

1) Igneous: made from magma
2) Metamorphic: recrystallizing in solid state
3) sedimentary: rock fragments/dissolved rock components compacted on surface

Question 7

Common examples of igneous, sedimentary, and metamorphic rocks

Answer 7

Igneous: Obsidian, tuff, scoria, pumice, breccia, granite, diorite, gabbro, rhyolite, andesite, basalt, “porphyritic ____”

Sedimentary: coquina, fossiliferous limestone, oolitic limestone, chalk, rock salt, gypsum, coal, conglomerate, breccia, sandstone, chert, mudstone, shale

Metamorphic: slate, phyllite, schist, gneiss, quartzite, marble, amphibolite, hornfel

Question 8

What is the concept of uniformitarianism; what are simple examples of its application?

Answer 8

Definition: processes we see active today were active in the past and explain analogous characteristics observed in rocks

ex: crossbedding=sand dunes, poor sorting and striations=prolly glaciers?

Question 9

Difference between magnitude and intensity

Answer 9

Magnitude: measure of energy

Intensity: measure of the effect on humans

Question 10

Recognize synclines vs. anticlines in photos or diagrams

Answer 10

1) anticline (like an A, old rocks on peak)
2) syncline (like a V, young rocks in pinched bottom)

Remember: old in middle is anticline, young in middle is syncline

Question 11

Recognize faults: normal, reverse, left-lateral and right-lateral strike-slip in photos or diagrams

Answer 11

normal (hanging wall block goes down, foot wall block goes up)
reverse
thrust
strike slip

Question 12

Stresses responsible for folds, normal faults, and reverse faults

Answer 12

Normal faults produced by divergent/extensional stress

Reverse/thrust faults produced by convergent/compressional stress

Question 13

be able to interpret the relative ages of two geologic features in a photo or diagram

Answer 13

practice

Question 14

The geologic time scale: know the order of the three eras of the Phanerozoic eon and the general term for the time before that.

Answer 14

Phanerozoic eon’s eras: Paleozoic, Mesozoic, Cenozoic

Time before that: Precambrian

Question 15

Eon of most of the rocks at the core of the Black Hills

Answer 15

Proterozoic

Question 16

Era that the Appalachian mountains were built

Answer 16

Paleozoic era

Question 17

Which came first, uplift of the Rockies, including the Black Hills, or deposition of the sedimentary rocks in the Badlands?

Answer 17

Within the Cenozoic Era, Paleogene period: Rockies/Black Hills are uplifted…then their shedded sediments + ash from distant volcanos form Badlands

Question 18

Epoch of glaciations and name of most recent glaciation

Answer 18

Pleistocene epoch (Quarternary period, Cenozoic era)

Wisconsin Glaciation, 21 ka

Question 19

Epoch used to describe time since the end of the ice ages

Answer 19

Holocene epoch

Question 20

Recognize photos of clear examples of different types of mass movement highlighted in class

Answer 20

rock fall, rock slide, debris flow, mud flow, creep, slump, solifluction, lahar

Question 21

Three kinds of stream channel patterns: what makes them different? where do they occur in stream systems?

Answer 21

straight: confined by topography/bedrock in mountain stream systems
braided: smaller, weaving channels that clog themselves with sediment, found near mountain fronts
meandering: large loopy bends across floodplains

Question 22

Recognize in photos, and understand the origins of, point bars, cut banks, natural levees, alluvial fans, deltas, terraces, and ox bow lakes

Answer 22

point bars: inner sides of bends

cut banks: outside of bends

natural levees: created when a stream floods

alluvial fans: created when a stream gradient decreases

deltas: created when stream hits still water
terraces: stream floods, creates floodplain, then starts to down cut and create stream terraces

oxbow lakes: meandering stream cuts through a meander neck (cutting off its loops)

Question 23

What distinguishes a glacier from a permanent snow or ice field?

Answer 23

In a glacier, the burden of additional snow without much seasonal melting forces crystals to compact into thick masses that flow under their own weight

Question 24

~maximum thickness of North America’s past continental ice sheets?

Answer 24

3,000 m/10,000 ft thick

Question 25

Ice shelves vs sea ice

Answer 25

Ice shelves source from ice sheets that have extended over onto the ocean

Sea ice is ocean water that has frozen

Question 26

Be able to recognize different types of glaciers shown in class.

Answer 26

Mountain: cirque, valley, piedmont (think alluvial fan), ice caps (not topographically confined)

Continental: ice sheet, ice shelves (basically ice sheet but over the sea…NOT sea ice)

Question 27

What percentage of fresh water is in glaciers? What percent of that in the two main ice sheets?

Answer 27

70% of fresh water is in glaciers

85% of that in Antarctic ice sheet

10% in Greenland ice sheet

Question 28

What is the equilibrium line? what are the zones on either side, and what distinguishes them?

