Earth's Climate System (Lectures 42-47) Flashcards
Earth’s energy balance equation
S₀(1-α) * πr^2 = σT^4 * 4πr^2 S₀(1-α)/4 = σT^4 S₀ is solar constant α is albedo σ is Stefan Boltzmann's constant
In the energy balance equation for Earth, what is assumed about Earth?
It is a blackbody radiator
How does the energy balance equation change when considering the Earth as a grey body radiator?
RHS * ε
Where ε is emissivity
What is the average albedo for the Earth?
What is the emissivity for the Earth?
- 3
0. 62
Define a greenhouse gas
One that absorbs infrared radiation
Name the key greenhouse gases
Water vapour Ozone CO2 Methane Nitrous oxide CFCs
How does incoming solar radiation vary with latitude?
Lower latitudes receive more radiation
Why do lower latitudes receive more energy from the Sun?
Rays are more perpendicular to the surface at the equator
Rays must travel through a greater thickness of atmosphere in polar regions
What are the two mediums by which heat is transported from the equator to higher latitudes?
Where are they most important?
Ocean - carrying heat out of the tropics
Atmosphere - latitudes greater than 20
What are the three atmospheric circulation cells?
Hadley - 0 to 30 latitude
Ferrel - 30 to 60 latitude
Polar - 60 to 90 latitude
Persistent wind belts are caused by which two factors?
How are these wind belts affected by rotation?
Atmospheric pressure gradients - air flows from high to low pressure
Acted on by the Coriolus force (from Earth’s rotation)
Deflected to the right of motion in the northern hemisphere, to the left in the southern hemisphere
What is the effect of persistent winds applying a torque to the surface oceans?
Clockwise gyres in the northern hemisphere
Counterclockwise gyres in the southern hemisphere
What are greenhouse gases good at absorbing, what are they poor at absorbing?
Long-wavelength IR emitted by Earth
Short wavelength radiation emitted by the Sun
What are the three potential ways to change the average surface temperature of Earth?
Change the intensity of solar radiation
Change the albedo
Change the emissivity
What is the solar constant?
The power per unit area at the top of the Earth’s atmosphere
What are sunspots caused by?
When do they increase?
Intense magnetic fields that inhibit convection and form areas of lower surface T
During active periods when output is greater
What is the faint young sun paradox?
How is this countered?
The sun was 30% dimmer at the Earth’s formation 4.5 B years ago so Earth’s T should have been below freezing but water existed
Greenhouse gas levels were much higher
What is the rough albedo of water, sea ice and fresh snow?
Water: 0.05
Sea ice: 0.4
Fresh snow: 0.85
What is the current trend of September sea ice in the Arctic ocean?
It’s a consequence of what?
Steady decline
Global warming
Why does replacing sea ice with open water generate a strong positive feedback loop?
Decreases albedo
Increases absorption of heat by seawater
Temperature rise so more sea ice melts
What is a snowball Earth?
What is the tipping point?
Entire earth covered in ice/snow
Ice reaches 30 degrees latitude
What is the general albedo of clouds, what do they reflect?
High albedo
Reflect incoming short-wave radiation
How do clouds act as both a negative and positive feedback for global warming?
Which is the stronger of the two?
Increased cloudiness leads to cooling by increasing albedo
Clouds are made of water vapour, a strong greenhouse gas, increased water vapour absorbs IR
Negative feedback is slightly greater
How do volcanic eruptions affect albedo and global temperature?
SO2 injected high into the atmosphere
Sulfate aerosols reflect incoming radiation and increase albedo
Temperature decreases
What is emissivity?
What does it relate to?
The proportion of outgoing energy lost to space relative to that retained by the atmosphere
Greenhouse gas levels
What is the net radiative forcing from anthropogenic greenhouse gas emissions since the Industrial Revolution?
+1.6 W/m^2
The equation for the steady-state temperature change
ΔT(s) = λΔF
λ is the climate sensitivity
ΔF is the radiative forcing
How is λ, the climate sensitivity, worked out?
Differentiate grey body energy with respect to T, then divide 1 by it
How is the total temperature change worked out?
ΔT(total) = ΔT(s) + ΔT(fast feedbacks) + ΔT(slow feedbacks)
What are considered as fast feedbacks?
What are considered as slow feedbacks
Water vapour, clouds, sea-ice (<100 years)
Ice sheets, vegetation (>100 years)
What does the climate sensitivity value mean?
A temperature change of x degrees for every 1 W/m^2 of radiative energy gained/lost by the Earth
What is Charney’s estimate for doubling CO2 concentration?
Total sensitivity including fast feedbacks to be 3 degrees C
What is a reservoir, what are they measured in?
What is flux, what is it measured in?
Storage of a mass of carbon, Gt of C
Movement of masses of carbon, Gt of C per year
Define residence time
Define steady state
How is residence time calculated?
The average amount of time that a mass resides in a reservoir
Input flux equals the output flux
Mass of reservoir / input or output flux
What are the 5 main carbon reservoirs in order of size?
What are their rough sizes?
Atmosphere - 600 Gt Surface ocean - 900 Gt Biosphere - 2100 Gt Deep ocean - 37100 Gt Sediments and rocks - 10,000,000 Gt
What is the main process of carbon exchange between the atmosphere and biosphere?
The two processes almost balance, where does some carbon get transported to?
Photosynthesis - atmos to bio
Respiration - bio to atmos
By water into rivers and then oceans
In the northern hemisphere, why does CO2 concentration rise in the winter and fall in the summer?
Lower photosynthetic rates in winter
Respiration > photosynthesis
CO2 rises
What is the law and the equation for it by which CO2 dissolves in seawater?
Henry’s law
p = k(H)C
p is partial pressure, C is concentration, k(H) is a T varying constant
