2240 exam

how are gyres formed

result of initial push of winds on ocean surface and of CORIOLIS deflection of moving water

project stormfury

an attempt to weaken tropical cyclones by flying aircraft into them and seeding with silver iodide

carbonaceous chondrites

high volatile content and carbon compounds - most primitive of all chondrites

asteroids have a ___ composition, analogous to early Earth

primary

does evidence support uplift weathering hypothesis?

YES - more than others, but cant explain one period of glaciations

impacts from Wilkes crater relation to Siberian Traps

Asteroids impacted the moon and mercury - shock waves travelled through and around the surface on opposite sides Fractures produced in one terrain deep enough to go to the other side

what effect does angle of impact have?

craters round regardless of impact

Paleocene-Eocene Thermal Maximum (PETM)

56.5 mya; atmospheric carbon dioxide was higher than it is today and the Earth was free (or nearly so of polar glaciers). It was a time of natural global warming

snowball earth

650 million years ago, earth's surface was at or close to freezing point - low reliability

the younger dryas event

A cold episode that took place about 11,000 years ago, when average temperatures dropped suddenly and portions of the Northern Hemisphere reverted back to glacial conditions.

positive feedback

interactions in climate system already in operation initiate responses that may amplify whatever forcing is going on

why are we most concerned with the troposphere

it controls weather

why does warm air rise?

its less dense than cold air

holocene mass extinction

largely due to the disruptive activities of modern Homo Sapiens

when is energy consumed?

more to less ordered, EVAPORATION

BLAG hypothesis

most CO2 in atmosphere comes from volcanoes - during times of rapid ocean floor spreading there are many volcanoes, so high CO2 (warmer climate)

what drives surface circulation

most driven by winds

what conditions are required to result in cooling

much fresh rock exposed, sufficient precipitation, abundance of time

what are jet streams?

narrow bands of strong winds

NEO

near earth objects, classified as PHO (potentially hazardous objects) - must be at least 150m diameter

what did we learn from Andrew? (spin-up vortices)

new whirlwinds, producing hurricanes most powerful winds in small areas

emissions from siberian traps - cause extinction?

no

can we predict hurricanes?

no; can predict path after formed though

is project stormify suucessful?

not really

does evidence support polar position hypothesis?

not really - doesnt explain absence of ice sheets or changes in atmosphere CO2 content

hypervelocity created created when

objects come in so fast, means not affected by atmosphere

climate change hypotheses

polar position, BLAG, uplift weathering hypothesis, ocean heat transport hypothesis

With forest canopy reduced, decomposition increases so soils can no longer absorb CO2 and we have ________ feedback system strengthening the greenhouse and accelerating the house process

positive

2 important points about forcing and response:

- ***rate of response of climate system is fastest when the climate system is farthest from the equilibrium it seeks - the system has many components, with different RTs

consequences of chesapeake

- 300m high tsunami - 50km debris blown into atmosphere, started filling hole

3 possible scenarios why climate is warming

- more atmospheric greenhouse induced by humans - slowly happening anyway; human contribution small - slow natural cooling trend, so human contribution huge

How does the thermostat of chemical weathering help explain the faint young sun paradox?

- Chemical weathering removed CO2 slowly, thus keeping greenhouse strong during paradox while energy was weak

permian triassic era

- Pangaea formed, climate dry, life gradually disappearing, climate was warming

how does a glacier become an ice sheet

- accumulations of snow exceed ablation (removal of ice) - cold climate for extensive period, stable platform

weathering reaction.process that removes carbon from reservoir and stores it in rocks

- acidic rain break down any rock containing calcium - Ca stays dissolved in water and combines with CO2 to form calcium carbonate

tunguska event (siberia)

- huge fireball covering the sky, then became dark - air shocks circled earth twice, gases reached 20km high - destroyed forests and friction caused fragments to breakup

consequences of 4x CO2 (5)

- ice free - dry land, new ocean currents - animal populations devastated - winter shortened 2 months - unable to provide basic accommodation

cause of millennial oscillations

- ice sheets break off, move across oceans cooling climate

why does climate vary - albedo

- light colours have high albedos, and more light is reflected back to space - % of radiation reflected rather than absorbed

snowball earth extinction?

- may have been several icehouse stages rather than one - argued would have ended life completely - showed life may have flourished during the Proterozoic

chesapeake bay crater

- not much evidence others than tektites until deep sea drilling project

how can plants speed up cooling process

- pull CO2 from air and add it to soil - breakup the rock with roots, providing more SA for reaction

benefits of mining an asteroid

- raw materials used as resources for building in space - minerals worth a lot of money - comets rich in water - liquid hydrogen and oxygen to create rocket fuel

what is a sonic boom and when does it occur?