Answer 28

the line above the zone of accumulation and below the zone of ablation

accumulation: more snow/ice falls than melts per year
ablation: more snow/ice melts than falls in a year

Question 29

Processes of glacial advance and retreat

Answer 29

advancing: zone of accumulation overpowers zone of ablation (when flow exceeds melting)
retreating: zone of ablation overpowers zone of accumulation
- glaciers don’t move backwards, they just stop flowing or melt faster than they flow

Question 30

About how fast do glaciers usually move?

Answer 30

10-300 m/yr

Question 31

What are the two ways that glaciers move?

Answer 31

Internal flow + basal sliding

Question 32

What is distinctive about glacial deposits?

Answer 32

It transports material of all grain sizes, making for distinctly poor sorting

Question 33

Two ways glaciers erode, and the nature of sediment produced by both

Answer 33

Abrasion - creates fine sediment

Plucking - creates course sediment

Question 34

What makes drumlins different from roche moutonnée?

Answer 34

Bedrock vs sediment

Steep vs gradual down flow side

Question 35

Four kinds of moraines?

Answer 35

lateral
medial 
end 
recessional
ground

Question 36

Be able to identify the following glacial features discussed in class on photographs: lateral moraine, medial moraine, end moraine, drumlin, roche moutonnée, cirque, tarn, horn, hanging valley, arete, kettle

Answer 36

lateral m: on the sides

medial m: in between multiple glaciers

end m: at the end, obvi

drumlin: sediment hill thingy

roche moutonne: bedrock hill thingy

cirque: glacier that’s carved the bedrock into a bowl
tarn: meltwater lake in cirque
horn: sharp peak carved by glacier

hanging valley: created when a smaller, shallower glacier intersects with a bigger, deeper one

arete: bedrock ridges

kettle lake: chunk of ice breaks off and melts

Question 37

Be able to determine ice flow direction from a photo or diagram of a drumlin or roche moutonnée

Answer 37

Remember:
rouch moutonee: bedrock, steep on the downflow side

drumlin: sediment, gradual on the downflow side

Question 38

What is an esker (from reading)

Answer 38

A ridge of sorted sand/gravel that snakes across a ground moraine

Sediment was deposited in subglacial meltwater tunnels

Question 39

What kind of streams flow from glaciers

Answer 39

braided streams (outwash)

Question 40

Significance of pluvial lake

Answer 40

show cooler/wetter climage of ice ages + location of old glaciers bc these are lakes in now arid regions

Question 41

Name of highlighted pluvial lake and highlighted meltwater lake, and what kinds of lakes occur all over eastern SD and Minnesota?

Answer 41

Pluvial lake (ice age lake now in arid area): Lake Bonneville in Great Basin

Meltwater lake: Glacial Lake Agassiz

-kettle lakes (prairie potholes)

Question 42

What is loess, and how does it relate to glaciers?

Answer 42

It’s fine sediment/silt deposited by glaciers into braided streams, picked up by wind, and then deposited elsewhere.

Question 43

How does the land surface respond when a continental ice sheet melts away? (uplift, subsidence, or stays the same?) (from reading)

Answer 43

Gradually, the surface rises back up (aka post glacial rebound). The lithosphere/asthenosphere rises up at millimeters per year, so it takes years for ice-depressed continents to rebound.

Question 44

Difference between zone of saturation and the unsaturated zone, and why it matters

Answer 44

saturated zone is where all available voids are filled, sitting below the unsaturated zone.

Wells can only pulls water form the saturated zone; if they tried to pull the water from the unsaturated zone, they’d only pump up air (think of a slurpee)

Question 45

What is groundwater

Answer 45

water occupying void spaces in the solid earth in the saturated zone (where all available voids are filled)

Question 46

How is the water table defined?

Answer 46

the surface at the top of the saturated zone

Question 47

How does groundwater flow relative to contours of the water table?

Answer 47

Perpendicular to contour

Question 48

Top three overall water uses in U.S. (in order)

Answer 48

#1 thermoelectric power
#2 irrigation
#3 public supply

Question 49

What % of U.S. public water supply from groundwater?What % of South Dakotans get their water from groundwater?

Answer 49

39% of US public water supply is groundwater

78% of South Dakotans get water from groundwater

Question 50

Porosity vs. permeability?

Answer 50

porosity: amount of open space in a rock/sediment
permeability: ability of a rock/sediment to transmit water

Question 51

What is an aquifer

Answer 51

a rock/sediment unit from which groundwater can be extracted

Question 52

What kind of rocks or sediments makes the best aquifers?

Answer 52

sand, sandstone, limestone, well sorted gravel

Question 53

Basics of two highlighted aquifers in South Dakota discussed in class

Answer 53

Big Sioux: east river, in glacial “outwash” and other stream sediments

High Plains: in Miocene-Pliocene stream deposits, south-central part of state, extends into Texas, severely overdrawn

Question 54

Clay & shale has have high porosity; why can’t these make good aquitards?

