physical oceanography

by Daniel B.

How much area of the earth is covered by water? What are the proportions of fresh and salt water?

70% covered by water
3% of water is freshwater
70% of freshwater is found as ice

Whatt are the five large ocen basins?

Pacific
Atlanttic
Indian
Southern
Arctic

What are Margianl seas?

Fairly large basins of salt water that are connected to the open ocean by one or more small narow channels e.g. North Sea, Baltic Sea

-> those connected by very few channels sometimes are called Mediterranean Seas

What are Straits?

connect seperate ocean regions

What are sills?

Ridges that seperate basins

How deep is the ocean?

Mean: 3734m

Median: 4093m

Deepest: 11022m Mariana Trench

What are the most important facts about the Pacific?

Mean depth: 4188m
Deepest point: Maraiana Trench
46% of world ocean area
52% of world ocean volume
Land boundary in the North only broken by Bering Strait (50km deep)

What are the most important facts about the Atlantic?

Mean depth: 3844m
Deepest point: 9219m
23% of world ocean area
24% of world ocean volume
Midatlantic Ridge

What are the most important facts about the Indian Ocean?

Mean Depth: 3872m
Max Depth: 7455m
20% of global ocean area
21% of global Ocean volume
conneced tp Pacific by Indonesian Throughflow
Home to the Monsoon system

What are the most important facts about the Southern Ocean?

Conects Pacific, Atlantic and Indian Ocean
no meridional boundary
permanent ice shelves and seasonal sea ice
8.8% of global ocean area
Antarctic circumpolar current

What are the most important facts about the Arctic Ocean?

smallest of the Oceans
widest continental shelf of all oceans
nerly surrounded by land, only outlets are the Bering Strait, Davis Strait, Denmark Strait and the Norwegian Sea

What are continental margins?

submerged edges of the continents
consist of massive wedges of sediment eroded from the land and deposited along the continental edge
can be divided into three parts:
- shelf
- slope
- rise

What are the main characteristics of continental shelf, slope and rise?

Shelf:

<150m water depth
1-1000km wide
most of the oceans fisheries are located here
bottom gradient: 0.5°

Slope:

100m-several km depth
10-200km wide
bottom gradient: 4°-6°

Rise:

3000-4000m water depth
100-500km wide
bottom gradient: 0.5°-1°

What are submarine canyons? How do they form?

Structures on the continental slope that are formed by turbidity currents

What are the Deep Ocean Provinces?

Area between the continental margins and the mid ocean ridges, icluding features like abyssal plains, abyssal hills, seamounts and deep sea trenches.

What does the topography of the deep ocean basins look like?

Abyssal plains:

1-1000km wide
>3km depth
Bottom gradient <0

Abyssal Hills:

0.1-100km wide

Seamounts: individual under water mountains

2-100km wide

Deep Sea Trench:

30-100km wide

What are mid ocean ridges?

continuous submarine mountain ranges that cover one third of the ocean floor
extends for 60.000km around the earth

How can the topography of an ocean affect the general charcateristics of its circulation?

Bottom waters are seperated by oceanic ridges and can leak only through narrow gaps called fracture zones
Trenches can steer and impact deep boundary currents
Ocean bottom roughness affects ocean mixing rates
Seamount chains can e.g. refract tsunami

How is the topography of the ocean determined?

Altimetry: Echo sounding and seismic reflection give information about topography and sediment layers

and satellite altimetry depending on local mass that result in greater gravitational attraction

What are the most imporant properies of water taht are a result of the dipole structure?

very high surface tension
very high heat capacity
very high latent heats of vaporization and fusion
extremelx good solvent
densty in the solid phas is less than in the liquid phase att common earth temperatures and pressures

How is the high heat capacitty of water affecting our climate?

