Summary from last class… Importance of large-scale ocean circulation –climate, biogeochemistry, marine resources Characteristic “Types” of Ocean Circulation –Patterns of circulation can be generalized for different regions –Suggests that dynamical processes are the same –Wind-driven, Buoyancy-driven & Coastal Scales - “spit on a basketball”
Sea Water Properties Water mass characteristics –Salinity, temperature, nutrients, oxygen Key property is seawater density –Changes in vertical - inhibit mixing –Changes in horizontal - drive currents –See Lecture 3 of Tomzcak’s web course gyre.umeoce.maine.edu/physicalocean/Tomczak/IntroOc/lecture03.html
What is Seawater? Seawater is 96.5% pure water About 3.5% is other materials dissolved salts, gases & organic substances as well as particles Physical properties are mainly determined by pure water
A Water Molecule Water is a non-polar molecule Weak hydrogen bonding
Consequences of Water’s Hydrogen Bonding Water forms a lattice or aggregation of many molecules (polywater)
Consequences of Water’s Hydrogen Bonding High specific heat (break the lattice!!) High latent heat for phase changes Great solvent
Consequences of Water’s Hydrogen Bonding Ice crystals take up more space than liquid water Ice Floats!! (rare for liquids) –Maximum density is water at 4C Critical for freshwater systems
More about ice... Seasonal turnover in lakes –As lakes cool they reach temperature of maximum density (4C) & overturn –Later ice forms at the surface, sheltering the interior from winter conditions –This allows fish over winter under the ice
More on Hydrogen Bonding
Back to Oceans... Density of seawater is controlled by –temperature –salinity (dissolved salt content) –pressure (related to depth) Equation of state = f(S,T,p) = [kg m -3 ] (S,T,p=0) range from 1020 to 1030 kg m -3
Temperature Temperature generally decreases with depth in the ocean Except where ice is formed, temperature changes primarily regulate density Rule of thumb = +1 kg m -3 for T = -5 C
Temperature Equatorial Pacific - WOCE150W
Temperature 60S - WOCE150W
Pacific Temperature eWOCE gallery –
Salinity Ocean waters are “salty” Salinity ~ [mass “salts”]/[mass seawater] The “salts” (Cl -, SO 4 -2, Na +, K +, etc.) are in approximate constant proportion –Law of salinity (residence time is huge) –Measure one ion [Cl - ] - estimate salinity
Salinity Salinity is measured electrically now Units are “practical salinity units” (psu) Often bottles are used
Salinity Salinity varies from 32 to 37 psu Atlantic is saltier than the Pacific… –Why?? Good water mass tracer Lower/higher values are unusual (riverine, huge evaporation, etc.)
Typical T & S Profiles Features Mixed layer Thermocline Halocline
Pacific Salinities eWOCE gallery –
Atlantic Salinity
Ocean Distribution of & S Mean ocean ~ 4 C & S ~ 34.8 psu
Pressure Pressure is due to the weight of sea water lying above a depth (hydrostatic) Pressure varies from 0 to >5000 db p = 0 is atmospheric pressure Note: 1 db pressure ~ 1 m depth
Potential Temperature Hydrostatic pressure will heat a water parcel as descends within the ocean Adiabatic lapse rate is ~ C/m A surface parcel (T=0 & S=35) will heat ~0.3C if moved to 3000 m depth Defines potential temperature or
Potential Temperature
World Ocean Atlas 1994 Global SST
Annual Change in SST
January July Net Air-Sea Heat Fluxes Red = Heat In Blue = Heat Out
Interannual SST Changes March 1998 relative to average March
World Ocean Atlas 1994 Global Salinity
Global Salinity & Air-Sea Fluxes
Global Salinity
1 Sverdrup = 10 6 m 3 s -1 Why is the Atlantic so salty?
Seawater Density Equation of state = f(S,T,p) = [kg m -3 ] (S,T,p=0) range from 1020 to 1040 kg m -3 Shorthand sigma-t: t = (S,T,0) t (S,T) ranges from 20 to 40 –Similarly, sigma-theta: = (S, ,0)
Seawater Density Density of seawater is controlled by Temperature, salinity & pressure – = f(S,T,p) Rule of Thumb => = +1 kg m -3 IF S = +1 psu OR T = -5C OR p = +100 db
T-S Diagram (full range) Max density Freezing Values of t
T-S Diagram (typical range)
Density Calculator
Review Fundamental seawater properties –Salinity, temperature & pressure Density is the important variable –in situ density (S,T,p) –Sigma-t (S,T,0) – 1000 –Sigma- (S, ,0) – 1000
Review Rules of thumb -> = +1 kg m -3 T = -5C, S = 1 psu or p = 100 db Global surface T & S driven largely by air- sea exchanges Dense water sinks… now we're talking dynamics