- result of violent compression of air - occur if traveling at speed of sound or greater

what conditions are required for a hurricane to form

- severe cyclonic tropical storm in North Atlantic Basin - comes from belt of tropical trade counterclockwise around an eye with minimum speeds of 119km/h

how will future climate change affect frequency and location of hurricanes

- since added water vapour decreases air density, more upward air convection, encouraging hurricane development

what evidence do we have for past glaciations

- temp obtained from oxygen isotope data of ocean floor deposits - ice sheets from deposits left behind

why (and how often) do we oscillate between glacial and interglacial periods within the icehouse?

- will probably be in icehouse for several million years - for cycle to be regular, must be an orbital one - greenhouse effect weakening - harder to get out of glacial period once in it

predictions of polar position hypothesis (2)

1. ice sheets should appear on continents when they are located at or near polar positions 2. no ice sheets should appear anywhere on earth if continents dont exist near the poles

sequence of end cretaceous extinction

1. 160mya: asteroid collision in belt sent 10km into earth 2. hole through atmosphere 3. touch surface in 5s in Mexico 4. 3m deep into earth (flat disc) 5. blew hole 15km deep in crust 6. created much dust 7. fragments --> fireballs --> firestorm --> fireball layer - all forests burned 8. sulfur producing acid rain - night like conditions for 6 months 9. huge tsunami throwing debris 10. mich material added to atmosphere; greenhouse effect raising 15 degrees

5 factors affecting sea level (do they rise or fall?)

1. changes in volume of ocean ridges (higher) 2. collision of continents (lower) 3. construction of volcanic plateaus on ocean floors (higher) 4. water storage in ice sheets (higher) 5. thermal expansion of water (lower)

different types of thunderstorms (3)

1. multicell - hours, hail, damaging winds, floods, tornadoes 2. squall line - miles long in a line for hours supercell - clockwise winds, changing speeds, huge single-cell producing high winds and hailstones

thunderstorm stages

1. towering culumus - cloud grows vertically, air moves up with turbulence 2. mature stage - storm grows higher, most dangerous 3. dissipating - air moves down, cumulus dissipates, light winds and weak rains (anvil shaped top)

how does the size of the meteoroid affect the size of the crater?

15-20x larger

Permian-Triassic event age (mass extinction?)

251.4 Mya - most catastrophic mass extinction ever

earliest life forms

3.8 billion years ago - no free oxygen; oceans only supporting anaerobic simple life forms

storm surge

A dome of water that sweeps across the coast where a hurricane lands

the little ice age

A period of cooling temperatures and harsh winters that lasted for much of the early modern era 1.5 degrees lower and huge impacts

Isotopes

Atoms of the same element that have different numbers of neutrons

what did comets/asteroids bring to earth that contributed to life?

Building blocks of life (amino acids) coming from rain of comets and carbonaceous chondrites

what will cause collapse of rainforests?

CO2 rises, transpiration reduces, and so does plant growth - Without rainfall, temp at ground level will soar

what gases did the deccan trap eruptions contribute to the atmosphere

CO2, SO2

what drives deep water circulation (density but how?)

Density of ocean water can be increased at low latitudes when the atmosphere evaporates water vapor, leaving the remaining water saltier (more dense)

Ordovician Period (1 of the big 5)

ENVIRONMENT - Formation of supercontinent, glaciers forming, volcanoes due to subduction à greenhouse and waters warming EXTINCTIONS - Due to intense, short-lived glaciations and lower sea levels

cambrian period (environment and extinction)

ENVIRONMENT - break up of Rodinia, shallow seas, breaking triggered snowball earth, nothing living on land, seas started to become habitable EXTINCTION - intense competition, global cooling and lowering sea levels, anoxic ocean waters

Triassic period (4/5)

ENVIRONMENT: Pangaea breaking, shallow seas, no glaciations, age of reptiles, mammals appearing EXTINCTIONS: CO2 from volcanism, warming oceans, methane, anoxic oceans

cretaceous period (5/5)

ENVIRONMENT: Pangaea broken, lots of shallow warm seas, marine life, dinosaurs, mammals EXTINCTION - ended with horrible one

Quaternary Period (the 6th?/our period)