-> 4700J to warm 1kg of water for 1K

water can store and release large amounts of energy without a major temperature change (90% of human made global warming)
diurnal temperature differences are much larger over land than over the ocean -> creates circular thermal wind pattern (Monsoon is the seasonal version of this over the Indian Ocean)

What are the effects of the high latent heats of vaporization and fusion? (energy needed to melt/evaporate water)

Don’t know if tehre is a great effect but ts 335J from ice to water and 2261J from water to vapor

What is the reason for water having higher densitty as a solid compared to liquid? Why is this important?

free moving molecules in the liquid phase are vibrating/moving
when temperature is reduced below 4°C molecules start forming tetrahedrons that take up more space than the molecules at 4°C -> highest density
strong jump at freezing point when all molecules are in tetrahedron structure

If this was not the case, lakes in winter would just freeze from the bottom up and all life would eventually disappear

What are the roles that sea ice plays?

important for albedo (radiation)
fresh water export due to brine rejection
momentum and heat transfer between ocean an atmosphere

Describe the process of sea ice growth

Two options with the same result:

Rough ocean (Pancake cycle)

Frazil ice turns into pnacake ice
Rafting and riding
Cementation and consolidation
Sheet ice (rough bottomed)

Calm ocean (Congelation growth)

Frazil ice turns into grease ice
Nilas
Rafting
Congelation ice
Sheet ice (smooth bottomed)

Why is water such a good solvent?

O in H2O is weakly negatively charged (attracts cations)
H in H2O are weakly positively charged (attracts anions)

What are the three state variables of seawater?

Temperature: Measure of kinetic energy at the molecular level relative to a standard (Celsius scale)
Salinity: Measure of the dissolved solids in seawater
Pressure: The force exerted by the mass overlying a water particle n the earths gravitational field

Define density

amount of mass per unit of volume (kg/m3)

-> determined by temperature, salinity and pressure

What is potential temperature?

-> Temperature relies on pressure (compression leads to an increase in temperature)

-> in situ temperature = temperature of a water parcel at current depth

-> potential temperature = temperature of a water parcel when moved to the surface

What is the difference between absolute and practical Salinity?

absolute Salinity:

mass fraction of dissolved material in seawater

practical Salinity: calculated from the conductivity of seawater (unitless - psu)

Where are the highest/lowest salinities on earth?

highest: Red Sea, Mediterranean, Atlantic subtropical Gyres

lowest: North Pacific ocean

What are the biggest sources and sinks for salinity?

Sources: salt input from weathering through rivers and accumulation in the ocean, (indirectly through evaporation)

Sinks: river runoff, precipitation (highest north of equator, inner tropical convergence zone)

What is the typical density range in the oceans?

1022-1028kg per m3

What is the Surface Mixed Layer?

Depth interval of constant temperature

-> varies seasonally due to wind mixing and surface heat fluxes

What is the thermocline?

Depth interval of rapidly increasing temperature

-> upper thermocline varies seasonally (seasonal thermocline)

-> lower thermocline is permanent (oceanic thermocline)

What do the seasonal variations of the thermocline look like?

Summer:

Heating produces shallow wind mixed layer and shallow seasonal thermocline

Fall:

Surface cooling and more storms cause deeper wind mixed layers and shrinking of the shallow thermocline

Winter:

Further cooling and wind increase wind mixed layer and eliminates the shallow thermocline

Spring:

Thermocline reforms due to heat gain and cycle starts again

-> deep thermocline remains all year

What are thermocline, halocline and pycnocline?

Thermocline: depth interval of rapidly increasing temperature

Halocline: depth interval of rapidly increasing salinity

Pycnocline: depth interval of rapidly increasing density

What is the frequency range of sound in the sea?

1Hz-10MHz with wave lengths of 1500m-0.15mm

What are the characteristics of acoustic waves?

compressional waves
longitudinal polarized (displacement parallel to wave vector)
dispersionless (phase speed ~ independent of frequency)

What is the difference between a tranverse wave and a longitudinal wave?

What is the sound speed in air vs. water? Can water travel between media?

air: 341m/s

water 1480m/s

-> only a small amount of sound energy starting in one medium can penetrate into the oher

Is sound speed constant in the ocean? How does sound speed change with depth?