Answer 54

They have high porosity but LOW permeability because their pore space is small

Question 55

What is a confined aquifer?

Answer 55

an aquifer with a capping, confining layer

Question 56

What creates a perched aquifer?

Answer 56

a shallow aquitard of limited extent

Question 57

What is the zone of recharge?

Answer 57

where the water enters the aquifer

Question 58

How does a cone of depression form, and what are the potential consequences?

Answer 58

when the hydraulic gradient changes directions and contaminants are transported into groundwater (wells are drilled where the gradient is declining instead of where it is rising)

Question 59

Difference between stalactites & stalagmites

Answer 59

stalactites: deposited from ceiling
stalagmites: deposited on floor

Question 60

What term describes a landscape created by groundwater dissolution?

Answer 60

karst/tower karst

Question 61

In what rock type does groundwater most commonly create a distinctive landscape?

Answer 61

limestone

Question 62

How do sinkholes form? and where, in the U.S., are they most abundant?

Answer 62

Dissolution creating caves causes collapse at the surface

most abundant in Florida….?

Question 63

% of earth covered by water? What % of that is oceans?

Answer 63

71%

97% of that is oceans

Question 64

% salt in saltwater

Answer 64

3.5%

Question 65

Relationship between wavelength and depth at which waves “feel bottom” and term for this depth

Answer 65

The depth is called the wave base and is about 1/2 a wavelength (one crest to another)

displacement of water particles happens in orbital motion

Question 66

How does sediment get transported parallel to shore?

Answer 66

via the longshore current

Question 67

How do waves refract? Effect on headlands and coves

Answer 67

Waves slow as they reach shore. some parts are closer to the shore than others so they bend/refract to approach more directly

Energy lessened on coves; energy concentration on headlands straightens coastlines

Question 68

Difference between longshore current and longshore drift

Answer 68

The current is the motion of the crashing waves along the land

The drift is the moving sediment

Question 69

How do we attempt to control longshore drift?

Answer 69

Groins (curved on one side), jetties (straight on both sides), and breakwaters (curved on both sides)

Question 70

Recognize in photos/diagrams spits, baymouth bars, barrier islands, marine
terraces, tidal deltas

Answer 70

sand spit: longshore current comes from the side the sand spit is connected to

baymouth bar: comes form both sides

barrier islands: just think of the east coast islands

marine terraces: mountains/shores/cliffs with levels cut into them

tidal deltas: sandy, watery, grassy mess

Question 71

Be able to interpret the direction of longshore current by examining sand spits and jetties/groins

Answer 71

Look for the direction of accretion

Question 72

Have a basic understanding of the cause of tides (why two a day?)

Answer 72

Caused by the tide generating force (gravitational and centrifugal forces)

Two high and low tides; once when Moon is on same side and once when Moon is on opposite side

Question 73

In general terms, how much sea level changed in the last century? Since the last
ice age?

Answer 73

20 cm since 1900

100s of meters since last ice age

Question 74

In what ways does future sea level rise pose a threat? (two general ways)

Answer 74

1) some areas will become submerged

2) increased impact of storms

Question 75

Recognize and understand the formation of submergent and emergent
landscapes.

Answer 75

submergent: form when sea level rises and submerges landscaped carved above sea level (estuaries and fjords)
emergent: wave erosion + sea level drop/land surface rise (marine terraces)

Question 76

What country, where, is most threatened by sea level rise?

Answer 76

Maldives (Indian Ocean)

Question 77

What officially defines a desert, climatologically?

Answer 77

<25 cm (10 in) of rain per year

Question 78

How many U.S. states have deserts?

Answer 78

12

Question 79

% of land in deserts

Answer 79

25% of land surface is desert

Question 80

Controls on global wind patterns

Answer 80

moisture in air

whether air is rising or sinking

Question 81

Five different causes of deserts, and highlighted examples

Answer 81

descending air at 30 degrees: Subtropical (Sahara)

moisture lost over mountains: rain shadow (Great Basin)

moisture lost over great distance: continental interior (Gobi)

cold coastal currents, warm air above prevents rising: coastal (Atacama)

cold air holds little moisture + descending air + high pressure?: Polar (antarctica)

Question 82

How rising vs. sinking air affects atmospheric moisture and precipitation vs. dry

Answer 82

cells of rising/sinking air affect where places are dry wet

rising air carries water and precipitates it as it rises/shrinks

sinking air is dry and carries no water for precipitation

Question 83

Why are there deserts at 30 degrees north and south?

Answer 83

Because there are cells of sinking air there that are both dry and warm

Question 84

Where is the driest place on Earth (non-polar)?