ENVIRONMENT: continents drifting, icehouse climate with glacial/interglacial periods, mammals and flowering thriving, holocene mass extinction in progress

permian period (3/5)

ENVIRONMENT: pangaea formed, dry climate on land, high biodiversity in oceans EXTINCTION: 90% in ocean, 70% on land

devonian period (2/5)

ENVIRONMENT: warm shallow seas, few glaciers, lots of fish, life moving onto land, plants using CO2 EXTINCTIONS - first (impact), second (anoxic ocean water)

Bedout Crater

End-permian crater off the northwest end of Australia, same size as Chicxulub

some limitations of proxies

Erosion and tectonic activity decreases chance that very old sedimentary records will be preserved as time passes

positive/negative feedback example

Ex. decrease in heat energy from the sun; ice and snow grow and because they reflect more sun than ground, any increase should then decrease because of heat absorbed (positive feedback) Negative feedback: increased temperatures resulting in increased evaporation; formation of more clouds results in muting effect as will reflect sun's energy and reduce warming

why are there gaps in the asteroid belt

Gaps related to orbit frequency of Jupiter - gravitational pull draws asteroid away, sending it into wide elliptical orbit

What potentially caused the release of methane clathrates from the ocean floor?

Global warming; clathrates on ocean floors warming and breaking down releasing much methane, killing most marine life

hurricane Katrina

Louisiana, category 3, $75 billion in damage, grew as it passed (warm water evaporates and lends latent heat to fuel hurricanes)

hurricane Andrew

Homestead/Miami, category 4, 25 billion in damages, 50 deaths

methane and holocene extinction

If temperature is increased (probable), the icy solid will begin to breakdown, releasing colossal volumes of methane into the atmosphere (stronger than CO2)

evidence of large amount of organic decay: (so methane production)

Increase in 12C isotope of carbon (normally marks process of rotting organisms

how was the moon formed

It was formed by debris from a collision between Earth and a Mars-sized protoplanet - 4.5 billion years ago - splashed molten material

deccan traps

Largest basalt flows on earth, possibly contributed to the mass extinction at the end of the cretaceous

expanded linear scale vs logarithmic scale

Logarithmic scale method compresses the longer periods of time and expands the shorter ones

does evidence support ocean heat transport hypothesis

NO records show opposite trends

where do hurricanes form

North Atlantic, Northeast Pacific, South Pacific

What are adiabatic processes?

Occur without addition or subtraction of heat from external source

Why did oxygen build up in earth's atmosphere?

Once the ocean became saturated the oxygen the prokaryotes were synthesizing went into the atmosphere

importance of impacts in formation of earth

Possible the carbon-water based earth materials were brought together via collisions of asteroids and comets with earth

scale used to classify hurricanes higher numbers _____ severe (less or more)

Saffir-Simpson Scale Higher numbers less severe

shatter cone

Small, cone-shaped fractures formed by the shock of a meteorite impact.

how/where do changes in density result in deep water circulation?

Some of the salty water is carried north by Gulf Stream where it cools and sinks, water mass called north Atlantic deep water

two largest impact features on earth

Sudbury creater and Chicxulub, Mexico

PHA scientists are most concerned with

TOUTATIS - crosses earths orbit every for years - killing potential of 75% of species; called doomsday asteroid - looks good for 500 years

Coriolis effect

The effect of Earth's rotation on the direction of winds and currents

great oxygenation event

The time in Earth's history, about 2.4 Ga, when the concentration of oxygen in the atmosphere increased dramatically.

What caused the Younger Dryas cooling event?

Thermohaline circulation mixes oceans and spreads out heat. It can be interrupted by large runoff of freshwater due to melting glaciers.

negative feedback in holocene mass extinction

This is negative feedback for global warming; could override the 'super interglacial' condition, and plunge us into a glacial period - collapse of rainforests

why are costs of hurricanes increasing?

Too many governments allow people to inhabit land doomed to recurring storm damage

layers of the atmosphere

Troposphere - surface to 12-20km; Stratosphere - up to 50km (Ozone rich layer); Mesosphere - up to 80km (Asteroids or meteoroids first begin to burn); Thermosphere - up to 500-700km

how could warming ocean temperatures increase anoxic ocean waters?

Warmer whole ocean becomes, the less oxygen is dissolved and the slower the flow pattern - more oxygen-poor bottom waters - bottom waters become oxygen starved (anoxic)

when do hurricanes form?

