EAE3311 Lecture 8 COPY Flashcards

1
Q

What depth are Surface water masses?

A

Upper 500m

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2
Q

What depth are Intermdeiate water masses?

A

500-1200m

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3
Q

What depth are deep water masses?

A

1200-4000m

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4
Q

What depth are bottom water masses?

A

Below 4000m

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5
Q

What is the the abyssal circulation?

A

The presence of deep cold water at lower latitudes

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6
Q

What is Ventilation?

A

Transmission of surface characteristics to deeper layers

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7
Q

What is charactersistion of the Labrador Sea?

A

Intermediate Water Convection (heat loss, eddy)

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8
Q

Atlantic Ocean Stratification

What is a front?

A

The boundary between two distinct water masses

I.e. Where the different water masses meet

Strong horizontal gradients of temperature/salinity

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9
Q

Atlantic Ocean Stratification

Where is the coldest water formed?

A

Off the coast of Antarctica

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10
Q

How does temperature and salinity change?

A

Both temperature and salinity are conserved properties.

They are modified only by interaction with the atmosphere and mixing with other waters and not by biological or chemical activities.

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11
Q

Compare stratification in Pacific and Atlantic.

A

Pacific Ocean less complex stratification than Atlantic

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12
Q

What is the Mixed Layer?

A

At the surface of the ocean, wind stirs the water creating a well mixed layer of uniform denisty

(typically 100 m or less)

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13
Q

What is the Pycnocline?

4 points.

A

The depth range at which density changes rapidly

  • Pycnocline not present in the poles
  • The ocean’s pycnocline is very stable thus suppressing mixing between the mixed layer and deep layer
  • The pycnocline acts as a barrier to vertical motion within the ocean.
  • The pycnocline is a porous barrier, transfer of kinetic energy occurs, and most importantly: settling of particles traverses the boundary

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14
Q

Describe

Light Penetration into the ocean

2 points.

A

IZ = I₀ e⁻ᴷᵈ ᶻ

IZ = Irradiance at depth z

I₀ = Irradiance at the surface

Kd = attenuation coefficient (m⁻¹)

  • Exponential decrease with depth
  • Kd will be different for each wavelength

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15
Q

What is the Euphotic Zone?

3 points.

A

The zone above the depth where Iz = 1% of I₀

  • At 0.1-1% light: Photosynthesis = Respiration (compensation depth)
  • Clear waters ~200 m deep
  • In turbid waters <1 cm

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16
Q

What gases are primarily disolved in the ocean?

A

CO₂, O₂, N₂

These three gasses are non-conservative (influenced by biology) Ratios are modified by life
The amount of dissolved gasses in a liquid is proportional to the partial pressure in the gas phase

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17
Q

How does the oxygen level vary at the surface?

A

Equilibration of surface ocean and atmosphere occurs on a time scale of roughly one year

During the day, photosynthesis>respiration i.e. Net O2 production→ supersaturates the surface water

During the night, respiration only → undersaturation

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18
Q

What is Positive gas flux?

A

Net transfer of oxygen to the ocean from the atmosphere

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19
Q

How does CO₂ interact with the ocean?

4 points.

A
  • CO₂ gas disolves in water just like other gasses
  • CO₂ then reacts with the water (forms Bicarbonate and Carbonate ions)
  • Only CO₂ exchanges in the atmosphere
  • The direction and strength of the reactions are strongly dependent on pH

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20
Q

Why doesn’t pH continue to decrease with depth (even increases slightly)?

A

Respiration (reduces pH) is balanced with shell dissolution (which increases pH) = The carbonate Buffering system

CO₃²⁻+Ca ⇔ CaCO₃

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21
Q

Why is the Pacific more acidic than the Atlantic?

2 points.

A

This is related to the circulation, biology and chemistry in the ocean

  • Calcite compensation depth in the North Pacific is dramatically shallower than the North Atlantic
  • The Pacific holds older water masses, and they accumulate more CO₂ (from dissolution of shells as they age)

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22
Q

What are the Dissolved Nutrients?

A

Most Important: Nitrogen, Phosphorous

Also important (sometimes limiting): Silicon, Iron, Zinc

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23
Q

What is the Biological Pump?

3 points.

A
  • Phytoplankton extract dissolved inorganic nutrients out of the surface water
  • Combine them in their organic matrix
  • Sink and Decay (returned to dissolved state) in the deep ocean

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24
Q

What determines ocean fertility?

3 points.

A
  • The abundance of nutrients determines how fertile the oceans are.
  • A measure of this fertility is the primary production, which is the rate of fixation of carbon per unit of water per unit time.
  • Primary production is often mapped by satellites using the distribution of chlorophyll.

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25
Q

What are Prochlorococcus?

5 points.

A
  • Phytoplankton
  • cyanobacteria
  • ~5% of global photosynthesis
  • ~ 50% of the chlorophyll in your samples
  • Requires nutrients, Utilises DIN

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26
Q

What are the minor nutrient inputs?

3 points.

A

Pelagic

  • Eolian dust
  • Nitrogen Fixation
  • Aerosols (atmospheric deposition)

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27
Q

What are the major nutrient inputs?

2 points.

A

Neritic

  • Attached to terrigenous sediments (rivers, glaciers…)
  • People

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28
Q

What happens to the pycnocline at high latitudes?

A

No pycnocline at the high latitudes

surface water is cold and therefore the density gradient is weak

→ vertical mixing of water to depths greater than the euphotic zone

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29
Q

What is the Physical Carbon Pump?

A

Downwelling currents bring DIC into the deep ocean
Upwelling brings cold ocean to the surface (degassing)

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30
Q

What is the Arctic Convergence?

A

Areas where surface water cools and ice forms.

31
Q

How fast is Thermohaline Circulation?

A

10-20 km/year