Answer 84

The Atacama Desert in Chile/Peru

Question 85

On what side are dunes steepest? (upwind or downwind)

Answer 85

downwind

Question 86

Be able to recognize barchan, and transverse dunes in pictures or diagrams

Answer 86

Barchan (shaped like a parabola/horseshoe)

Transverse (perpendicular to the wind, more long looking)

Question 87

Be able to determine wind direction based on pictures of dunes

Answer 87

lol good luck

Question 88

Playas

Answer 88

evaporated desert lake

Question 89

The role of water in desert landform formation (and examples)

Answer 89

main landscaping agent
often in brief but intense rainfall events

playas, alluvial fans, mesas and buttes, cliff retreats

Question 90

Material that accumulates to make oil (and natural gas) vs. coal

Answer 90

buried algae and plankton (around.5 mm diameter) accumulated in a basin

Question 91

Under what conditions does natural gas form? (relative to oil)

What is natural gas made of mostly?

Answer 91

at higher temperatures, associated with crude oil deposits

it’s mostly methane, CH4

Question 92

Four things necessary to have an economic oil deposit

Answer 92

source, reservoir, seal, and trap

Question 93

Where is there more high-quality (more efficient, less polluting) coal being mined,
Appalachians or Wyoming?

Answer 93

I think it’s Wyoming?

Question 94

What is the leading renewable energy technology?

Answer 94

wind power

Question 95

Fossil fuel resource that the U.S. is the leader in reserves? (but not the leading
producer)

Answer 95

Coal

Question 96

Two fossil fuel resources that the U.S. is a leading producer, but not the leader in reserves?

Answer 96

Oil and natural gas?

Question 97

Recent changes in U.S. electricity production. one declining technology, two 
rapidly growing (using fairly general categories)

Answer 97

Coal is declining

Natural gas and renewables are increasing

Question 98

What kinds of folds can make traps for oil/natural gas? (2)

Answer 98

domes and anticlines

Question 99

What is the process of “fracking”?

Answer 99

A means of acquiring shale oil and natural gas by creating artificial porosity to free oil from fine-grained shale

Question 100

Two states that have greatly increased oil production by fracking

Answer 100

North Dakota + Texas?

Question 101

Negatives of tar sands as a fossil fuel resource

Answer 101

• destructive mining practices
• requires energy and water to process
• more CO2 released in processes

Question 102

What are cheapest energy technologies for new electrical power plants?

Answer 102

wind and solar

Question 103

What is special about energy production in Iceland?

Answer 103

25% relies on geothermal energy (mid ocean ridge AND hotspot)

Question 104

What is the range of concentration factors of important metals? (two highlighted
elements and concentration factors from lecture)

Answer 104

Aluminum: 3-4
Gold: 4,000-5,000

Question 105

Highlighted way in which igneous processes create ore deposits

Answer 105

igneous processes: settling of minerals in magma chamber

hydrothermal processes: hot fluids concentrate elements in or near intrusion

Question 106

How do placer deposits form?

Answer 106

in the beds of streams/lakes/channels

Question 107

Important material quarried for gravel and dimension stone near Sioux Falls
(southeast South Dakota)

Answer 107

Sioux Quartzite

Question 108

State whose oil production has declined substantially in recent decades

Answer 108

Alaska

Question 109

Rock that goes into making cement

Answer 109

Limestone

Question 110

What greenhouse gas is produced by cement production, and about how much
of it comes from this source?

Answer 110

CO2 (carbon dioxide), about 5-8%

Question 111

Astonishing fact presented in lecture about cement production in another country

Answer 111

China used more cement in 2011-2013 than the US used in the entire 20th century

Question 112

What are the differences between unidirectional changes, physical cycles, and
biogeochemical cycles?

Answer 112

Unidirectional changes can’t be reversed

Physical changes happen on a tangible observable level

Biogeochemical cycles happen at the molecular level over great distances

Question 113

Know highlighted examples of each of the types of global change

Answer 113

Unidirectional: planetary differentiation

Physical: supercontinent, rock

Biogeochemical: hydrologic, carbon

Question 114

Recognize examples of positive and negative feedback (if I give you a new example, recognize it as positive feedback or negative feedback)

Answer 114

Positive: self-reinforcing/promoting…a thing happening makes the thing happen more, and more effectively in the future (dam failure)

Negative: self-defeating (homeostatic thermoregulation)

Question 115

What makes a gas a greenhouse gas?

Answer 115

If it can trap long wavelength radiation in atmosphere

Question 116

Most abundant greenhouse gas

Answer 116

water vapor (but carbon dioxide is the most impactful)

Question 117

Understand the difference between climate and weather

Answer 117

Climate is the average and range of weather conditions for region

Weather is just what’s happening at a select point in time

Question 118

aquitard vs aquifer

Answer 118

aquifer: rock that holds the water
aquitard: Layer with low permeability