When sustained light winds blow over warm oceans

are we in danger of another space impact event

YES - 1km diameter every million years (ZHAMANSHIN size)

negative feedback

a mechanism of response in which a stimulus initiates reactions that reduce the stimulus

torino scale

a system that allows scientists to rate the hazard level of an object moving toward Earth and inform the public

how do we seed hurricanes to reduce energy/wind speeds?

adding silver iodide or dry ice with airplane to produce ice crystals, reducing some latent heat and widening eye to spread energy

types of meteorites (3)

aerolites/stones - silicate materials, most primative siderolites (stony irons) - mantle-core siderites/irons - metallic core of large asteroid

how do convection cells (Ferrell and Hadley) affect climate?

air movements associated with the boundaries lead to formation of jet streams

latent heat

amount of energy absorbed during a change of state

what is a comet, where are they found?

an object made of gas, ice, and dust that orbits around the sun - surround planets called oort cloud

apollos vs amors

apollos - actually intersect earths orbit amors - intersect orbit of mars

what names describe asteroids travelling close to earth and mars? (2)

apollos, amors

Barrington Crater

arizona, famous meteorite - simple crater, 45m rift, 1km acorss

negative feedback in uplift hypothesis:

as CO2 is pulled from the atmosphere, climate will cool to the point that the factors essential for weathering will slow

why do meteorites slow as they plumet to earth

as you go down, the atmosphere density increases and so does friction, objects slow - can be melted

Permian extinction hypothesis

asteroid impact - materials found but not crater

why does climate vary - latitude

because of amount of increasing sunlight is different at the equator vs the poles

polar jet stream

bring down cold weather conditions from the north - aids in development of storms

subtropical jet stream

bring up warm weather conditions from the south - help develop and steer storms

***negative feedback mechanism

chemical weather is the active thermostat

tektites

consist of glass of the same composition as rocks hit by space objects

tertiary period

continents drifting to present location, climate cooling to icehouse, mammals and flowers thriving, background extinctions

inward spiral flow in cyclone

convergence, leads to cloud cover and rain, counterclockwise

What were the consequences of oxygen buildup in the atmosphere

deadly to most abundant organisms - positive: many oxygen-containing minerals were created

effects of vegetation (destroying it)

destroyed a biomass carbon sink

what causes air to rise? (3)

differential heating, cold fronts, terrain

outward spiral flow of anticyclone

divergent, cold air drawn down, clockwise

Did the climate warm or cool as a result of the Deccan Trap formation

dropped/cooled

deformation twins

due to applied stress as a mechanism for accommodating strain

why are humans concerned with hurricanes?

effects: heavy rain, strong winds, large waves which can result in storm surge

what assumptions are in the 4x model

emissions would not decline until after 2100, having been controlled some decade or two earlier by strong regulation

immediate consequences of barrington impact

energy --> heat; dust darkened the sky, all life around destroyed by wildfires

knietic energy & formula

energy of a moving object - 1/2 mass x velocity2 - larger = more = bigger craters - transformed to heat upon impact

two options for dealing with imapct

evacuate, destroy/deflect

characteristics of fireball layer and ejecta layer

fireball: 3mm thick, 1500 cubic km of carbon-rich debris ejecta layer: lower, 2cm, - tektites and many minerals

relationship between "forcing factors" and "responses"

forcing - factors that cause climate changes response - variation in climate produced by the forcing event

how is the ejecta blanket formed/what is it

formed following impact when hot gases in crater expand explosively and material hurled out of the crater

how we use isotopes of fossil materials to determine past temperatures

fractionation is larger at lower temperatures

fractionation vs temperature

fractionation: the variation in isotopes among materials temperature: factor fractionation varies

what two factors increase weathering rates?

fresh rock surface area, finer grain size

how/where do hadley and ferrell cells form?

from Coriolis effect breaking up flow of air between equator and poles

density is low...

high elevation, hot days, when atmosphere pressure is low

how meteoroids break up before impact

high pressure air seeps into pores and cracks, pushing the body apart and causing it to explode

high pressure vs low pressure zones

high: pressure is increasing - air is cooling and sinking, outward spiral low: pressure decreases - air heating and rising, inward spiral

what kind of climate are we experiencing now?

ice house; in an inter-glacial cycle

PETM effects

ice sheets forming, leading to icehouse - temp rose 6 degrees - tons of carbon released to oceans and atmosphere - sea levels rose - warming oceans changed circulation directions - extinction of deep ocean life

icehouse vs greenhouse

icehouses are major cold periods; greenhouses are other extremes

faint young sun paradox

if sun's energy decreased by a few %, all water on earth would freeze - weak sun, yet earth warm enough to have water

strength of sun has slowly ____ through history (increased or decreased)

increased

when is energy released?