Depends on temperature, salinity and pressure

Variable	Effect on sound speed
pressure	1.8m/sec/100m
temperature	5m/sec/1°C
salinity	3m/sec/1g/kg

-> salinity has barely any effect on sound speed

-> the deeper you go the faster the sound speed

-> the warmer it is the faster the sound speed

-> temperature dominates in the upper ocean while pressure dominates in the lower ocean

How does sound propagate?

along concentric circles from source
distance between constant phase lines depends on sound speed

What happens when sound travels from one region of a certain sound speed into anothe rregion with a different sound speed?

Snell’s Law: when going from one region to another the direction will change by the time of entering the second region

Which c is larger?

Gamma 2 is larger than Gamma 1
sin Gamma 2 has a higher value
C2 must be larger

Rule: sound waves are refracted towards tthe region with lower sound speed

How can temperature be measured using acoustic techniques?

sound depends strongly on water ttemperatures (can be used to determine large scale average temperature changes
changes in runtime between the scoustc instruments are caused by changes in sound speed

How do ADCPs (Acoustic Doppler Current Profiler) work?

transmit sound pulses at a fixed frequency
Sound is scattered at small particles that are advected by ocean currents
Depending on the movement of the reflecting feature, the frequency of the sound changes (Doppler effect)
Instrument listens to the Doppler shifted reflected/backscattered sound
Reflector movement and thus ocean current can be determined

What are the optical pathways of solar light?

Reflected: energy is returned unchanged (at surface)

Absorbed: energy is given to the object for atomic or molecular reactions (below surface)

Scattered: reflection with random direction (e.g. due to particles) (below surface)

Transmitted: direction of propagation changes

Emitted: once absorbed energy can be emitted (usually at longer wave lengths

What is attenuation of solar energy?

Net reduction in radiance, irradiance, or intensity resulting from both absorption and scattering

Why is the ocean blue?

Seawater absorbs red and yellow light and the remaining blue light is reflected back to our eye.

When there is a lot of suspended material in the water the colour can change (e.g. green due to absorbtion of blue and red by chlorophyll or brown due to CDOM)

What is CDOM?

-> Coloured Dssolved Organic Matter

Results of tannins released from decaying detritus

Can change colour of water in estuaries and lakes

How is light absorbed in the ocean?

What is the euphotic zone?

Bottom typically defined as depth where energy has fallen to 1% of value immediately below surface

What are Jerlov’s water types

classification based on water clarity as quantified by diffuse attenuation coefficient KEd
Open Ocean: type I, IA, IB, II, II (clear -> turbid)
Coastal water: type 1, 2, 3, 4, 5, 6, 7, 8, 9 (clear -> turbid)
based on transmittance along 1m of seawater

What are the inputs and outputs of freshwater at the air-sea interface?

Input:

precipitation onto the surface
river input
melting ice (icebergs and sea ice)

Output

evaporation from the surface
sea ice formation
movement of water within the ocean

Define the terms Transport, Flux and Budget

Transport: Stuff per time

volume transport -> m3/sec (10^6m3/sec = 1Sv)
salt transport -> kg/sec
heat transport -> J/sec

Flux: Transport per unit area (stuff per time per area)

Budget: Transport in and out of a closed volume

What is a negative water balance? Give an example for a negative and a positive marginal sea

-> evaporation exceeds precipitation plus river runoff

-> negative: Mediterranean sea (leads to outflow of high salinity water and inflow of low salinity water from the North Atlantic)

-> positive: Black Sea (net gain of fresh water from precipittation and runoff)

Where do we find the highest/lowest precipiation?

High

inter tropical convergence zone (ITCZ) north of the equator
indopacific warmpool regions (western part of the tropical Pacific and eastern partt of the tropical Indian Ocean)
-> where ascending branch of the atmospheric walker circulation is found
Northwestern Pacific and Atlantic above western boundary currents

Low