less ordered to more ordered; CONDENSATION

identifying features of ejecta blanket

light in colour, weathered rocks

slushball earth

liquid oceans at equator and oceans of tropics would have been more slush

why might life have flourished in snowball earth/Proterozoic

lots of theories, with little proof - cold periods may have killed off some predator species - may have promoted reproduction across species to survive

density is high when

low elevations, temp low, and pressure high

silurian period

mild, shallow seas, not much happening

3 things needed to make a thunderstorm

moisture, atmospheric instability, lifting mechanism

features used to identify impact crater

overturned rim, ejecta blanket, breccia floor

Jurassic period

pangaea breaking, lots of volcanism, hot, no glaciations, golden age of dinosaurs, mammals hanging in there only background extinction

where did oxygen come from?

photosynthesis; prokaryotes

two types of climate models

physical models - emphasize things like atmosphere and ocean current variations geochemical models - track movement of distinctive chemical tracers through the climate system

uplift weathering hypothesis

process of weathering rocks reduces CO2 in the atmosphere and cools climate - weather is the active driver rather than thermostat of climate change

ex. of climate proxy record

quality of wine harvests (poorer climate = poorer harvest = higher price)

what hypothesis would need to combine to explain the permian extinction?

rapid global warming release of CO2 from Siberian traps - distribution of ocean flow and beginning of deep water anoxia - dissolution of methane hydrates

what is a climate proxy record

record of some natural event that is so closely controlled by climate, it mimics climate

significance of storing carbon in rocks for long periods

reduces CO2 content in atmosphere

how is the rim of the crater formed?

rocks at the rim are turned upward and even overturned

NEA

same as NEO but near earth asteroids specifically

the ocean heat transport hypothesis

sea levels control long-term icehouse-greenhouse climates: high sea levels cause warmer climates, low sea levels cause colder climates

thermocline

separates warm, shallow water from cold deeper water

hurricane

severe tropical storm producing violent winds, high waves, torrential rains, and floods

simple vs complex craters

simple: under 4km, rounded with uplifted rims complex: over 4km, larger rims with walls slumping inward

whats a chondrule and how does it form?

small spherical object with crystallized molten

sea swells (effects on oceans)

smooth long period waves that move out in all directions from the storm center ; Can be 6-12 hours ahead of the eye

storm-center velocity

speed of entire storm (pushed by regional winds)

positive feedback in holocene mass extinction

strengthening the greenhouse and accelerating the house process - methane release from seafloor

where can we find a constant supply of fresh rock surfaces?

striped-sided mountains, high plateaus, high terrain

differential heating

surface doesn't heat evenly creating pockets of warm air called thermals that tend to rise

natural causes of climate change

tectonic activity, orbital factors, millennial factors

3 main external forcing factors

tectonic, orbital, sun strength

climate data archives - what do we have?

temp and air pressure for about 200 years, increasingly use balloons and satelites

convection cells are formed as a result of changes in ______

temperature

thermohaline flow

the flow of deep-ocean waters made denser by coldness (thermo) and saltiness (haline)

relationship between impact size and frequency

the large a meteor, the less frequently it impacts

response time

time it takes for the climate system to react fully to some factor

examples of extinctions recently

toad and pigeons

stages of hurricane formation

tropical disturbance, tropical depression, tropical storm, hurricane

time span different proxies can cover

up to 100 million years

terrain (storm)

upslope storms form as air moves laterally across landscape

Orbital (Milankovitch) Cycles

variation in position of Earth's axis and orbit around the sun - tilt changes, wobble changes

the relationship between water vapor (humidity) and the density of the atmosphere

water vapor has lower mass than other molecules; adding it replaces some of the heavier molecules, decreasing denity

where does energy for a hurricane come from

water vapour condenses, releasing latent heat energy

cold fronts

when two air masses of different temperatures meet - uplift of moist, unstable air results in thunderstorms

global scale

where Hadley and Ferrell cells return cool air towards the surface we have high pressure zones with little rain

hurricane-wind velocity

winds travelling fast, counterclockwise around an eye

does evidence support BLAG hypothesis

yes, climate cooling noticed as sea-floor spreading slowed - limited as rocks have been subducted

how does the weathering process act like a thermostat

· CO2 in atmosphere would be reduced and climate would cool · Should also work the other way - cool climate with little CO2 in greenhouse would have much less rain, rivers, and streams